WO2016187865A1 - Bluetooth warning headset device with electromagnetic radiation test function - Google Patents
Bluetooth warning headset device with electromagnetic radiation test function Download PDFInfo
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- WO2016187865A1 WO2016187865A1 PCT/CN2015/080036 CN2015080036W WO2016187865A1 WO 2016187865 A1 WO2016187865 A1 WO 2016187865A1 CN 2015080036 W CN2015080036 W CN 2015080036W WO 2016187865 A1 WO2016187865 A1 WO 2016187865A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R1/00—Details of transducers, loudspeakers or microphones
- H04R1/10—Earpieces; Attachments therefor ; Earphones; Monophonic headphones
Definitions
- the invention relates to a Bluetooth early warning earphone device with electromagnetic radiation test function, belonging to the technical field of wearable intelligent electronic devices.
- the earphone has become the most important portable audio signal listening device, and the usage is huge, but in use, it is found that the current earphone structure is mostly based on The small speaker prepared from the magnet material is prepared with the elastic sealing and the protective layer.
- the transmission efficiency of the audio signal is low when used, and the noise in the external environment of the earphone is also very easy to cause serious interference to the audio signal, thereby affecting the use.
- the listening effect of the current headphones is also very easy to cause the audio signal in the earphone to spread to the surrounding environment.
- the quality of the audio signal is reduced, and on the other hand, the audio information is leaked, and the information is unfavorable during the listening process.
- the current living environment is filled with electromagnetic radiation of various intensities, which on the one hand will cause harm to human health, on the other hand, it will also operate normally on various electronic devices. causes the impact, resulting in a decrease in the accuracy of its operation, even in severe cases
- the device is damaged, how to combine the electromagnetic environment detection function with the earphones that people can easily carry and use has become an important direction for the development of the current earphone device. It is urgent to develop an invented earphone device to overcome the current deficiencies and meet the actual situation. Need to use.
- the present invention provides a Bluetooth early warning earphone device with electromagnetic radiation testing function.
- the invention has a high degree of integration, small size, and adopts wireless data transmission mode, thereby overcoming the use of the traditional wired earphone.
- the phenomenon of interference with the user's daily life and work activities improves the flexibility of use, and at the same time improves the ability of the earphone device to accept and transmit audio signals, and overcomes the problem.
- the influence of the boundary noise on the audio listening of the earphone improves the reliability of the use of the earphone device.
- it can detect and alarm the electromagnetic radiation in the environment where the user is located, thereby effectively avoiding the long time due to personnel or equipment. Bursts cause disease or equipment failure in a strong electromagnetic radiation environment.
- a Bluetooth early warning earphone device with electromagnetic radiation test function including positioning ring, outer casing, driving power supply, control system, electromagnetic radiation sensor, LED light source, four-color sensor, vibration signal converter, bone conduction oscillator, voice coil, magnet and The elastic piece, wherein the housing comprises a functional cavity and a control cavity, wherein the functional cavity and the control cavity are in communication with each other, wherein the functional cavity is a cylindrical structure, and the voice coil, the magnet and the elastic piece are located inside the functional cavity and are coaxially distributed with the functional cavity, wherein The voice coil has a ring structure and is distributed around the magnet.
- the elastic piece is additionally coated on the end face of the magnet.
- the detection cavity and the positioning groove are separately disposed on the side wall of the function cavity.
- the electromagnetic radiation sensor and the LED light source are embedded in the detection hole, and the front end of the detection hole is further
- the light-transmissive end cover, the four-color sensor and the vibration signal converter are installed in the positioning groove, and the inner surface of the shell function cavity is additionally provided with a sound insulation cotton layer, and the driving power source and the control system are all located in the control cavity, wherein the driving power source and the control system respectively , electromagnetic radiation sensor, LED light source, four-color sensor, vibration signal converter, voice coil electrical connection, control system including digital sound Control module, data processing module, Bluetooth data transmission module, indicator button module, electromagnetic radiation detection module and filtering module, wherein the data processing module and digital audio control module, Bluetooth data transmission module, indicator button module, electromagnetic radiation detection module And the driving power supply is electrically connected, the button in the indicator button module is additionally embedded on the outer surface of the control cavity, and the electromagnetic radiation detecting module is electrically connected to the electromagnetic radiation sensor, the LED light source, the four-color sensor, the vibration signal converter through the filtering module, and the number
- control chamber and the functional cavity of the outer casing and the human body contact surface are separately provided with a bomb sexual gasket.
- At least one signal indicator light is additionally disposed on the control cavity of the outer casing, and the signal indicator light is electrically connected to the control system.
- the digital audio control module includes an audio conversion circuit, a noise reduction circuit, an equalizer adjustment circuit, and a volume and control adjustment circuit.
- the invention has the advantages of high degree of integration, small size, and wireless data transmission mode, thereby overcoming the interference of the daily life and work activities of the user in the use of the traditional wired earphone, thereby improving the flexibility of use, and at the same time
- it improves the ability of the earphone device to accept and transmit the audio signal, and overcomes the influence of external noise on the audio listening of the earphone, improves the reliability of the use of the earphone device, and on the other hand, in the environment where the user is located.
- Electromagnetic radiation is detected and alarmed, thereby effectively preventing diseases or equipment failures caused by long-term leakage of personnel or equipment in a strong electromagnetic radiation environment.
- Figure 1 is a schematic structural view of the present invention
- FIG. 2 is a schematic block diagram of an electrical principle of the present invention
- FIG. 3 is a schematic block diagram of the electrical principle of the control system
- a Bluetooth early warning earphone device with electromagnetic radiation test function includes a positioning ring 1, a casing 2, a driving power source 3, a control system, an electromagnetic radiation sensor 4, an LED light source 5, and a four-color sensor 6,
- the cylindrical structure, the voice coil 9, the magnet 10 and the elastic piece 11 are all located inside the functional cavity 21 and distributed coaxially with the function 21 cavity, wherein the voice coil 9 has a ring structure and is distributed around the magnet 10, and the elastic piece 11 is additionally coated.
- the detecting hole 12 and the positioning groove 13 are separately disposed on the side wall of the functional cavity 21, and the electromagnetic radiation sensor 4 and the LED light source 5 are respectively embedded in the detecting hole 12, and the transparent end cover 14 is further disposed at the front end of the detecting hole 12.
- the four-color sensor 6 and the vibration signal converter 7 are installed in the positioning slot 13, and the inner surface of the functional cavity 21 of the housing 2 is additionally provided with a sound insulating cotton layer 23.
- the driving power source 3 and the control system are all located in the control cavity 22, wherein the driving power source 3 They are electrically connected to the control system, the electromagnetic radiation sensor 4, the LED light source 5, the four-color sensor 6, the vibration signal converter 7, and the voice coil 9, respectively.
- the control system described in this embodiment includes a digital audio control module, a data processing module, a Bluetooth data transmission module, an indicator button module, an electromagnetic radiation detection module, and a filtering module, wherein the data processing module and the number respectively
- the audio control module, the Bluetooth data transmission module, the indicator button module, the electromagnetic radiation detecting module and the driving power source 3 are electrically connected, and the button 15 in the indicator button module is additionally embedded on the outer surface of the control cavity 22, and the electromagnetic radiation detecting module passes the filtering module
- the electromagnetic radiation sensor 4, the LED light source 5, the four-color sensor 6, and the vibration signal converter 7 are respectively electrically connected, and the digital audio control module is electrically connected to the Bluetooth data transmission module and the voice coil 9, respectively, and the outer surface of the control chamber 22 of the outer casing 2 is additionally
- At least one bone transducer 8 is disposed, and 16 pieces of the pressure adjusting elastic body are slidably connected with the bone conduction vibrator 8 , and the bone conduction vibrator 8 is electrically connected to the digital audio control module, and
- control chamber 22 and the functional cavity 21 of the outer casing 2 and the human body contact surface are additionally provided with an elastic sealing pad 24.
- At least one signal indicator light 25 is additionally disposed on the control cavity 22 of the outer casing 2, and the signal indicator light 25 is electrically connected to the control system.
- the digital audio control module includes an audio conversion circuit, a noise reduction circuit, an equalizer adjustment circuit, and a volume and control adjustment circuit.
- the invention has the advantages of high degree of integration, small size, and wireless data transmission mode, thereby overcoming the interference of the daily life and work activities of the user in the use of the traditional wired earphone, thereby improving the flexibility of use, and at the same time
- the earphone device is improved.
- the audio signal receiving and transmitting ability overcomes the influence of external noise on the earphone audio listening, improves the reliability of the earphone device, and on the other hand detects the electromagnetic radiation in the environment where the user is located. Alarms, thus effectively avoiding illness or equipment failure caused by long-term leakage of personnel or equipment in a strong electromagnetic radiation environment.
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- Acoustics & Sound (AREA)
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- Headphones And Earphones (AREA)
Abstract
The present invention relates to a Bluetooth warning headset device with an electromagnetic radiation test function, comprising a locating ring, a housing, a drive power supply, a control system, an electromagnetic radiation sensor, an LED light source, a four-color sensor, a vibration signal converter, bone conduction oscillators, a voice coil, a magnetic body and a spring sheet, wherein the housing comprises a functional cavity and a control cavity, and a detection hole and a locating groove are additionally provided on a side wall of the functional cavity; the electromagnetic radiation sensor and the LED light source are embedded in the detection hole; the four-color sensor and the vibration signal converter are installed in the locating groove; the control system comprises a digital audio regulation and control module, a data processing module, a Bluetooth data transmission module, an indicator light key module, an electromagnetic radiation detection module, and a filtering module; the at least one bone conduction oscillator is additionally arranged on the outer surface of the control cavity of the housing; and the locating ring is hinged to the outer surface of the housing. The present invention improves the receiving and conducting capabilities of a headset device for audio signals on one hand, and is capable of detecting the electromagnetic radiation quantity of an environment where a user is located, and giving an alarm on the other hand.
Description
本发明涉及一种具备电磁辐射测试功能的蓝牙预警耳机装置,属可穿戴智能电子设备技术领域。The invention relates to a Bluetooth early warning earphone device with electromagnetic radiation test function, belonging to the technical field of wearable intelligent electronic devices.
当前为了方便人们对音频喜好收听的方便、提高音频信号收听质量及保密性,耳机成为了最为主要的便携式音频信号收听设备,使用量巨大,但在使用中发现,当前的耳机结构多是通过基于磁体材料制备而成的小型扬声器并配合弹性密封及防护层制备而成,使用时音频信号的传递效率较为低下,同时耳机外部环境中的杂音也极易对音频信号造成严重的干扰,从而影响使用者的收听效果,当期的耳机使用时也极易造成耳机中的音频信号扩散到周边环境中,一方面降低了音频信号的质量,另一方面也造成音频信息的泄漏,不利信息于收听过程的安全及可靠性,于此同时,当前所生活的环境中充斥这各种强度的电磁辐射,而这些电磁腐蚀一方面会对人身健康造成伤害,另一方面也会对多种电子设备的正常运行造成影响,导致其运行精度下降,严重时甚至造成设备损毁,因此如何将电磁环境检测功能与人们便于携带使用的耳机相结合,成为了当前耳机设备发展的一个重要方向,迫切需要开发一种发明的耳机装置,以克服当前的不足,满足实际使用的需要。At present, in order to facilitate people's convenience in listening to audio preferences, improving audio signal listening quality and confidentiality, the earphone has become the most important portable audio signal listening device, and the usage is huge, but in use, it is found that the current earphone structure is mostly based on The small speaker prepared from the magnet material is prepared with the elastic sealing and the protective layer. The transmission efficiency of the audio signal is low when used, and the noise in the external environment of the earphone is also very easy to cause serious interference to the audio signal, thereby affecting the use. The listening effect of the current headphones is also very easy to cause the audio signal in the earphone to spread to the surrounding environment. On the one hand, the quality of the audio signal is reduced, and on the other hand, the audio information is leaked, and the information is unfavorable during the listening process. Safety and reliability, at the same time, the current living environment is filled with electromagnetic radiation of various intensities, which on the one hand will cause harm to human health, on the other hand, it will also operate normally on various electronic devices. Causes the impact, resulting in a decrease in the accuracy of its operation, even in severe cases As the device is damaged, how to combine the electromagnetic environment detection function with the earphones that people can easily carry and use has become an important direction for the development of the current earphone device. It is urgent to develop an invented earphone device to overcome the current deficiencies and meet the actual situation. Need to use.
发明内容Summary of the invention
针对现有技术上存在的不足,本发明提供一种具备电磁辐射测试功能的蓝牙预警耳机装置,该发明结构集成化程度高,体积小巧,并采用无线数据传输方式,从而克服了传统有线耳机使用中对使用者的日常生活及工作活动干扰的现象,提高了使用的灵活性,于此同时另一方面提高了耳机设备对音频信号接受及传导能力同时,并克服了外
界噪声对耳机音频收听时的影响,提高了耳机设备使用可靠性,另一方面另可对使用者所处的环境中的电磁辐射两进行检测并报警,从而有效的避免因人员或设备长时间暴漏在强电磁辐射环境中而引发疾病或设备故障。In view of the deficiencies in the prior art, the present invention provides a Bluetooth early warning earphone device with electromagnetic radiation testing function. The invention has a high degree of integration, small size, and adopts wireless data transmission mode, thereby overcoming the use of the traditional wired earphone. The phenomenon of interference with the user's daily life and work activities improves the flexibility of use, and at the same time improves the ability of the earphone device to accept and transmit audio signals, and overcomes the problem.
The influence of the boundary noise on the audio listening of the earphone improves the reliability of the use of the earphone device. On the other hand, it can detect and alarm the electromagnetic radiation in the environment where the user is located, thereby effectively avoiding the long time due to personnel or equipment. Bursts cause disease or equipment failure in a strong electromagnetic radiation environment.
为了实现上述目的,本发明是通过如下的技术方案来实现:In order to achieve the above object, the present invention is achieved by the following technical solutions:
一种具备电磁辐射测试功能的蓝牙预警耳机装置,包括定位环、外壳、驱动电源、控制系统、电磁辐射传感器、LED光源、四色传感器、振动信号转换器、骨导振子、音圈、磁体及弹片,其中壳体包括功能腔及控制腔,功能腔与控制腔相互连通,其中功能器腔为圆柱形结构,音圈、磁体及弹片均位于功能腔内部,并与功能腔同轴分布,其中音圈呈环形结构并环绕磁体分布,弹片另包覆在磁体端面上,功能腔侧壁上另设检测孔及定位槽,电磁辐射传感器、LED光源均嵌于检测孔内,且检测孔前端另设透光端盖,四色传感器、振动信号转换器安装在定位槽内,壳体功能腔内表面另设隔音棉层,驱动电源、控制系统均位于控制腔内,其中驱动电源分别与控制系统、电磁辐射传感器、LED光源、四色传感器、振动信号转换器、音圈电气连接,控制系统包括数字音频调控模块、数据处理模块、蓝牙数据传输模块、指示灯按键模块、电磁辐射检测模块及滤波模块,其中数据处理模块分别与数字音频调控模块、蓝牙数据传输模块、指示灯按键模块、电磁辐射检测模块及驱动电源电气连接,指示灯按键模块中的按键另嵌于控制腔外表面上,电磁辐射检测模块通过滤波模块分别与电磁辐射传感器、LED光源、四色传感器、振动信号转换器电气连接,数字音频调控模块另分别与蓝牙数据传输模块和音圈电气连接,外壳的控制腔外表面另设至少一个骨导振子,并通过压力调节弹片与骨导振子滑动连接,且骨导振子另与数字音频调控模块电气连接,定位环与外壳外表铰接,且铰接处另设复位弹簧。A Bluetooth early warning earphone device with electromagnetic radiation test function, including positioning ring, outer casing, driving power supply, control system, electromagnetic radiation sensor, LED light source, four-color sensor, vibration signal converter, bone conduction oscillator, voice coil, magnet and The elastic piece, wherein the housing comprises a functional cavity and a control cavity, wherein the functional cavity and the control cavity are in communication with each other, wherein the functional cavity is a cylindrical structure, and the voice coil, the magnet and the elastic piece are located inside the functional cavity and are coaxially distributed with the functional cavity, wherein The voice coil has a ring structure and is distributed around the magnet. The elastic piece is additionally coated on the end face of the magnet. The detection cavity and the positioning groove are separately disposed on the side wall of the function cavity. The electromagnetic radiation sensor and the LED light source are embedded in the detection hole, and the front end of the detection hole is further The light-transmissive end cover, the four-color sensor and the vibration signal converter are installed in the positioning groove, and the inner surface of the shell function cavity is additionally provided with a sound insulation cotton layer, and the driving power source and the control system are all located in the control cavity, wherein the driving power source and the control system respectively , electromagnetic radiation sensor, LED light source, four-color sensor, vibration signal converter, voice coil electrical connection, control system including digital sound Control module, data processing module, Bluetooth data transmission module, indicator button module, electromagnetic radiation detection module and filtering module, wherein the data processing module and digital audio control module, Bluetooth data transmission module, indicator button module, electromagnetic radiation detection module And the driving power supply is electrically connected, the button in the indicator button module is additionally embedded on the outer surface of the control cavity, and the electromagnetic radiation detecting module is electrically connected to the electromagnetic radiation sensor, the LED light source, the four-color sensor, the vibration signal converter through the filtering module, and the number The audio control module is further electrically connected with the Bluetooth data transmission module and the voice coil respectively, and at least one bone guide oscillator is additionally disposed on the outer surface of the control cavity of the outer casing, and is connected with the bone conduction oscillator through the pressure regulation elastic piece, and the bone conduction oscillator is additionally regulated with digital audio. The module is electrically connected, the positioning ring is hinged to the outer surface of the outer casing, and a return spring is additionally provided at the hinge.
进一步的,所述的外壳的控制腔及功能腔与人体接触面上另设弹
性密封垫。Further, the control chamber and the functional cavity of the outer casing and the human body contact surface are separately provided with a bomb
Sexual gasket.
进一步的,所述的外壳的控制腔上另设至少一个信号指示灯,且信号指示灯另与控制系统电气连接。Further, at least one signal indicator light is additionally disposed on the control cavity of the outer casing, and the signal indicator light is electrically connected to the control system.
进一步的,所述的数字音频调控模块包括音频转换电路、降噪电路、均衡器调节电路及音量和控制调节电路。Further, the digital audio control module includes an audio conversion circuit, a noise reduction circuit, an equalizer adjustment circuit, and a volume and control adjustment circuit.
本发明结构集成化程度高,体积小巧,并采用无线数据传输方式,从而克服了传统有线耳机使用中对使用者的日常生活及工作活动干扰的现象,提高了使用的灵活性,于此同时另一方面提高了耳机设备对音频信号接受及传导能力同时,并克服了外界噪声对耳机音频收听时的影响,提高了耳机设备使用可靠性,另一方面另可对使用者所处的环境中的电磁辐射两进行检测并报警,从而有效的避免因人员或设备长时间暴漏在强电磁辐射环境中而引发疾病或设备故障。The invention has the advantages of high degree of integration, small size, and wireless data transmission mode, thereby overcoming the interference of the daily life and work activities of the user in the use of the traditional wired earphone, thereby improving the flexibility of use, and at the same time On the one hand, it improves the ability of the earphone device to accept and transmit the audio signal, and overcomes the influence of external noise on the audio listening of the earphone, improves the reliability of the use of the earphone device, and on the other hand, in the environment where the user is located. Electromagnetic radiation is detected and alarmed, thereby effectively preventing diseases or equipment failures caused by long-term leakage of personnel or equipment in a strong electromagnetic radiation environment.
下面结合附图和具体实施方式来详细说明本发明;The invention will be described in detail below with reference to the accompanying drawings and specific embodiments;
图1为本发明结构示意图;Figure 1 is a schematic structural view of the present invention;
图2为本发明电气原理示意框图;2 is a schematic block diagram of an electrical principle of the present invention;
图3为控制系统电气原理示意框图Figure 3 is a schematic block diagram of the electrical principle of the control system
为使本发明实现的技术手段、创作特征、达成目的与功效易于明白了解,下面结合具体实施方式,进一步阐述本发明。In order to make the technical means, the authoring features, the achievement of the object and the effect of the present invention easy to understand, the present invention will be further described below in conjunction with the specific embodiments.
如图1和2所述的一种具备电磁辐射测试功能的蓝牙预警耳机装置,包括定位环1、外壳2、驱动电源3、控制系统、电磁辐射传感器4、LED光源5、四色传感器6、振动信号转换器7、骨导振子8、音圈9、磁体10及弹片11,其中壳体2包括功能腔21及控制腔22,功能腔21与控制腔22相互连通,其中功能器腔21为圆柱形结构,音圈9、磁体10及弹片11均位于功能腔21内部,并与功能21腔同轴分布,其中音圈9呈环形结构并环绕磁体10分布,弹片11另包覆
在磁体10端面上,功能腔21侧壁上另设检测孔12及定位槽13,电磁辐射传感器4、LED光源5均嵌于检测孔12内,且检测孔12前端另设透光端盖14,四色传感器6、振动信号转换器7安装在定位槽13内,壳体2功能腔21内表面另设隔音棉层23,驱动电源3、控制系统均位于控制腔22内,其中驱动电源3分别与控制系统、电磁辐射传感器4、LED光源5、四色传感器6、振动信号转换器7、音圈9电气连接。As shown in FIGS. 1 and 2, a Bluetooth early warning earphone device with electromagnetic radiation test function includes a positioning ring 1, a casing 2, a driving power source 3, a control system, an electromagnetic radiation sensor 4, an LED light source 5, and a four-color sensor 6, The vibration signal converter 7, the bone transducer 8, the voice coil 9, the magnet 10 and the elastic piece 11, wherein the housing 2 includes a functional cavity 21 and a control cavity 22, and the functional cavity 21 and the control cavity 22 communicate with each other, wherein the functional cavity 21 is The cylindrical structure, the voice coil 9, the magnet 10 and the elastic piece 11 are all located inside the functional cavity 21 and distributed coaxially with the function 21 cavity, wherein the voice coil 9 has a ring structure and is distributed around the magnet 10, and the elastic piece 11 is additionally coated.
On the end surface of the magnet 10, the detecting hole 12 and the positioning groove 13 are separately disposed on the side wall of the functional cavity 21, and the electromagnetic radiation sensor 4 and the LED light source 5 are respectively embedded in the detecting hole 12, and the transparent end cover 14 is further disposed at the front end of the detecting hole 12. The four-color sensor 6 and the vibration signal converter 7 are installed in the positioning slot 13, and the inner surface of the functional cavity 21 of the housing 2 is additionally provided with a sound insulating cotton layer 23. The driving power source 3 and the control system are all located in the control cavity 22, wherein the driving power source 3 They are electrically connected to the control system, the electromagnetic radiation sensor 4, the LED light source 5, the four-color sensor 6, the vibration signal converter 7, and the voice coil 9, respectively.
如图3所示,本实施例中所述的控制系统包括数字音频调控模块、数据处理模块、蓝牙数据传输模块、指示灯按键模块、电磁辐射检测模块及滤波模块,其中数据处理模块分别与数字音频调控模块、蓝牙数据传输模块、指示灯按键模块、电磁辐射检测模块及驱动电源3电气连接,指示灯按键模块中的按键15另嵌于控制腔22外表面上,电磁辐射检测模块通过滤波模块分别与电磁辐射传感器4、LED光源5、四色传感器6、振动信号转换器7电气连接,数字音频调控模块另分别与蓝牙数据传输模块和音圈9电气连接,外壳2的控制腔22外表面另设至少一个骨导振子8,并通过压力调节弹16片与骨导振子8滑动连接,且骨导振子8另与数字音频调控模块电气连接,定位环1与外壳外2表铰接,且铰接处另设复位弹簧17。As shown in FIG. 3, the control system described in this embodiment includes a digital audio control module, a data processing module, a Bluetooth data transmission module, an indicator button module, an electromagnetic radiation detection module, and a filtering module, wherein the data processing module and the number respectively The audio control module, the Bluetooth data transmission module, the indicator button module, the electromagnetic radiation detecting module and the driving power source 3 are electrically connected, and the button 15 in the indicator button module is additionally embedded on the outer surface of the control cavity 22, and the electromagnetic radiation detecting module passes the filtering module The electromagnetic radiation sensor 4, the LED light source 5, the four-color sensor 6, and the vibration signal converter 7 are respectively electrically connected, and the digital audio control module is electrically connected to the Bluetooth data transmission module and the voice coil 9, respectively, and the outer surface of the control chamber 22 of the outer casing 2 is additionally At least one bone transducer 8 is disposed, and 16 pieces of the pressure adjusting elastic body are slidably connected with the bone conduction vibrator 8 , and the bone conduction vibrator 8 is electrically connected to the digital audio control module, and the positioning ring 1 is hinged to the outer surface of the outer casing, and the hinge is A return spring 17 is additionally provided.
本实施例中,所述的外壳2的控制腔22及功能腔21与人体接触面上另设弹性密封垫24。In this embodiment, the control chamber 22 and the functional cavity 21 of the outer casing 2 and the human body contact surface are additionally provided with an elastic sealing pad 24.
本实施例中,所述的外壳2的控制腔22上另设至少一个信号指示灯25,且信号指示灯25另与控制系统电气连接。In this embodiment, at least one signal indicator light 25 is additionally disposed on the control cavity 22 of the outer casing 2, and the signal indicator light 25 is electrically connected to the control system.
本实施例中,所述的数字音频调控模块包括音频转换电路、降噪电路、均衡器调节电路及音量和控制调节电路。In this embodiment, the digital audio control module includes an audio conversion circuit, a noise reduction circuit, an equalizer adjustment circuit, and a volume and control adjustment circuit.
本发明结构集成化程度高,体积小巧,并采用无线数据传输方式,从而克服了传统有线耳机使用中对使用者的日常生活及工作活动干扰的现象,提高了使用的灵活性,于此同时另一方面提高了耳机设备
对音频信号接受及传导能力同时,并克服了外界噪声对耳机音频收听时的影响,提高了耳机设备使用可靠性,另一方面另可对使用者所处的环境中的电磁辐射两进行检测并报警,从而有效的避免因人员或设备长时间暴漏在强电磁辐射环境中而引发疾病或设备故障。The invention has the advantages of high degree of integration, small size, and wireless data transmission mode, thereby overcoming the interference of the daily life and work activities of the user in the use of the traditional wired earphone, thereby improving the flexibility of use, and at the same time On the one hand, the earphone device is improved.
At the same time, the audio signal receiving and transmitting ability overcomes the influence of external noise on the earphone audio listening, improves the reliability of the earphone device, and on the other hand detects the electromagnetic radiation in the environment where the user is located. Alarms, thus effectively avoiding illness or equipment failure caused by long-term leakage of personnel or equipment in a strong electromagnetic radiation environment.
以上显示和描述了本发明的基本原理和主要特征和本发明的优点。本行业的技术人员应该了解,本发明不受上述实施例的限制,上述实施例和说明书中描述的只是说明本发明的原理,在不脱离本发明精神和范围的前提下,本发明还会有各种变化和改进,这些变化和改进都落入要求保护的本发明范围内。本发明要求保护范围由所附的权利要求书及其等效物界定。
The basic principles and main features of the present invention and the advantages of the present invention are shown and described above. It should be understood by those skilled in the art that the present invention is not limited by the foregoing embodiments, and that the present invention is only described in the foregoing description and the description of the present invention, without departing from the spirit and scope of the invention. Various changes and modifications are intended to be included within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and their equivalents.
Claims (4)
- 一种具备电磁辐射测试功能的蓝牙预警耳机装置,其特征在于:其包括定位环、外壳、驱动电源、控制系统、电磁辐射传感器、LED光源、四色传感器、振动信号转换器、骨导振子、音圈、磁体及弹片,其中所述的壳体包括功能腔及控制腔,所述的功能腔与控制腔相互连通,其中所述的功能器腔为圆柱形结构,所述的音圈、磁体及弹片均位于功能腔内部,并与功能腔同轴分布;所述的音圈呈环形结构并环绕磁体分布,所述的弹片另包覆在磁体端面上,所述的功能腔侧壁上另设检测孔及定位槽,所述的电磁辐射传感器、LED光源均嵌于检测孔内,且检测孔前端另设透光端盖,所述四色传感器、振动信号转换器安装在定位槽内,所述的壳体功能腔内表面另设隔音棉层,所述的驱动电源、控制系统均位于控制腔内,其中所述的驱动电源分别与控制系统、电磁辐射传感器、LED光源、四色传感器、振动信号转换器、音圈电气连接,所述的控制系统包括数字音频调控模块、数据处理模块、蓝牙数据传输模块、指示灯按键模块、电磁辐射检测模块及滤波模块,其中所述的数据处理模块分别与数字音频调控模块、蓝牙数据传输模块、指示灯按键模块、电磁辐射检测模块及驱动电源电气连接,所述的指示灯按键模块中的按键另嵌于控制腔外表面上,所述的电磁辐射检测模块通过滤波模块分别与电磁辐射传感器、LED光源、四色传感器、振动信号转换器电气连接,所述的数字音频调控模块另分别与蓝牙数据传输模块和音圈电气连接,所述的外壳的控制腔外表面另设至少一个骨导振子,并通过压力调节弹片与 骨导振子滑动连接,且骨导振子另与数字音频调控模块电气连接,所述的定位环与外壳外表铰接,且铰接处另设复位弹簧。A Bluetooth early warning earphone device with electromagnetic radiation testing function, comprising: a positioning ring, a casing, a driving power source, a control system, an electromagnetic radiation sensor, an LED light source, a four-color sensor, a vibration signal converter, a bone conduction oscillator, a voice coil, a magnet and a spring piece, wherein the housing comprises a functional cavity and a control cavity, wherein the functional cavity and the control cavity are in communication with each other, wherein the functional cavity is a cylindrical structure, the voice coil and the magnet And the elastic piece is located inside the functional cavity and is coaxially distributed with the functional cavity; the voice coil has an annular structure and is distributed around the magnet, and the elastic piece is additionally coated on the end surface of the magnet, and the side wall of the functional cavity is further The detection hole and the positioning groove are disposed, the electromagnetic radiation sensor and the LED light source are respectively embedded in the detection hole, and the front end of the detection hole is further provided with a transparent end cover, and the four-color sensor and the vibration signal converter are installed in the positioning groove. The inner surface of the shell function cavity is further provided with a sound insulation cotton layer, and the driving power source and the control system are all located in the control cavity, wherein the driving power source is respectively connected with the control system and the electromagnetic The sensor, the LED light source, the four-color sensor, the vibration signal converter, the voice coil electrical connection, the control system comprises a digital audio control module, a data processing module, a Bluetooth data transmission module, an indicator button module, an electromagnetic radiation detection module and a filtering module, wherein the data processing module is electrically connected to the digital audio control module, the Bluetooth data transmission module, the indicator button module, the electromagnetic radiation detecting module and the driving power source, and the button in the indicator button module is embedded in the On the outer surface of the control cavity, the electromagnetic radiation detecting module is electrically connected to the electromagnetic radiation sensor, the LED light source, the four-color sensor, and the vibration signal converter through the filtering module, and the digital audio control module is separately connected with the Bluetooth data transmission module. Electrically connected to the voice coil, the outer surface of the control chamber of the outer casing is provided with at least one bone oscillating body, and the pressure regulating elastic piece is The bone oscillating member is slidably connected, and the bone oscillating transducer is electrically connected to the digital audio control module. The positioning ring is hinged to the outer surface of the outer casing, and a return spring is additionally provided at the hinge.
- 根据权利要求1所述的一种具备电磁辐射测试功能的蓝牙预警耳机装置,其特征在于,所述的外壳的控制腔及功能腔与人体接触面上另设弹性密封垫。The invention relates to a Bluetooth early warning earphone device with electromagnetic radiation test function according to claim 1, wherein an elastic sealing pad is further disposed on the control cavity and the functional cavity of the outer casing and the human body contact surface.
- 根据权利要求1所述的一种具备电磁辐射测试功能的蓝牙预警耳机装置,其特征在于,所述的外壳的控制腔上另设至少一个信号指示灯,且信号指示灯另与控制系统电气连接。The Bluetooth early warning earphone device with electromagnetic radiation test function according to claim 1, wherein at least one signal indicator light is additionally disposed on the control cavity of the outer casing, and the signal indicator light is electrically connected to the control system. .
- 根据权利要求1所述的一种具备电磁辐射测试功能的蓝牙预警耳机装置,其特征在于,所述的数字音频调控模块包括音频转换电路、降噪电路、均衡器调节电路及音量和控制调节电路。 The Bluetooth early warning earphone device with electromagnetic radiation test function according to claim 1, wherein the digital audio control module comprises an audio conversion circuit, a noise reduction circuit, an equalizer adjustment circuit, and a volume and control adjustment circuit. .
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112019179A (en) * | 2020-09-07 | 2020-12-01 | 南京宁普防雷技术有限公司 | Network signal electromagnetic pulse protection mechanism |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2412533A (en) * | 2004-03-22 | 2005-09-28 | Global Target Entpr Inc | Adjustable wireless earphone |
CN201114033Y (en) * | 2007-09-04 | 2008-09-10 | 汪玉华 | Wireless earphone |
CN101354412A (en) * | 2008-08-28 | 2009-01-28 | 深圳华为通信技术有限公司 | Apparatus for testing electromagnetic radiation strength |
US20140079240A1 (en) * | 2012-09-14 | 2014-03-20 | Samsung Electronics Co., Ltd. | Bluetooth headset |
WO2015053418A1 (en) * | 2013-10-08 | 2015-04-16 | 유한회사 청텍 | Multifunctional sport headset |
-
2015
- 2015-05-28 WO PCT/CN2015/080036 patent/WO2016187865A1/en active Application Filing
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2412533A (en) * | 2004-03-22 | 2005-09-28 | Global Target Entpr Inc | Adjustable wireless earphone |
CN201114033Y (en) * | 2007-09-04 | 2008-09-10 | 汪玉华 | Wireless earphone |
CN101354412A (en) * | 2008-08-28 | 2009-01-28 | 深圳华为通信技术有限公司 | Apparatus for testing electromagnetic radiation strength |
US20140079240A1 (en) * | 2012-09-14 | 2014-03-20 | Samsung Electronics Co., Ltd. | Bluetooth headset |
WO2015053418A1 (en) * | 2013-10-08 | 2015-04-16 | 유한회사 청텍 | Multifunctional sport headset |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112019179A (en) * | 2020-09-07 | 2020-12-01 | 南京宁普防雷技术有限公司 | Network signal electromagnetic pulse protection mechanism |
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