CN105521560A - APP-controlling wearable portable pulse sweating suppression instrument and use method - Google Patents

APP-controlling wearable portable pulse sweating suppression instrument and use method Download PDF

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CN105521560A
CN105521560A CN201510630899.XA CN201510630899A CN105521560A CN 105521560 A CN105521560 A CN 105521560A CN 201510630899 A CN201510630899 A CN 201510630899A CN 105521560 A CN105521560 A CN 105521560A
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pulse
app
module
output
current
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CN201510630899.XA
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任豫弘
任红伟
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河南卓安科技有限公司
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Abstract

The invention relates to the technical field of medical care equipment, and discloses an APP (Application)-controlling wearable portable pulse sweating suppression instrument. The APP-controlling wearable portable pulse sweating suppression instrument comprises an intelligent mobile equipment APP and a portable pulse sweating suppression device, wherein the intelligent mobile equipment APP is connected with a pulse generator through a Bluetooth communication module in a wireless way; the pulse generator comprises a direct current voltage conversion circuit, an MCU (Micro Control Unit), a pulse output control module and a load detection module; a load detection module is arranged between the MCU and a negative electrode arranged at the output end of the pulse output control module, and is used for detecting the load adding state, so that the MCU performs corresponding stage-by-stage progressive increase or progressive decrease control on the data output. The APP-controlling wearable portable pulse sweating suppression instrument has the advantages that various kinds of complications or injury to human bodies caused by hyperhidrosis treatment by medicine or operation can be avoided; intelligent, humanized and portable control and operation can be provided for a user; and safe and protection measures are provided for the user.

Description

—种APP控制的可穿戴便携式脉冲止汗仪及使用方法 - wearable portable apparatus and method of pulse antiperspirant control APP species

技术领域 FIELD

[0001]本发明涉及医疗保健设备的技术领域,尤其涉及一种APP控制的可穿戴便携式脉冲止汗仪。 [0001] The present invention relates to the field of health care equipment, particularly to a wearable portable APP controlling the antiperspirant pulse meter.

背景技术 Background technique

[0002]人体多汗症是一种相当常见的现象,据统计大约百分之三的人口有此问题,多汗症一般侵犯手掌、脚底、腋下、面部以及颈背部等部位。 [0002] Human hyperhidrosis is a fairly common phenomenon, according to statistics by approximately three percent of the population have this problem, general hyperhidrosis violations palms, soles, underarms, face and back of the neck and other parts. 虽然多汗症不算是严重的疾病,但是它给人们的日常生活、工作、以及社会活动等带来了极大的不便。 Although hyperhidrosis is not a serious illness, but it gives people's daily life, work, and social activities has brought great inconvenience. 目前医学上治疗多汗症的现有技术主要采用药物治疗与手术治疗。 Currently prior art medical treatment of hyperhidrosis on the main drug therapy and surgery.

[0003] 1.药物治疗多汗症的缺点:治疗多汗症的药物大多含有对人体有害的药物成分、或者对人体神经系统造成不同程度的副作用以及伤害。 [0003] 1. disadvantage of drug treatment of hyperhidrosis: Drug treatment of hyperhidrosis most of them contain harmful medicines, or cause varying degrees of side effects and damage to the human nervous system.

[0004] 2.手术治疗多汗症的缺点:目前比较有效的一种治疗方式是通过胸腔镜胸交感神经夹闭术,对手掌、足底、腋窝、面部、颈部、及背部多汗症均有显著效果。 [0004] 2. Surgical treatment of hyperhidrosis disadvantages: a more effective current treatment is sympathetic thoracoscopic by clipping, on the palms, soles, armpits, face, neck, and back hyperhidrosis have a significant effect. 但是,该手术治疗的最大缺点是可导致永久性无汗以及人体其他部位的代偿多汗,故逐渐被多汗症患者摒弃。 However, the biggest drawback of surgery is sweat-free and can lead to permanent compensatory sweating in other parts of the body, it is gradually being abandoned hyperhidrosis.

[0005]由于上述现有治疗技术存在的缺点,为此需要一种解决或改善现有技术缺点的新技术。 [0005] Because of the above-described disadvantages of the prior art treatment, which requires a solution or ameliorate the disadvantages of the prior art technology. 本发明设计一种APP控制的可穿戴便携式脉冲止汗仪:(I)通过产生特定频率的脉冲电流对多汗皮肤上位于流汗感应神经与汗腺之间的神经突触进行刺激,当神经突触接受脉冲电流刺激到一定剂量程度时,汗腺的敏感度降低就不再被刺激兴奋、从而停止流汗。 Design of APP present invention provides a wearable portable pulse controlling the antiperspirant apparatus: (I) the pulse current generated by a specific frequency on the sweating skin to sweat sensor located synapses between nerve stimulation and sweat glands, when neurite receiving a touch stimulus pulse current dose to a certain extent, to reduce the sensitivity of the sweat glands are stimulated no longer excited, thereby stopping sweat. 此止汗原理没有直接作用于汗腺,因而对于人体汗腺不造成伤害;(2)通过APP控制的可穿戴便携式脉冲止汗仪,可以让用户在家庭、办公及等环境下随时随地进行多汗症治疗,为用户带来极大的便利。 This principle has no direct effect on the antiperspirant sweat glands, and therefore does not cause harm to human body sweat glands; (2) controlled by APP antiperspirant wearable portable pulse instrument, allows users to hyperhidrosis anywhere in the home, office and other environmental treatment in order to bring great convenience. 根据专利检索查询,目前国内尚无专利描述的技术存在。 According to patent search query, currently there is no domestic technology described in the patent.

发明内容 SUMMARY

[0006]为克服现有技术的不足,本发明提供一种APP控制的可穿戴便携式脉冲止汗仪及使用方法。 [0006] To overcome the deficiencies of the prior art, the present invention provides a method of controlling the wearable portable APP pulse antiperspirant instrument and methods of use.

[0007]为实现上述发明,本发明采用技术方案如下: [0007] In order to achieve the above-described invention, the present invention employs the following technical solution:

一种APP控制的可穿戴便携式脉冲止汗仪,包括:智能移动设备APP、蓝牙通讯模块、脉冲发生器、可穿戴式软胶电极,所述脉冲发生器的输出正负电极通过金属导线与可穿戴式软胶电极的正负电极分别相连。 APP is one kind of control pulses antiperspirant wearable portable apparatus, comprising: positive and negative electrodes output APP smart mobile devices, the Bluetooth communication module, a pulse generator, soft wearable electrode, the pulse generator by a metal wire with a soft wearable positive and negative electrodes are respectively connected to the electrodes.

[0008]所述智能移动设备APP,是运行在具备蓝牙功能的Android或者1S的智能移动设备上的应用程序。 [0008] The smart mobile devices APP, is an application running on a Bluetooth enabled or Android 1S smart mobile devices. 首先通过蓝牙设置,将智能移动设备与蓝牙通讯模块建立配对,接着将设置及控制指令经由所述蓝牙通讯模块传送给控制脉冲发生器的MCU微处理器,包括脉冲频率、脉冲电压值、脉冲电流值、脉冲占空比、单次工作时间、工作部位的设置值,这些设置值通过APP界面上对应的加/减按钮、以及设置按钮来完成调节设置,并经过按下“确认”按钮进行确认。 First setting via Bluetooth, the mobile device establishes smart pairing with a Bluetooth communication module, and then a control command is provided via the Bluetooth communication module to the control pulse generator of the microprocessor MCU, comprising pulse frequency, pulse voltage, pulse current value, pulse duty cycle, a single working hours, the working parts of the set value, the set values ​​by a corresponding interface of the APP plus / minus button, and set button to set the adjustment is complete, and after pressing the "OK" button to confirm . 同时,MCU微处理器将负载状态、脉冲电压值、脉冲电流值、或限压限流的报警通过蓝牙通讯模块传输给智能移动设备APP,并同时在APP上显示。 At the same time, the MCU microprocessor will load state, the value of the pulse voltage, pulse current value, or the pressure alarm limit limiting transmitted to the smart mobile device via Bluetooth communication module APP, APP and displayed simultaneously on. 单次工作时间通过智能移动设备的定时器在APP上显示,累计治疗总时间的记录是对所有负载处于连接状态时的时间累加。 Single operating period by a timer smart mobile device is displayed on the APP, the cumulative total time of treatment is recorded cumulative time for all loads in a connected state. 当达到一个满意疗程后,该累计治疗总时间可以告知用户该疗程的统计总时间,之后用户通过APP界面上设置的“清零”按钮能够将累计时间清零,以便为下一个疗程开始重新计时。 After reaching a satisfactory course of treatment, the cumulative total treatment time statistics can inform the user of the total time of treatment, followed by setting the user interface of the APP "clear" button can be accumulated time is cleared to start counting again for the next course of treatment . 此外,在智能移动设备APP界面上设置有限压限流的报警,当电压或者电流因电路异常瞬间超过30V或者20mA时,该报警将闪亮并鸣音;当电路异常解除后,该报警自动撤销。 Furthermore, a limited pressure limiting on the smart alarm APP mobile device interface, when the circuit is abnormal due to voltage or current moment exceeds 30V or 20mA, the alarm will flash and beep; when the circuit is abnormal is removed, the alarm automatically revoked .

[0009]所述蓝牙通讯模块,是介于智能移动设备与脉冲发生器之间的通讯模块,经由该模块将智能移动设备APP发送的指令传输给M⑶微处理器、并经过M⑶微处理器处理后传输给脉冲发生器电路;同时,M⑶微处理器也把实时脉冲电压、脉冲电流、单次工作时间、以及负载状态信息通过蓝牙通讯模块传给智能移动设备APP。 [0009] The Bluetooth communication module, the communication module is interposed between the smart mobile device with the pulse generator, via the command transmission module smart mobile devices to send APP M⑶ microprocessor, and the microprocessor processing after M⑶ after the transfer to the pulse generator circuit; Meanwhile, M⑶ microprocessor also the real pulse voltage, pulse current, single-work time, and the load status information to the smart mobile devices through the Bluetooth communication module APP.

[0010]所述脉冲发生器,包括:直流电压转换电路、M⑶微控制器、脉冲输出控制模块、及负载检测模块,脉冲发生器输出频率在0.2Hz〜1KHz之间可调、脉宽占空比可以通过设置调节的脉冲波。 [0010] The pulse generator comprising: a DC voltage conversion circuit, M⑶ microcontroller, pulse output control module, and a load detection module, the output frequency of the pulse generator between 0.2Hz~1KHz adjustable pulse duty by setting the pulse ratio can be adjusted.

[0011 ] 所述直流电压转换电路包括DC-DC升压电路与DC-DC降压电路。 [0011] The DC voltage conversion circuit comprises a DC-DC boost circuit and DC-DC step-down circuit. 所述MCU微控制器的信号输入端与按键开关相连用来接收按键输入值、MCU微控制器的信号输出端与信息显示装置相连用来输出显示信息、MCU微控制器的A/D检测输入端接收电流采样模块的电流采样值、MCU微控制器通过其PWM (脉宽调制)端口控制HVM控制模块、MCU微控制器通过其数据输出端口经由D/A转换模块输入到电压放大模块。 Said signal input terminal and the key switch is connected to the microcontroller MCU receives a key input value, the signal output of the microcontroller MCU information display apparatus connected for outputting display information, microcontroller MCU A / D input is detected sampled current terminal for receiving current sampling module, MCU microcontroller by its PWM (pulse width modulation) control port control module HVM, MCU microcontroller input voltage to the amplifier module via a D / a converter module via its data output port.

[0012]所述脉冲输出控制模块,包括:D/A转换模块、电压放大模块、电压电流控制模块、电流采样模块、PWM控制模块、及可恢复保险丝。 [0012] The pulse output control module, comprising: D / A converter module, the voltage amplification module, voltage and current control module, a current sampling module, the PWM control module, and recoverable fuse. 所述D/A转换模块的输出值作为电压放大模块的输入、电压放大模块的输出端与电压电流控制模块的控制端相连,所述电压电流控制模块的输入端与DC-DC升压电路输出端相连,DC-DC升压电路的输入端与直流电压输入相连,所述直流电源输入为可充电锂电池;电压电流控制模块的输出端与PWM控制模块相连;PffM控制模块经由可恢复保险丝与可穿戴式软胶电极相连。 The control terminal of the D / A converter output value as a voltage amplifying module input module, the module amplifies the voltage output terminal of the voltage control module is connected to the current, the voltage and current control module inputs the DC-DC boost circuit output end is connected to an input terminal is connected to DC-DC boost circuit to the DC input voltage, DC power input to the rechargeable lithium battery; current output of the voltage control module is connected to the PWM control module; PffM recoverable fuse with the control module via soft wearable electrode is connected. 所述电流采样模块与可穿戴式软胶电极的负电极相连,并将电流采样值反馈给MCU微控制器的A/D检测端。 The negative electrode current sampling module and the soft wearable electrode is connected, and the current sample value is fed back to the microcontroller MCU A / D detection terminal.

[0013]所述MCU微控制器与脉冲输出控制模块输出端的负电极间设置有负载检测模块,用于检测负载添加状态,从而通过MCU微控制器对数据输出进行相应的逐级递增或者递减控制。 [0013] The inter-microcontroller MCU pulse output negative electrode output terminal of the control module is provided with a load detecting means for detecting a load state to add to the corresponding increases or decreases stepwise control of the data output by the microcontroller MCU .

[0014] —种APP控制的可穿戴便携式脉冲止汗仪,所述可穿戴式软胶电极的结构,包括:两片软胶导电电极P2以及与其相连接的两根金属导线P1。 [0014] - species of APP control pulse antiperspirant wearable portable device, the structure of soft wearable electrode, comprising: two conductive electrodes P2 and two soft metallic conductor P1 connected thereto. 其中,可穿戴式软胶电极的形状包括方形、长方形、弯曲的的η形、以及眼鼻嘴挖空的面膜形状,其尺寸依据多汗部位的尺寸而定制。 Wherein the shape of the soft wearable electrode including square, rectangular, curved shape of η, eye, nose and mouth mask hollowed shape having a size depending on the size of the customized portion of hyperhidrosis.

[0015] —种APP控制的可穿戴便携式脉冲止汗仪的使用方法,其步骤如下: [0015] - use of a wearable portable pulse meter antiperspirant APP species controlled, comprises the following steps:

I)预先准备工作: I) prepared work:

(1)用户在智能移动设备上下载并安装对应Android或1S的APP应用软件; (1) corresponding to the user downloads and installs APP or Android application on the smart 1S mobile device;

(2)将所述两片可穿戴式软胶电极通过金属导线与所述脉冲发生器的输出电极的正负极分别相连,然后将两片可穿戴式软胶电极粘帖在多汗部位处,并确保两片可穿戴式软胶电极之间相互不接触并绝缘。 (2) the two soft wearable positive and negative electrodes are connected by wires and a metal electrode output of the pulse generator, respectively, and the two soft wearable electrode paste at the site of hyperhidrosis and to ensure contact with each other and between two insulating soft wearable electrode.

[0016] (3)用户在智能移动设备APP上设置与蓝牙通讯模块对接配对; [0016] (3) the user is provided with a Bluetooth communication module mating abutment on the APP smart mobile devices;

(4)用户在智能移动设备APP上设置脉冲电压值、电流值、占空比、单次工作时间、以及工作部位。 (4) the user mobile device is provided on the smart APP impulse voltage, current, duty cycle, a single working time and the work site.

[0017] 2)脉冲发生器通电后: After [0017] 2) pulse generator power:

(I)直流电源输入通过可充电内置锂电池供电,通过DC-DC升压电路进行升压,并连接至电压电流控制模块处理。 (I) DC power input through the built-in rechargeable battery, is boosted by the DC-DC boost circuit, connected to a voltage and a current control module for processing.

[0018] (2)直流电源输入通过DC-DC降压电路为MCU微控制器以及蓝牙通讯模块输送工作电压3.3V、同时将工作电压5V输送至D/A数模转换模块。 [0018] (2) DC input voltage of 3.3V transport operation by the step-down DC-DC circuit microcontroller MCU and Bluetooth communication module, while feeding the 5V operating voltage to D / A converter module.

[0019] (3)M⑶微控制器通过蓝牙通讯模块将智能移动设备APP上的设置值读取过来。 [0019] (3) M⑶ microcontroller via Bluetooth communication module sets the value of the read smart mobile devices over APP. 同时,将负载状态通过蓝牙通讯模块传送给智能移动设备APP。 At the same time, the load status to APP smart mobile devices via Bluetooth communication module.

[0020] (4)当负载添加上后,所述MCU微控制器通过将电流采样模块采集到的电流值与智能移动设备APP预先设置的电流值相对比、然后将对比差值信号通过数据输出控制D/A转换模块、再经电压放大模块传输到电压电流控制模块的控制端进行控制,从而使输出电压及电流在一个完整的控制闭环中得到控制与调节。 Current value [0020] (4) When the load is added on, the micro-controller MCU module collects the current sample current value with a preset APP smart mobile device relative ratio, then the difference signal by comparison of data output control D / a converter module, and then transmitted to the control terminal voltage of the current control module controls the voltage amplification through the module, so that the output voltage and current in a closed loop control to obtain complete control and regulation. 进而通过MCU微控制器的PffM端调节控制脉宽占空比;之后,经由可恢复保险丝将脉冲输出控制模块产生的脉冲电流输送至可穿戴式软胶电极上。 Thereby regulating the pulse duty cycle control by the microcontroller MCU PffM end; after the pulse current generated by the pulse output control recoverable fuse module delivered to the wearable electrode soft. 当脉冲输出控制模块的输入或者输出端的瞬间电流因电路或者负载异常问题增大至人体安全限制电流20mA时,可恢复保险丝FBl及FB2的阻值将会随着电流的增大而增大、直至相当于电路开路的无穷大,此时开路信号通过蓝牙通讯模块传输给智能移动设备APP上的限压限流报警。 When the input or output terminal of the transient current pulse output circuit of the control module is increased due to an abnormal load or human safety issues limit the current to 20mA, FBl recoverable fuse FB2 and the resistance will increase as the current increases, until It corresponds to the open circuit infinity, this time limit open signal to the mobile device on a smart alarm APP pressure restrictor through the Bluetooth communication module. 当异常问题解决或者消失后,可恢复保险丝FBl或者FB2将恢复至初始正常状态,从而对脉冲输出控制模块的自适应闭环控制增加了又一重限流保护。 When the problem is solved abnormal or disappear, or a recoverable fuse FB2 FBl will return to the original normal state, so that the pulse output control module of the adaptive closed loop control further increases the weight limit protection.

[0021] (5)所述脉冲发生器的负载检测模块是将检测到的负载接入状态输入至M⑶微控制器,MCU微控制器将根据负载的接入状态做出判断:a.当负载未加入时,脉冲输出控制模块处于待机状态且停止输出;b.当负载加入时,脉冲输出控制模块开始递增输出至设定值;c.当负载在工作过程中暂时撤掉时,脉冲输出控制模块将暂停输出、同时MCU微控制器暂停倒计时并处于待机状态。 [0021] (5) of the pulse generator load detection module detected load is inputted to the access state M⑶ microcontroller, MCU microcontroller will make a determination in accordance with the access state of the load: a when the load. when not added, the pulse output control module in a standby state and stops outputting;. B when the load is added, the output control module increments the pulse output to a set value; C when the load is temporarily removed during operation, the pulse output control. output module will be suspended, while the microcontroller MCU pauses the countdown and the standby state. 当负载重新再次加上时,脉冲输出控制模块将再次递增输出至设定值、同时MCU微控制器在原有倒计时的基础上继续开始倒计时;d.当倒计时设定值变为零时,脉冲输出控制模块将递减输出值直至零值。 When the load is reapplied again, the control module will increment the pulse output is output again to the set value, the microcontroller MCU while continuing the countdown begins countdown on the basis of the original; D set value when the countdown reaches zero, the pulse output. the control module is decremented until the output value of the zero value.

[0022] (6)所属MCU微控制器,将脉冲发生器的脉冲电压、脉冲电流通过蓝牙通讯模块传输给智能移动设备APP,并通过智能移动设备APP界面实时显示出来。 [0022] (6) belongs to the microcontroller MCU, a pulse voltage of the pulse generator, the pulse current transmitted to the smart mobile device APP via Bluetooth communication module, and displayed by a real-time interface of smart mobile device APP.

[0023] 3)可穿戴式软胶电极工作: [0023] 3) soft wearable working electrode:

(I)脉冲发生器所产生的频率在0.2Hz〜1KHz之间可调的脉冲电流通过两片可穿戴式软胶电极均匀地施加在多汗皮肤部位、对多汗部位处位于流汗感应神经与汗腺之间的神经突触进行刺激,当神经突触接受脉冲电流刺激到一定程度时,汗腺的敏感度降低就不再被刺激兴奋、从而停止流汗。 (I) the frequency of the pulse generator 0.2Hz~1KHz generated between the adjustable pulse current through two electrodes soft wearable uniformly applied to the skin site hyperhidrosis, hyperhidrosis of the sweat sensor located at the site of nerve stimulation and synapses between the sweat glands, when synapse receives a pulse electrical stimulation to a certain extent, to reduce the sensitivity of the sweat glands are stimulated no longer excited, thereby stopping sweat.

[0024] (2)工作定时结束,断电,取下可穿戴式软胶电极,此次工作完毕。 [0024] (2) the end of the operation timing, power, remove soft wearable electrode, the work is completed.

[0025] [0025]

通过采用上述的技术方案,本发明具有如下优越性: By adopting the above technical solution, the present invention has the following advantages:

1.健康:采用健康方式治疗人体多汗症,避免了前文所述药物或者手术治疗所带来的对人体的各种伤害或者并发症; 2.安全:通过采用自适应电压电流控制输出、多重限流限压方式及模块,为用户带来安全的治疗以及保护措施; 1. Health: The health treatment of the human embodiment hyperhidrosis, harm or prevent various complications previously described human pharmaceutical or surgical treatment brings; 2. Security: The adaptive control output voltage and current, multiple limiting pressure limiting way and modules, in order to bring safe treatment and protection measures;

3.智能:通过采用智能移动设备APP控制,为用户提供智能化、人性化的控制和操作; 3. Intelligent: APP smart mobile devices by using a control, to provide intelligent user, user-friendly control and operation;

4.舒适:通过MCU控制的脉冲输出,达到脉冲电压电流逐级渐变的控制,使得用户避免体验电压电流的骤变,从而为用户带来轻松舒适的治疗感受; 4. Comfort: controlled by a MCU pulse output, the pulse voltage to control current progressively graded, so that the user experience to avoid sudden changes in voltage and current, so as to bring the user feel relaxed and comfortable treatment;

5.高效:采用脉冲式输出,通过调节控制脉冲占空比,能使用户相应提升治疗时所能耐受的电压峰值,从而为用户带来同时兼顾止汗治疗舒适感与治疗效率的治疗效果; 5. Efficient: pulse output, by adjusting the duty ratio of the control pulse, the peak voltage can be improved accordingly when the user can withstand the treatment, taking into account the antiperspirant treatment so as to bring comfort and therapeutic efficacy of a therapeutic effect for the user ;

6.方便:采用外接可充电锂电池作为直流电源输入,可穿戴式软胶电极因为本身带有粘性,能够粘帖在身体任意多汗部位进行治疗,从而使用户在治疗期间自由活动,为用户提供极大的机动性与便利性; 6. easy: as a rechargeable lithium battery using an external DC power input, because the wearable electrode itself with soft sticky paste can be any body parts hyperhidrosis treatment, so that the user freely during treatment, the user It provides great flexibility and convenience;

7.治疗效果持久:根据本发明的大量实验显示,普通多汗者累计治疗10个小时左右即可感受到疗效,每天使用30〜60分钟、持续使用一个疗程约8〜10天之后,身体多汗部位将能持续保持温暖干燥约28〜38天。 7. Treatment lasting effect: According to the present invention exhibit a large number of experiments, the treatment of general hyperhidrosis accumulated about 10 hours to feel the effect of using 30~60 minutes a day for a course after about 8~10 days, multi body Khan sites will be able to continue to keep warm and dry for about 28~38 days. 之后根据用户自身情况,当多汗部位的汗腺逐步又恢复出汗后,再次进行相同剂量或者酌减剂量的治疗之后,止汗效果将能再次持续保持约28〜38天。 After the user according to their own situation after, when the sweat glands sweating sweaty parts of the gradually resumed, the same dose of treatment or reducing the dose again, antiperspirant effect will continue for about 28~38 days again.

附图说明 BRIEF DESCRIPTION

[0026]图1为可穿戴便携式脉冲止汗仪整体电路原理方框图; [0026] FIG. 1 is a block diagram showing the wearable be integrally circuit schematic of the portable pulse meter antiperspirant;

图2为智能移动设备APP; FIG 2 is a smart mobile device the APP;

图3为工作流程图; 3 is an operation flowchart;

图4为可穿戴便携式脉冲止汗仪结构实施例1; FIG 4 is a wearable portable pulse meter antiperspirant structure of the embodiment 1;

图5为可穿戴便携式脉冲止汗仪结构实施例2; FIG 5 is a wearable portable pulse meter antiperspirant structure of Example 2;

图6直流电压转换电路; DC voltage conversion circuit of FIG. 6;

图7为电压放大电路图; FIG 7 is a circuit diagram of a voltage amplification;

图8为电压电流控制模块图; 8 is a control block diagram of voltage and current;

图9为可穿戴式软胶电极的结构示意图; FIG 9 is a schematic view of soft wearable electrode;

图10为用于腋下的可穿戴式软胶电极结构示意图; FIG 10 is a soft wearable electrode structure for a schematic armpit;

图11为用于面部的软胶导电电极结构示意图。 11 is a schematic view of a conductive electrode structure for a soft surface.

具体实施方式 Detailed ways

[0027] —种APP控制的可穿戴便携式脉冲止汗仪,以下将详细解释本发明的设计以及使用方法,在符合以下实施方式所示原理的基础上,可以衍生出各种改变,包括在电路、结构形状上等设计变化。 [0027] - species of APP control pulse antiperspirant wearable portable device, and will be explained in detail using the design method of the present invention, consistent with the principles on the basis of the embodiment shown in the following embodiments, various changes can be derived, in the circuit comprising , upper structural shape design changes. 公开本发明的目的旨在保护本发明范围内的一切变化和改进,本发明并不局限于下面的实施方式。 Object of the present invention is intended to disclose all variations within the scope of protection of the present invention and modifications, the present invention is not limited to the following embodiments.

[0028] APP控制的可穿戴便携式脉冲止汗仪实施例: [0028] APP controlling the antiperspirant wearable portable pulse meter Example:

如图1所示,一种APP控制的可穿戴便携式脉冲止汗仪,包括:智能移动设备APP、蓝牙通讯模块、脉冲发生器、可穿戴式软胶电极,所述脉冲发生器的输出正负电极通过金属导线与可穿戴式软胶电极的正负电极分别相连。 As shown in FIG An APP controlling the antiperspirant wearable portable pulse meter 1, comprising: positive and negative output APP smart mobile devices, the Bluetooth communication module, a pulse generator, soft wearable electrode, said pulse generator electrodes respectively connected to the positive and negative electrodes soft wearable electrode by metal wires.

[0029]所述智能移动设备APP,是运行在具备蓝牙功能的Android或者1S的智能移动设备上的应用程序。 [0029] The smart mobile devices APP, is an application running on a Bluetooth enabled or Android 1S smart mobile devices. 如图2所示,首先通过蓝牙设置,将智能移动设备与蓝牙通讯模块建立配对。 As shown in FIG. 2 by first setting the Bluetooth, the Bluetooth smart mobile device communication module to establish the pairing. 接着,通过将设置及控制指令经由所述蓝牙通讯模块传送给控制脉冲发生器的MCU微处理器,包括脉冲频率、脉冲电压值、脉冲电流值、脉冲占空比、单次工作时间、累计治疗总时间、工作部位的设置值,这些设置值通过APP界面上对应的加/减按钮、以及设置按钮来完成调节设置,并经过按下“确认”按钮进行确认。 Subsequently, Bluetooth communication module to the control pulse generator is provided by the microprocessor MCU and the control command via, comprising pulse frequency, pulse voltage, pulse current value, pulse duty cycle, a single work, the cumulative treatment total time set value of the operating site, to accomplish these setting values ​​set by adjusting the corresponding interface on the APP plus / minus button, and a setting button, and after pressing the "OK" button to confirm. 例如:脉冲频率、占空比、脉冲电压、脉冲电流、单次工作时间均能通过其各自左右两侧的加/减按钮来调节,其各自的单位标称值分别是千赫兹KHz、百分比%、伏、毫安、以及分钟。 For example: pulse frequency, duty cycle, pulse voltage, pulse current, single working time can be adjusted by their respective right and left sides of the plus / minus button, the respective units are nominal values ​​kHz KHz, in% , V, mA, and minutes. 当调节工作部位时,只需要按下对应的工作部位的按钮,包括手、足、腋下、面部、颈部、或背部,智能移动设备APP将显示对各自工作部位的预先设置值,包括占空比、脉冲电压、脉冲电流以及单次工作时间。 When adjusting the working position, only need to press the button corresponding to the work site, including the hands, feet, arms, face, neck, or back, APP smart mobile device displays a preset value for the respective parts of the work, including accounting air ratio, the pulse voltage, pulse current and a single time. 例如:对于腋下止汗治疗,因腋下皮肤敏感度高,所以预先将脉冲电压、电流设置值相应地调低、占空比也调节至相对低值。 For example: for the treatment of underarm antiperspirant, because underarm skin sensitivity high, the pulse voltage in advance, set the current value accordingly lowered, the duty ratio is adjusted to a relatively low value. 同时,MCU微处理器将负载状态、脉冲电压值、脉冲电流值、或限压限流的报警通过蓝牙通讯模块传输给智能移动设备APP,并同时在APP上显示。 At the same time, the MCU microprocessor will load state, the value of the pulse voltage, pulse current value, or the pressure alarm limit limiting transmitted to the smart mobile device via Bluetooth communication module APP, APP and displayed simultaneously on. 单次工作时间通过智能移动设备的定时器在APP上显示,累计治疗总时间的记录是对所有负载处于连接状态时的时间累加。 Single operating period by a timer smart mobile device is displayed on the APP, the cumulative total time of treatment is recorded cumulative time for all loads in a connected state. 当达到一个满意疗程后,该累计治疗总时间可以告知用户该疗程的统计总时间,之后用户通过APP界面上设置的“清零”按钮能够清零,以便为下一个疗程开始重新计时。 After reaching a satisfactory course of treatment, the cumulative total treatment time statistics can inform the user of the total course of time, after which the user can be cleared by the "clear" button to set the APP interface, in order to start counting again for the next course of treatment. 此夕卜,在智能移动设备APP界面上设置有限压限流的报警,当电压或者电流因电路异常瞬间超过30V或者20mA时,该报警将闪亮并鸣音;当电路异常解除后,该报警自动撤销。 Bu this evening, the limited set limiting pressure on the smart alarm APP mobile device interface, when the circuit is abnormal due to voltage or current moment exceeds 30V or 20mA, the alarm will flash and beep; when the circuit is abnormal is removed, the alarm automatically revoked.

[0030]所述蓝牙通讯模块,是介于智能移动设备与脉冲发生器之间的通讯模块,经由该模块将智能移动设备APP发送的指令传输给M⑶微处理器并经过M⑶微处理器的处理然后传输给脉冲发生器电路;同时MCU微处理器也把实时脉冲电压、脉冲电流、负载状态、限压限流信息通过蓝牙通讯模块传给智能移动设备APP。 [0030] The Bluetooth communication module, the communication module is interposed between the smart mobile device with the pulse generator, via the command transmission module APP smart mobile devices and transmitted to the microprocessor through M⑶ microprocessor processing M⑶ is then transmitted to the pulse generator circuit; real-time while microprocessor MCU also the pulse voltage, pulse current, the load state, the flow pressure limiting information to the smart mobile devices through the Bluetooth communication module APP. 所述蓝牙通讯模块优选采用TI公司的CC2540低功耗蓝牙模块,该模块由DC-DC降压电路供电。 The Bluetooth communication module preferably uses TI's CC2540 low-power Bluetooth module, the module by a DC-DC buck power supply circuit. M⑶微处理器通过串口与蓝牙通讯模块相连,该蓝牙模块启动后会自动广播,当智能移动设备APP打开后会对蓝牙通讯模块进行扫描和对接,配对成功之后便可以通过通用串口与蓝牙通讯模块进行双向通讯。 M⑶ microprocessor through the serial port and Bluetooth communication module is connected, it will automatically start broadcasting after the Bluetooth module, Bluetooth communication module when will the smart mobile device to scan and docking APP open, after the pairing is successful it can be universal serial port Bluetooth communication module two-way communication. 当智能移动设备设备通过APP对蓝牙通讯模块进行写操作,写入的数据将通过串口发送给MCU微处理器,然后通过D/A数模转换模块、电压放大模块对电压电流控制模块、以及PffM控制模块进行调节控制。 When the device PffM smart mobile devices by Bluetooth communication module APP write operation, the written data will be sent to the microprocessor through the serial port MCU, and then amplified by the D / A converter module, the voltage and current module voltage control module, and regulation control module controls. 当智能移动设备通过APP对蓝牙通讯模块进行读操作,蓝牙通讯模块通过串口从MCU微处理器获取A/D模数转换数据、负载状态、限压限流信息,然后通过蓝牙协议栈返回给所述智能移动设备APP、并通过APP的显示界面显示在智能移动设备界面上。 When the smart mobile device reads the APP through Bluetooth communication module, a Bluetooth communication module through the serial port from the MCU acquires the microprocessor A / D analog-digital conversion data, load condition, the pressure limiting flow information, and then returns to the Bluetooth protocol stack through APP by said display interface APP smart mobile devices, and mobile device display on the smart interface.

[0031 ]所述脉冲发生器,包括:直流电压转换电路、M⑶微控制器、脉冲输出控制模块、及负载检测模块,脉冲发生器的输出是频率在0.2Hz〜1KHz之间可调的脉宽占空比可以通过设置调节的脉冲波。 [0031] The pulse generator comprising: a DC voltage conversion circuit, M⑶ microcontroller, pulse output control module, and a load detection module, the output frequency of the pulse generator is adjustable in width between 0.2Hz~1KHz by setting the duty ratio of a pulse wave can be adjusted.

[0032] 所述直流电压转换电路包括DC-DC升压电路与DC-DC降压电路。 [0032] The DC voltage conversion circuit comprises a DC-DC boost circuit and DC-DC step-down circuit. 如图6所示,所述DC-DC升压电路是采用升压集成芯片LM2577S(U1)而组成的升压电路,直流电源输入电压来自外接可充电锂电池,其输入电压范围为5〜12V。 6, the DC-DC boost circuit is a boosting integrated chip LM2577S (U1) and the booster circuit, the DC input voltage from the external rechargeable lithium battery, the input voltage range of 5~12V . 直流电源输入从P5接线柱接入,其接线柱2为正极、接线柱I为接地,通过可恢复保险丝FBl接入采用升压集成芯片Ul的升压电路。 DC power input from the access terminal P5, which is a positive terminal 2, a ground terminal I, through the step-up access FBl recoverable fuse the integrated chip Ul boosting circuit. Ul的比较端COMP通过电阻R2与电容C4相连,并通过C4接地Al的反馈端BACK分别与电阻R3、R64以及R25相连,R25的另一端接地,R64的另一端接三极管Q26的集电极,Q26的发射极接地,Q26的基极通过电阻R65连接至与MCU微控制器的一个控制口相连的RL_0FF端,该端口通过控制Q26的通断、从而控制所述智能脉冲发生器开机状态与待机状态的不同供电电压,当未检测到负载时,智能脉冲发生器处于待机状态、升压电路仅输出12VW1的GNDl与GND2共同接地。 COMP terminal of comparator Ul through the resistor R2 and the capacitor C4 is connected, and is connected to the resistor R3, R64 and R25 is grounded by feedback terminal Al of the BACK C4, respectively, the other end of R25, R64 the other end of the collector of the transistor Q26, Q26 the emitter-grounded, the base of Q26 is connected to a control terminal of MCU RL_0FF microcontroller interface connected through a resistor R65, to the control port through Q26 off, thereby controlling the intelligent pulse generator with a standby power state the different supply voltages, when a load is not detected, the intelligent pulse generator in the standby state, only the output of the booster circuit and GND2 GNDl 12VW1 the common ground. Ul的VIN端通过电容C3、C17接地。 Ul terminal VIN via the capacitor C3, C17 is grounded. Ul的SWITCH端通过肖特基二极管D2(IN5821)输出电压至V-OUT端,V-OUT端输入至电压电流控制模块。 SWITCH the Ul output terminal voltage of the Schottky diode by D2 (IN5821) end to V-OUT, V-OUT to the input terminal voltage of the current control module.

[0033]所述DC-DC降压电路,包括两个串联的AMS1117组成的三端稳压电路模块。 [0033] The DC-DC step-down circuit, three-terminal regulator circuit module comprising two series AMS1117 thereof. 直流输入电源从P5接线柱2接入的另一路是三端稳压集成块Q8(AMS1117)的输入端,Q8的输出端连接输出滤波电容Cl,Cl的另一端与Q8的接地端共同接地,Q8的输出5V为D/A转换模块供电、同时也作为Q13的输入。 DC input power from the second access path P5 terminal is another three-terminal regulator blocks Q8 (AMS1117) input terminal, an output terminal Q8 is connected to the output filter capacitor Cl, the other end of the ground terminal Cl Q8 is grounded in common, 5V output of Q8 is D / a converter power supply module, as well as the input of Q13. Q13的电路连接与Q8相同、其输出3.3V为M⑶微处理器以及蓝牙通讯模块供电。 Q13 Q8 circuit is connected to the same output as 3.3V microprocessors, and M⑶ Bluetooth communication module power supply.

[0034] 所述M⑶微处理器的型号可以是、但不限于是STC12LE5A16AD。 [0034] Part of the M⑶ microprocessor may be, but is not limited STC12LE5A16AD. 作为脉冲发生器的控制核心,MCU微控制器的输入信号包括来自智能移动设备APP经由蓝牙通讯模块传来的读取信号、经由A/D检测端口输入的电流采样模块的反馈信号、以及负载检测模块传来的负载状态信号;同时MCU微控制器经数据输出端输出数字控制信号至D/A转换模块、输出Pmi控制信号至PffM控制模块,同时将脉冲电压值、脉冲电流值、负载状态、限压限流信息实时通过蓝牙通讯模块传送给智能移动设备的APP显示界面。 As the control pulse generator, the input signal comprises a microcontroller MCU via the read signal coming from a Bluetooth communication module, sampling module via the current feedback signal is A / D input port is detected, and a load detecting device from a smart mobile APP load state signal transmitted from the module; MCU microcontroller simultaneously via the data output terminal of the digital control signal to the D / a converter module, the output control signal to the PffM Pmi control module, while the value of the pulse voltage, pulse current value, the load state, limited pressure limiting APP display interface information transmitted in real time to the smart mobile devices via Bluetooth communication module.

[0035]所述脉冲输出控制模块,包括:D/A转换模块、电压放大模块、电压电流控制模块、电流采样模块、PWM控制模块、及可恢复保险丝。 [0035] The output of the pulse control module comprising: D / A converter module, the voltage amplification module, voltage and current control module, a current sampling module, the PWM control module, and recoverable fuse. 所述D/A转换模块是由TLC5615串行数模转换器为主而组成的数模转换电路,其电源由DC-DC降压电路的5V供电,其转换更新率为 The D / A conversion module is dominated by TLC5615 serial DAC which consists of digital to analog conversion circuit by the DC-DC 5V power supply step-down circuit, which updates the conversion rate

1.21MHzC3MCU微控制器通过数据输出端输出二进制代码控制D/A转换模块的输出,以0.1V为间隔、输出范围为0.1V〜5V。 1.21MHzC3MCU microcontroller outputs via data output binary code output of the D / A conversion module, at an interval of 0.1V, the output range of 0.1V~5V.

[0036]所述电压放大模块如图7所示,D/A转换模块的输出接入至电压放大模块的输入0八-^端口,由三极管组025、027、028、029、030、031、032、033、035构成的差分电压放大电路,将输入电压放大12倍,经由K-OUT输出至电压电流控制模块。 The [0036] voltage amplification module shown in Figure 7, the output of D / A conversion module is connected with an input to the voltage amplifying module eight 0 - ^ port, by the transistor group 025,027,028,029,030,031, 032,033,035 differential voltage amplifying circuit, the amplified 12 times the input voltage, output voltage and current to the control module via K-OUT. 图7中由三极管Q36同时还构成了一个电流保护电路。 FIG. 7 by the transistor Q36 also constitute a current protection circuit. 当三极管Q3 6的发射极V-OUT 2与基极V-OUTI的导通压降达到 When the emitter of transistor Q3 6 V-OUT 2 and the base V-OUTI voltage drop reaches

0.6V时,该部分电路的电流达到20mA,此时所述电压放大模块将进入限制状态,电路将停止放大作用,从而达到20mA的限流保护作用。 When 0.6V, the current portion of the circuit reaches 20mA, the voltage amplification module case that limiting, amplification circuit stops, so as to achieve the protective effect of limiting 20mA.

[0037 ]如图8所示,所述电压电流控制模块的输入端与DC-DC升压电路的输出端V-OUT相连,电压电流控制模块的控制端与电压放大模块的输出端K-OUT相连,电压电流控制模块的输出端与HVM控制模块的输入端相连,PBi控制模块的输出通过可恢复保险丝FB2与可穿戴式软胶电极接线柱的正极相连。 [0037] As shown, the voltage and current control module connected to the input of the DC-DC boost circuit, the output terminal V-OUT, a control terminal of the current control module voltage amplifying module output terminal K-OUT 8 is connected to the input terminal of the current output of the voltage control module is connected with the control module HVM, PBi output control module coupled to the anode electrode post soft wearable by a recoverable fuse FB2. 所述电压电流控制模块由一组并联放大三极管、以及一组均流电阻组成,其工作原理是通过控制该组三极管的基极电流、以及控制该组三极管的集电极电压,然后从该组三极管的发射极获得具有大电流的输出电压,然后经过一组均流电阻输出至PWM控制模块。 The voltage is amplified by current control module a set of parallel transistors, and a set of current-resistors, which works by controlling the base current of the transistor group and a control group of the collector voltage of the transistor, and the transistor from the set the emitter output voltage is obtained having a large current, then through a set of current-resistance of the output to the PWM control module.

[0038]如图1所示,所述电流采样模块,其一端与所述脉冲发生器的负电极相连,另一端与MCU微控制器的A/D检测端相连。 [0038] As shown, the current sampling module, which is one end of the negative electrode is connected to a pulse generator, the other end is connected to the microcontroller MCU A / D detection terminal. 当负载添加后,电流采样模块将采集到的实时电流值通过A/D检测端反馈至MCU微控制器,同时与按键输入设置的电流值相对比,例如负载是2千欧姆的阻值,在设置状态下设置最大电流输出值为20mA,这样MCU微控制器在工作状态实时采集并检测实时的电流值,当电流小于脉冲发生器所限制的人体安全电压30V除以2千欧姆即15mA时,MCU微控制器将通过数据输出控制D/A转换模块、电压放大模块、以及电压电流模块来进行闭环控制增大输出;当采样电流达到15mA时,此时电压输出达到所限制的最大值30V,MCU微控制器随之停止增加电压。 When the load is added, the current sampling module to collect real-time current value is fed back to the microcontroller MCU through the A / D detects terminal, while the current value of the key input disposed opposed to, for example, a load resistance of 2 kohm, in 20mA maximum current output value is set at the set state, so that the microcontroller MCU real-time acquisition and real-time detection of the current value in the operating state, when the current is less than the human safety limit voltage pulse generator 2 kohm divided by 30V when 15mA i.e., the microcontroller MCU will be closed loop control to increase the output control D / a converter module, the voltage amplification module, and the module voltage and current data output; when the sampled current reaches 15mA, 30V when the voltage output reaches a maximum restricted, MCU microcontroller will stop increasing the voltage. 所以,无论是电压或者电流哪个最先达到最大限制值(30V或者20mA),MCU微控制器都将相应地作出限压限流控制。 Therefore, both the voltage or current which first reaches the maximum limit value (30V or 20mA), MCU microcontroller will make a corresponding pressure limiting flow control. 同时,当脉冲输出控制模块的输入或者输出端的瞬间电流达到最大限制值20mA时,可恢复保险丝FBI /FB2的阻值将会随着电流的增大而增大直至相当于电路开路的无穷大,当此异常问题解决并消失后,可恢复保险丝FB1/FB2将恢复至初始正常状态。 Meanwhile, when the input or the output of instantaneous current control pulse output module reaches the maximum limit value at 20mA, recoverable fuse FBI / FB2 resistance will increase as the current increases until infinity corresponds to an open circuit, when after this unusual problems to solve and disappear, recoverable fuse FB1 / FB2 will return to the original normal state. 由电流采样模块反馈至M⑶微控制器、然后经由M⑶微控制器对比处理、对比运算后的结果经由数据输出至D/A转换模块、再至电压放大模块、电压电流控制模块、PBi控制模块、经由可恢复保险丝FB2至负载,从而形成了一个闭环的自适应电压电流控制回路;同时两个可恢复保险丝FB1、FB2对脉冲输出控制模块的输入与输出端均进行了双重限流保护,从而确保了所述脉冲发生器所输出的电压电流在电路的多重保护下严格限制在人体允许的安全范围(30V,20mA)之内。 By the current feedback sampling module to M⑶ microcontroller, then the microcontroller M⑶ via a matching process, the comparison operation result to the output data via the D / A converter module, and then to the voltage amplification module, voltage and current control module, control module PBi, FB2 to the load via a recoverable fuse, thus forming a closed loop adaptive control loop voltage and current; while two recoverable fuse FB1, FB2 pulse output control module for input and output are dual carried limiting protection to ensure voltage and current output by the pulse generator at multiple protection circuit is strictly limited in the human body to allow the safe range (30V, 20mA) within. 所述PWM控制模块,是由MCU微控制器的PWM控制端口与一组三极管以及电阻组成的控制脉冲频率与占空比的电路。 The PWM control circuit module, the MCU is a MCU PWM control port with a group of transistors and resistors of the control pulse frequency and duty cycle. 通过设置M⑶微控制器PffM定时器周期来设置输出PffM波形的频率,通过设置PffM定时器比较值来设置输出PWM波形的占空比,并通过一组三极管以及电阻来控制PWM的开关放大输出。 To set the frequency of the output waveform by setting M⑶ PffM microcontroller PffM timer period, by setting the comparison value set PffM timer output duty of the PWM waveform, and PWM controlled by a switching transistor and a resistor amplified output set.

[0039]所述负载检测模块,是连接在脉冲发生器输出负极与MCU微控制器之间、对负载连接状态进行实时监测的模块。 [0039] The load detection module, the module is connected between the negative output of the pulse generator and the microcontroller MCU, the load connection state of the real-time monitoring. 该模块由一组并联连接的电容、电阻以及二极管组成,该电路负责在负载两端测试采样电压以及电流,从而判断负载的连接状态以及负载的阻值范围。 The module consists of a set of parallel-connected capacitor, resistor and diode, the circuit responsible for sampling voltage across the load and a current test, to determine the connection state of the load and the load resistance range. 当有负载添加时,所述负载检测模块将产生“有负载”的信号并反馈至MCU微控制器,随之MCU微控制器将经由数据输出端口、对D/A转换模块发出逐级增加输出的控制信号、然后经过电压放大模块、电压电流控制模块逐级增加输出,当输出电压或者电流达到预先设置值时,MCU微控制器将停止增加输出;当无任何负载添加时,负载检测模块将产生“无负载”信号并反馈至MCU微控制器,从而令MCU微控制器发出相应的输出截断或暂停信号,此时电压放大电路将仅输出12V并处于待机状态;当有负载添加、并且定时倒计时至零时,MCU微控制器将经由数据输出端口、对D/A转换模块发出逐级减少输出的控制信号、然后经过电压放大模块、电压电流控制模块逐级减少输出直至零。 When a load is added, the load detection module will generate "a load" signal and fed back to the microcontroller MCU, whereupon the microcontroller MCU will issue progressively increasing the output of the D / A converter module via a data output port the control signal is then amplified through the voltage module, a voltage control module progressively increase the output current, when the output voltage or current reaches a pre-set value, MCU microcontroller will stop increasing output; when no load is added, the load detection module produce a "no load" signals which are fed to the microcontroller MCU, so that the microcontroller MCU receive a corresponding output signal cut off or suspended, when the voltage amplifying circuit and outputs only the 12V standby state; when a load is added, and the timing countdown reaches zero, the MCU microcontroller via the data output port of D / a converter module sends a stepwise reduction control signal output, and then through the voltage amplifier module, the control module voltage and current output progressively reduced until zero. 通过上述对输出幅度逐级增加或者减少的控制,将使用户获得平滑、舒适的治疗体验。 By the above-described control of the output amplitude of stepwise increased or decreased, the user will obtain a smooth, comfortable treatment experience.

[0040]如图4所示,所述脉冲发生器包括结构壳体Al,其形状是扁平长方形可以放置于口袋、或者如图5所示的环形可以通过尼龙搭扣带佩戴在手腕或者手臂上。 [0040] As shown, the pulse generator comprises a housing structure Al, which is a flat rectangular shape can be placed in a pocket 4, as shown in FIG. 5, or by velcro straps ring worn on the wrist or arm . A2是电源开关,A3是直流电源输入外接口,它外接可充电锂电池,A4是脉冲电流输出的接线柱正负极,A5则是协助将Al佩戴在身上的尼龙搭扣带。 A2 is a power switch, A3 is an external DC power input interface, an external rechargeable lithium battery, A4 is the output terminal of the positive and negative pulse current, A5 assist Al is worn on the body of the Velcro tape.

[0041 ]综上,该实施例所述脉冲发生器产生频率在0.2Hz〜1KHz之间可调的脉宽占空比可以通过设置调节的脉冲波,然后经由金属导线传输到相应的可穿戴式软胶电极上对多汗部位进行治疗。 [0041] In summary, the embodiment of the pulse generator generates an adjustable frequency between 0.2Hz~1KHz the pulse duty cycle by setting a pulse wave modulated, and then transmitted via the metal wires to the respective wearable treatment of hyperhidrosis soft upper electrode portion.

[0042]关于可穿戴式软胶电极的具体实施方式,详细介绍如下: [0042] DETAILED DESCRIPTION on wearable soft electrodes, as detailed below:

可穿戴式软胶电极实施方式一: Soft wearable electrode first embodiment:

如图9所示,一种APP控制的可穿戴便携式脉冲止汗仪,所述可穿戴式软胶电极的结构,包括:两片软胶导电电极P2以及与其相连接的两根金属导线Pl。 As shown in FIG 9. A wearable APP controlling the antiperspirant portable pulse meter, soft structure of the wearable electrode, comprising: two conductive electrodes soft P2 and Pl two metal wires connected thereto. 该实施方式一的软胶导电电极的形状采用方形或长方形,适用于治疗手汗、足汗、面部多汗、以及颈背部多汗,其尺寸依据多汗部位的尺寸而定。 Soft conductive electrode shape according to the embodiment employs a square or rectangular, for the treatment of palmar, foot perspiration, facial hyperhidrosis, hyperhidrosis and back of the neck, the size depending on the size of the predetermined portion of hyperhidrosis.

[0043] 一种APP控制的可穿戴便携式脉冲止汗仪在使用时,所述脉冲发生器的直流电源供电来自外接可充电锂电池,这便于随身携带使用。 [0043] An APP controlling the antiperspirant wearable portable pulse meter, in use, the DC power supply from an external pulse generator rechargeable lithium battery, which facilitates the use of carry. 当两片可穿戴式软胶电极分别粘帖在身体多汗部位后,接通电源开关A2,通过蓝牙设置与智能移动设备建立配对关系,然后经过智能移动设备APP的设置与控制即进入图3所示的工作流程。 When the two electrodes are wearable soft paste after sweating body parts, power switch A2, to establish a Bluetooth pairing relationship provided by the smart mobile devices, and then provided via the mobile device and the intelligent control APP, i.e. into the 3 workflow shown.

[0044] 一种APP控制的可穿戴便携式脉冲止汗仪,通过产生频率在0.2Hz〜1KHz之间可调的脉冲电流对皮肤多汗部位上位于流汗感应神经与汗腺之间的神经突触进行刺激,当神经突触接受脉冲电流刺激到一定程度时,汗腺的敏感度降低就不再被刺激兴奋、从而停止流汗。 [0044] An APP controlling the antiperspirant wearable portable pulse device for generating a frequency between 0.2Hz~1KHz adjustable pulse of current through the skin, sweating the sweat sensor portion located between nerve synapses and sweat glands stimulation, when the pulse current to stimulate nerve synapses accepted to a certain extent, reduce the sensitivity of the sweat glands will not be stimulated excited to stop sweating. 此止汗原理没有直接作用于汗腺,因而对于人体汗腺不造成伤害。 This principle has no direct effect on the antiperspirant sweat glands, and therefore does not cause harm to human body sweat.

[0045]可穿戴式软胶电极实施方式二: [0045] The soft wearable electrode the second embodiment:

如图10所示,一种APP控制的可穿戴便携式脉冲止汗仪,所述可穿戴式软胶电极的结构,包括:两片软胶导电电极NI以及与其相连接的两根金属导线N2,其中软胶导电电极弯曲成η字形、其内中间填垫海绵或者软布的软质织物N3,用于将弯曲成η字形的可穿戴式软胶电极置于腋窝处,该实施方式二的可穿戴式软胶电极的形状适用于治疗腋下多汗,其使用方法与可穿戴式软胶电极实施方式一相同。 Figure 10 A APP controlling the antiperspirant wearable portable pulse meter, a soft wearable electrode structure, comprising: two conductive electrodes NI soft and two metal wires connected thereto N2, wherein η soft conductive electrode is bent into shape, which intermediate shimming soft fabric N3 sponge or soft cloth, for bending into a shape η soft wearable electrode disposed at the armpit, the embodiment 2 may be soft wearable shape of electrodes suitable for use in the treatment of axillary hyperhidrosis, its use with soft wearable embodiment of a same electrode.

[0046]可穿戴式软胶电极实施方式三: [0046] The soft wearable electrode the third embodiment:

如图11所示,一种APP控制的可穿戴便携式脉冲止汗仪,所述可穿戴式软胶电极的结构,包括:两个半片面膜形状的软胶导电电极Fl以及与其相连接的两根金属导线F2,其中在往面部敷贴使用时两个Fl之间必须间隔一个间隙F3从而使两个Fl之间相互绝缘。 A method of controlling the wearable APP antiperspirant portable pulse meter, the structure shown in Figure 11. The soft wearable electrode comprising: a conductive electrode Fl soft mask shape two halves connected thereto and two metal wire F2, wherein during use the applicator to the face to be spaced so that a gap F3 between two mutually insulated between two Fl Fl. 该实施方式三的软胶导电电极的形状适用于治疗面部多汗,该面膜形状的软胶导电电极能够采用3D打印为用户定制,其使用方法与软胶导电电极实施方式一相同。 The shape of the soft conductive electrode of the third embodiment useful for treating facial sweating, soft conductive electrode using the mask shape can be customized 3D printing, which use soft conductive electrode and a same embodiment.

Claims (9)

1.一种APP控制的可穿戴便携式脉冲止汗仪,其特征是:包括:智能移动设备APP、及便携式脉冲止汗装置,便携式脉冲止汗装置的电路由蓝牙通讯模块、脉冲发生器、可穿戴式软胶电极组成,所述的智能移动设备APP通过蓝牙通讯模块与脉冲发生器无线相连;所述脉冲发生器,包括:直流电压转换电路、MCU微控制器、脉冲输出控制模块及负载检测模块,所述脉冲输出控制模块的输入端与MCU微控制器数据输出端相连,脉冲输出控制模块的控制端与MCU微控制器PffM端相连,脉冲输出控制模块的输出端与可穿戴式软胶电极相连,所述MCU微控制器与脉冲输出控制模块输出端的负电极间设置有负载检测模块,用于检测负载添加状态,从而通过MCU微控制器对数据输出进行相应的逐级递增或者递减控制;脉冲输出控制模块、MCU微控制器的电源端与直流电压转换电路相连;脉冲 An APP controlling the antiperspirant wearable portable pulse meter, which is characterized in: comprising: APP smart mobile devices, and portable devices pulse antiperspirant, antiperspirant pulse circuit of the portable device by the Bluetooth communication module, a pulse generator, may be soft wearable electrode composition, the APP smart mobile devices connected via Bluetooth wireless communication module with the pulse generator; said pulse generator, comprising: a DC voltage conversion circuit, the MCU microcontroller, pulse output control module and the load detection module, the control module output pulse and the input of the microcontroller MCU is connected to the data output terminal, a control terminal connected to the microcontroller MCU PffM pulse output terminal of the control module, the output of the pulse output of the control module soft wearable electrodes are connected between the negative electrode of the microcontroller MCU and the output terminal of the pulse output control module is provided with a load detecting means for detecting a load state added, thereby performing the corresponding incremental output data or decremented by the microcontroller MCU controls ; pulse output control module, a power supply terminal of the microcontroller MCU is connected to the DC voltage conversion circuit; pulse 生器输出频率在0.2Hz〜1KHz之间可调的脉宽占空比可调节的脉冲波。 Output frequency generator adjustable between 0.2Hz~1KHz adjustable pulse duty cycle pulse.
2.根据权利要求1所述的一种APP控制的可穿戴便携式脉冲止汗仪,其特征是:所述便携式脉冲止汗装置为扁平长方形能放置于口袋内卡片式结构的壳体Al,卡片式结构上设置有上设置有电源开关A2、直流电源输入接口A3、脉冲电流输出接口A4,并与卡片式壳体内的电路相连。 The APP claim 1. A portable pulse controlling the antiperspirant wearable device as claimed in claim, wherein: said portable device is a flat rectangular pulse antiperspirant can be placed in the housing Al pocket structure of the card, the card there is provided on the upper structure is provided with a power switch A2, DC power input interface A3, the pulse current output interfaces A4, and connected to the circuitry within the card housing.
3.根据权利要求1所述的一种APP控制的可穿戴便携式脉冲止汗仪,其特征是:所述便携式脉冲止汗装置的结构为佩戴在手腕或者手臂上的手腕式结构,手腕式结构由开口的环状结构壳体Al与尼龙搭扣带A5连接构成,开口的环状结构体Al上设置有电源开关A2、直流电源输入接口A3、脉冲电流输出接口A4,并与开口的环状结构壳体内的电路相连。 The APP claim 1. A portable pulse controlling the antiperspirant wearable device as claimed in claim, characterized in that: the structure of the portable device to be worn pulse antiperspirant wrist structure on the wrist or arm, wrist structure a cyclic structure of the housing Al and A5 Velcro connection with the opening, and is provided with a power switch A2, DC power input interface A3, A4 on the pulse current output interface Al opening the annular structure, and with the annular opening connected to circuitry within the housing structure.
4.根据权利要求1所述的一种APP控制的可穿戴便携式脉冲止汗仪,其特征是:所述智能移动设备APP的触摸屏上设置有APP界面,APP界面上设置有对应的频率、脉宽占空比、电压、电流、时间的“加/减按钮”、工作部位的“设置按钮”;APP界面上设置有对应的累计总时间的显示及“清零按钮”、限压限流的闪亮并鸣音报警;APP界面上设置有对应的功能部位设置按钮、蓝牙通讯设置及“确认按钮”。 The APP claim 1. A portable pulse controlling the antiperspirant wearable device of claim wherein: there is provided on the smart interface APP APP touch screen mobile device, provided with the corresponding frequency on the APP interface, pulse "plus / minus button" wide duty cycle, voltage, current, time, a "setting button" work site; display and set the "clear button" has a corresponding cumulative total time on APP interface, pressure limiting stream beep and flash an alarm; APP interface disposed on a corresponding portion of the function setting button, and the Bluetooth communication setting "OK button."
5.根据权利要求1所述的一种APP控制的可穿戴便携式脉冲止汗仪,其特征是:所述蓝牙通讯模块,是介于智能移动设备与脉冲发生器之间的通讯模块,经由该模块将智能移动设备APP发送的指令传输给M⑶微处理器、并经过M⑶微处理器处理后传输给脉冲发生器电路;同时,MCU微处理器也把实时脉冲电压、脉冲电流、单次工作时间、以及负载状态信息通过蓝牙通讯模块传给智能移动设备APP。 According to claim 1. An APP pulse controlling the antiperspirant wearable portable apparatus as claimed in claim, characterized in that: the Bluetooth communication module, the communication module is interposed between the smart mobile device with the pulse generator, via the the instruction module APP smart mobile device to transmit a transmission M⑶ microprocessor, and the microprocessor after treatment M⑶ transmitted to the pulse generator circuit; simultaneously, the MCU microprocessor also the real pulse voltage, pulse current, single-work time and load status information via Bluetooth communication module to pass smart mobile devices APP.
6.根据权利要求1所述的一种APP控制的可穿戴便携式脉冲止汗仪,其特征是:所述脉冲发生器的直流电压转换电路包括DC-DC升压电路与DC-DC降压电路,DC-DC升压电路输出端与脉冲输出控制模块相连,DC-DC降压电路输出端与MCU微控制器、蓝牙通讯模块的电源端相连;所述MCU微控制器的信号输入端与按键开关相连用来接收按键输入值、MCU微控制器的信号输出端与信息显示装置相连用来输出显示信息、MCU微控制器的A/D检测输入端接收电流采样模块的电流采样值、MCU微控制器通过其PWM (脉宽调制)端口控制PffM控制模块、MCU微控制器通过其数据输出端口经由D/A转换模块输入到电压放大模块。 According to claim 1. An APP pulse controlling the antiperspirant wearable portable apparatus as claimed in claim, characterized in that: the DC voltage conversion circuit of the pulse generator comprises a DC-DC boost circuit and DC-DC step-down circuit , DC-DC boost circuit output terminal is connected to the pulse output control module, connected to DC-DC buck circuit and the output terminal of the microcontroller MCU, Bluetooth communication module, a power supply terminal; and the key signal input terminal of the microcontroller MCU is connected to receive a key switch input value, the signal output of the microcontroller MCU information display apparatus connected to display the output current value information sample, the microcontroller MCU a / D input terminal for receiving current sampling detection module, MCU micro controller which PWM (pulse width modulation) control port control module PffM, MCU microcontroller input voltage to the amplifier module via a D / A converter module via its data output port.
7.根据权利要求4所述的一种APP控制的可穿戴便携式脉冲止汗仪,其特征是:所述脉冲输出控制模块,包括:D/A转换模块、电压放大模块、电压电流控制模块、电流采样模块、PffM控制模块、及可恢复保险丝;所述D/A转换模块的输出值作为电压放大模块的输入、电压放大模块的输出端与电压电流控制模块的控制端相连,所述电压电流控制模块的输入端与DC-DC升压电路输出端相连,DC-DC升压电路的输入端与直流电压输入相连,所述直流电源输入为可充电锂电池;电压电流控制模块的输出端与PWM控制模块相连;PWM控制模块经由可恢复保险丝与可穿戴式软胶电极相连;所述电流采样模块与可穿戴式软胶电极的负电极相连,并将电流采样值反馈给MCU微控制器的A/D检测端。 4 according to an APP pulse controlling the antiperspirant wearable portable apparatus as claimed in claim, wherein: said pulse output control module, comprising: D / A converter module, the voltage amplification module, voltage and current control module, current sampling module, PffM control module, and recoverable fuse; the D / a converter module as an output voltage value of the input amplifier module, the control module amplified voltage output terminal of the voltage control module is connected to the current, the voltage and current the control module inputs the booster circuit is connected to the output terminal of DC-DC, DC-DC input terminal connected to the boost circuit input DC voltage, DC power input to the rechargeable lithium battery; voltage and current output of the control module PWM control module is connected; PWM control module is connected to the electrode via a soft wearable recoverable fuse; the current sampling module is connected to the negative electrode of the wearable electrode is soft, and the sampled current feedback to the microcontroller MCU A / D detection terminal.
8.根据权利要求1所述的一种带负载检测的智能脉冲止汗仪,其特征是:所述软胶导电电极的结构,包括:两片软胶导电电极P2以及与其相连接的两根金属导线Pl; 其中,软胶导电电极的形状包括方形、长方形、其内侧中间填垫海绵或者软布的软质织物N3的弯曲η形、以及眼鼻嘴处挖空的面膜形。 The antiperspirant intelligent impulse load detecting device A tape according to claim 1, characterized in that: said soft conductive electrode structure, comprising: two conductive electrodes P2 and soft two connected thereto Pl is a metal wire; wherein the shape of the soft conductive electrode comprises a square, rectangular, inside which the intermediate shimming or curved soft sponge cloth of fabric N3 η shape, eyes, nose and mouth of the mask hollowed shape.
9.如权利要求1所述的一种APP控制的可穿戴便携式脉冲止汗仪的使用方法,其特征是:具体使用步骤如下: 1)预先准备工作: (1)用户在智能移动设备上安装对应Android或1S的APP应用软件; (2)将所述两片可穿戴式软胶电极通过金属导线与所述脉冲发生器的输出电极的正负极分别相连,位于多汗部位处的两片可穿戴式软胶电极之间相互绝缘; (3)用户在智能移动设备APP上设置与蓝牙通讯模块对接配对; (4)用户在智能移动设备APP上设置脉冲电压值、电流值、占空比、单次工作时间、以及工作部位; 2)脉冲发生器通电后: (1)直流电源输入通过可充电内置锂电池供电,通过DC-DC升压电路进行升压,并连接至电压电流控制模块处理; (2 )直流电源输入通过DC-DC降压电路为MCU微控制器以及蓝牙通讯模块输送工作电压.3.3V、同时将工作电压5V输送至D/A数模转换模块; (3)MCU微控 Use wearable portable pulse antiperspirant 9. An apparatus according to claim 1 APP control, characterized in that: the use of specific steps are as follows: 1) prepared in advance: (1) is mounted on the user smart mobile devices Android application software or the corresponding 1S APP; and (2) the two soft wearable electrode metal wire electrode by the output of the pulse generator is connected to the positive and negative electrodes, respectively, located at the site of two hyperhidrosis wearable soft electrodes insulated from each other; (3) the user is provided with a Bluetooth communication module mating abutment on a smart mobile device APP; (4) the user setting value of the pulse voltage on the APP smart mobile devices, the current value, the duty ratio , a single working time and the work site; 2) after the energization pulse generator: (1) DC power input, is boosted by the DC-DC boost circuit by the built-in rechargeable battery, and is connected to the voltage-current control module handling; (2) DC input voltage .3.3V transport operation of the microcontroller MCU and a Bluetooth communication module DC-DC step-down circuit, while feeding the 5V operating voltage to D / A converter module; (. 3) MCU microcontroller 器通过蓝牙通讯模块将智能移动设备APP上的设置值读取过来; 同时,将负载状态通过蓝牙通讯模块传送给智能移动设备APP; (4)当负载添加上后,所述MCU微控制器通过将电流采样模块采集到的电流值与智能移动设备APP预先设置的电流值相对比、然后将对比差值信号通过数据输出控制D/A转换模块、再经电压放大模块传输到电压电流控制模块的控制端进行控制,从而使输出电压及电流在一个完整的控制闭环中得到控制与调节; 进而通过M⑶微控制器的HVM端调节控制脉宽占空比;之后,经由可恢复保险丝将脉冲输出控制模块产生的脉冲电流输送至可穿戴式软胶电极上; 当脉冲输出控制模块的输入或者输出端的瞬间电流因电路或者负载异常问题增大至人体安全限制电流20mA时,可恢复保险丝FBl及FB2的阻值将会随着电流的增大而增大、直至相当于电路开路的无 Via Bluetooth communication module sets the value of the read smart mobile devices over APP; the same time, the load status to the smart mobile devices by Bluetooth communication module APP; (4) when the load is added on, the microcontroller MCU by current value of the current value of the smart mobile device APP preset current sampling module acquired contrast, then the contrast difference data output control signal through D / a converter module, and then transmitted to the voltage control module is current amplified voltage module control of the console, so that the output voltage and current in a closed loop control to obtain complete control and regulation; thereby regulating the pulse duty cycle controlled by the microcontroller HVM end M⑶; after recoverable fuse outputs pulses via the control module generates the pulse current is delivered to the soft wearable electrode; when the pulse output control input module or the output terminal of the circuit due to inrush current problem or abnormal load is increased to limit the current at 20mA human security, recoverable fuse FB2 and the FBl resistance will increase as the current increases, until no open circuits corresponding to 大,此时开路信号通过蓝牙通讯模块传输给智能移动设备APP上的限压限流报警; 当异常问题解决或者消失后,可恢复保险丝FBl或者FB2将恢复至初始正常状态,从而对脉冲输出控制模块的自适应闭环控制增加了又一重限流保护; (5)所述脉冲发生器的负载检测模块是将检测到的负载接入状态输入至MCU微控制器,MCU微控制器将根据负载的接入状态做出判断:a.当负载未加入时,脉冲输出控制模块处于待机状态且停止输出;b.当负载加入时,脉冲输出控制模块开始递增输出至设定值;c.当负载在工作过程中暂时撤掉时,脉冲输出控制模块将暂停输出、同时MCU微控制器暂停倒计时并处于待机状态;当负载重新再次加上时,脉冲输出控制模块将再次递增输出至设定值、同时MCU微控制器在原有倒计时的基础上继续开始倒计时;d.当倒计时设定值变为零时,脉冲输出控 Large, open-case limit on the signal transmission to the mobile device APP smart alarm pressure limit flow through the Bluetooth communication module; abnormal when the problem is solved or disappear, or a recoverable fuse FB2 FBl will return to the original normal state, so that the pulse output control the adaptive closed-loop control module further increase the weight limit protection; (5) the pulse generator load detection module detected load is inputted to the MCU access state microcontroller, the microcontroller MCU will be based on the load access state judge: a load is not added when the pulse output control module in a standby state and stops outputting; B when the load is added, the output control module increments the pulse output to a set value; when the load C... when the working process is temporarily removed, and the pulse output control module will output pause, while microcontroller MCU pauses the countdown and in a standby state; again when the load is reapplied, the control module will increment the pulse output outputted again to the set value, while the microcontroller MCU continues the countdown begins countdown on the basis of the original;. d set value when the countdown reaches zero, the pulse output control 模块将递减输出值直至零值; (6)所属MCU微控制器,将脉冲发生器的脉冲电压、脉冲电流通过蓝牙通讯模块传输给智能移动设备APP,并通过智能移动设备APP界面实时显示出来; 3)可穿戴式软胶电极工作: (1)脉冲发生器对置于多汗部位处的两片软胶导电电极产生频率在0.2Hz〜1KHz之间可调的脉冲电流; (2)工作定时结束,断电,取下可穿戴式软胶电极,此次使用完毕。 Module output value until a zero value is decremented; (6) belongs to the microcontroller MCU, a pulse voltage of the pulse generator, the pulse current transmitted to the smart mobile device via Bluetooth communication module APP, APP and smart mobile device interface is displayed in real time; 3) soft wearable electrode: (1) a current pulse generator generates a pulse frequency of between 0.2Hz~1KHz adjustable soft conductive electrode is placed at the site of two hyperhidrosis; (2) operation timing end, power, remove soft wearable electrode, the after use.
CN201510630899.XA 2015-09-29 2015-09-29 APP-controlling wearable portable pulse sweating suppression instrument and use method CN105521560A (en)

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