TWM525754U - Transcutaneous electronic nerve stimulation having photo-thermoelectric therapy function - Google Patents
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本新型係關於一種經皮神經刺激裝置,尤指一種具有光電熱療功能之經皮神經刺激裝置。The present invention relates to a transcutaneous nerve stimulation device, and more particularly to a transcutaneous nerve stimulation device having photoelectric thermotherapy function.
現行隨著科技進步,許多用於緩解疼痛之醫療器材,已不需要透過專業醫療人員操作才能使用,而是能讓一般非專業的使用者、消費者進行操作,例如:低週波電療電位儀、中週波電療電位儀、具遠紅外線放射之照射儀、電神經刺激系統或其他之物理刺激系統。其中電神經刺激系統需有一條導電用的電極線,並透過不同頻率之微弱交流電流刺激淺層表皮神經與刺激大腦,使大腦釋放出具有止痛效果之腦內啡(Endor phine),以達到紓緩疼痛的目地。With the advancement of science and technology, many medical equipment for relieving pain do not need to be operated by professional medical personnel, but can be operated by general non-professional users and consumers, for example, low-frequency electrotherapy potentiometers, Mid-frequency electrotherapy potentiometer, irradiance instrument with far-infrared radiation, electrical nerve stimulation system or other physical stimulation system. The electrical nerve stimulation system needs a conductive electrode line, and stimulates the superficial epithelial nerve and stimulates the brain through weak alternating currents of different frequencies, so that the brain releases endophage (Endor phine) with analgesic effect to achieve 纾Painful eyes.
在現有技術中,一般市售的低週波電療儀,係定義在200Hz以下的低頻刺激,用此類電刺激系統時,不同頻率之交流電具有不同之醫療效果,頻率並無刻板之規定,但仍有一些通則可依循,例如:2Hz~10Hz具有長效止痛效果,10Hz~30Hz對肌肉組織有消腫及促進血液循環作用,並具有按摩消除肌肉疲勞的功能。但是,人體皮膚有很大的阻力,低頻刺激的穿透力並不好,止痛效果只能達到比較表淺的地方,雖然中頻的電刺激頻率(一般定義在1kHz~10kHz)就可穿越到深層肌肉層(即頻率越高越容易穿透物質),但中頻電刺激又沒有止痛的效果,所以現有技術中,又有一種低頻調制中頻的技術(mdulated medium frequency electrotherap),此調制中頻的電刺激技術應用在臨床醫學上對於人體的止痛有效果。In the prior art, a generally commercially available low-frequency electrotherapy device is defined as a low-frequency stimulus below 200 Hz. When using such an electrical stimulation system, alternating currents of different frequencies have different medical effects, and the frequency is not rigid, but still There are some general rules to follow, for example: 2Hz~10Hz has long-term analgesic effect, 10Hz~30Hz has swelling effect on muscle tissue and promotes blood circulation, and has the function of massage to eliminate muscle fatigue. However, human skin has great resistance, the penetration of low frequency stimulation is not good, and the analgesic effect can only reach a superficial place, although the intermediate frequency electrical stimulation frequency (generally defined at 1 kHz to 10 kHz) can be traversed. The deep muscle layer (that is, the higher the frequency, the easier it is to penetrate the substance), but the intermediate frequency electrical stimulation has no analgesic effect, so in the prior art, there is a technique of mdulated medium frequency electrotherap, in which modulation The application of frequency electrical stimulation technology has an effect on the analgesic effect of the human body in clinical medicine.
但是上述低頻調制中頻的電刺激技術,其使用的電極貼片之需求甚高,當電療效果不佳時就需更換一組新的電極貼片以達到預期之療效,所以更換、拆卸電極貼片的次數便較為頻繁,然而現有技術中的電刺激系統(如經皮電刺激儀)絕大部分都是利用一條以上的電極導線將主機與電極貼片透過有線的方式連接,並透過皮膚為介質形成電子迴路進行電療。而且,為使電極貼片能夠均勻且服貼地接觸皮膚,通常會在皮膚與電極貼片的接觸面之間,使用含導電物質的凝膠進行固定,使得電療的電流能夠均勻的分佈在皮膚面,進而達到局部舒緩之電刺激效果。However, the above-mentioned low-frequency modulation intermediate frequency electrical stimulation technology has a high demand for electrode patches. When the electrotherapy effect is not good, a new set of electrode patches needs to be replaced to achieve the desired therapeutic effect, so the electrode stickers are replaced and disassembled. The number of times is relatively frequent. However, most of the prior art electrical stimulation systems (such as transcutaneous electrical stimulators) use more than one electrode wire to connect the host and the electrode patch through a wire, and through the skin. The medium forms an electronic circuit for electrotherapy. Moreover, in order to allow the electrode patch to contact the skin uniformly and conformally, a gel containing a conductive substance is usually fixed between the skin and the contact surface of the electrode patch, so that the current of the electrotherapy can be evenly distributed on the skin. The surface, in turn, achieves a local soothing electrical stimulation effect.
由上述可知,現有技術中的主機透過電極導線連接電極貼片之設計,除了不易拆卸、更換又造成使用不方便外,電極貼片更只有單純之導電刺激功能,對於皮膚與肌肉深層的紓緩效果並不明顯,再者,一般習知的物理復健科之療程處理,一般會進行2種以上的物理方式來舒緩使用者受傷之部位,但以目前的物理治療療程而言,大多是利用非侵入式的光、電、水、冷、熱、力等物理方式來治療病患症狀及恢復生理功能,而上述的物理療程之操作過程係相當繁瑣、麻煩,對使用者而言相當不方便。It can be seen from the above that the design of the electrode patch connected to the electrode through the electrode wire in the prior art is not only easy to disassemble and replace, but also inconvenient to use. The electrode patch has only a simple conductive stimulation function, and relieves the deep skin and muscle. The effect is not obvious. In addition, in the conventional physical rehabilitation department, there are generally more than two physical methods to soothe the injured part of the user. However, in the current physical therapy treatment, most of the treatment is used. Non-invasive physical methods such as light, electricity, water, cold, heat, and force to treat the symptoms of patients and restore physiological functions, and the above-mentioned physical course of operation is quite cumbersome and troublesome, which is quite inconvenient for the user. .
就現有技術而言,主機透過電極導線連接電極貼片確實不易拆卸、更換,而且目前的電極貼片只有單純的導電刺激功能,因此,對於如何提升使用者的方便性並有效提升肌肉淺層與深層之紓緩效果,確實有待提出更佳解決方案的必要性。As far as the prior art is concerned, the host is not easy to disassemble and replace the electrode patch through the electrode lead, and the current electrode patch has only a simple conductive stimulation function, so how to improve the user's convenience and effectively improve the muscle shallow layer and The deep relief effect does indeed require the need for a better solution.
有鑑於上述現有技術之不足,本新型主要目的係提供一種具有光電熱療功能之經皮神經刺激裝置,其將一具有光電熱特性的電極片直接結合固定於主機上,並由主機透過自動控制技術結合光電熱療功能,以提升經皮神經刺激效果。In view of the above-mentioned deficiencies of the prior art, the main object of the present invention is to provide a transcutaneous nerve stimulation device having a photoelectric thermotherapy function, which directly couples an electrode sheet having photoelectric thermal characteristics to a host, and is automatically controlled by a host through The technology combines photothermographic function to enhance transcutaneous nerve stimulation.
為達成上述目的所採取的技術手段係令前述具有光電熱療功能之經皮神經刺激裝置包括: 一主機,其內部具有一容置空間供設置一基板,該基板上設有一訊號控制電路,該訊號控制電路具有至少一訊號輸出端; 一組遠紅外線電極片,係可拆卸地設在該主機的底部,該組遠紅外線電極片具有可導電、導熱之特性,並與該訊號控制電路的訊號輸出端電連接; 其中,當該訊號控制電路透過該訊號輸出端持續提供一輸出電訊號時,該訊號控制電路根據該輸出訊號判斷使用者目前的使用狀態,以執行一熱溫控制程序。The technical means for achieving the above-mentioned purpose is that the transcutaneous nerve stimulation device having the photoelectric thermotherapy function comprises: a host having an accommodation space for providing a substrate, and a signal control circuit is disposed on the substrate; The signal control circuit has at least one signal output end; a set of far infrared ray electrode pieces are detachably disposed at the bottom of the main body, and the set of far infrared ray electrode pieces have characteristics of being electrically conductive and thermally conductive, and signals with the signal control circuit The output terminal is electrically connected; wherein when the signal control circuit continuously provides an output electrical signal through the signal output end, the signal control circuit determines the current usage state of the user according to the output signal to execute a thermal temperature control program.
藉由上述構造可知,本新型係具有光電熱療功能之經皮神經刺激裝置,其主要係於該主機的容置空間內設置該基板,並於該基板上設置該訊號控制電路,該主機的底部係可拆卸的設有該組遠紅外線電極片,該組遠紅外線電極片具有可導電、導熱之特性,並與該訊號控制電路的第一訊號輸出端電連接;藉由使用者持該主機,並將主機的底部之遠紅外線電極片貼附於使用者皮膚,當該訊號控制電路透過該訊號輸出端持續提供一輸出電訊號時,該訊號控制電路根據該輸出訊號判斷使用者目前的使用狀態,以自動化的方式執行該熱溫控制程序,使該組遠紅外線電極片可放射出遠紅外線發熱,同時令該組遠紅外線電極片之電極導電,透過結合光電熱療功能、自動控制,達到提升經皮神經刺激效果的目的。According to the above configuration, the present invention is a transcutaneous nerve stimulation device having a photothermographic function, which is mainly provided in the accommodating space of the host, and the signal control circuit is disposed on the substrate. The bottom part is detachably provided with the set of far-infrared electrode sheets, the set of far-infrared electrode sheets having electrical and thermal conductivity characteristics, and electrically connected to the first signal output end of the signal control circuit; by the user holding the host And attaching the far infrared ray electrode on the bottom of the host to the user's skin. When the signal control circuit continuously provides an output electrical signal through the signal output end, the signal control circuit determines the current use of the user according to the output signal. The state, the thermal temperature control program is executed in an automated manner, so that the far-infrared electrode sheets of the group can radiate far-infrared heat, and at the same time, the electrodes of the group of far-infrared electrodes are electrically conductive, and through the function of photoelectric thermotherapy combined with automatic control, Improve the purpose of percutaneous nerve stimulation.
關於本新型具有光電熱療功能之經皮神經刺激裝置之一較佳實施例,請參閱圖1、2所示,其包括一主機10、一組遠紅外線電極片20,該組遠紅外線電極片20係可拆卸的直接設置在該主機10的底部,且該組遠紅外線電極片20具有可導電、導熱之特性;本較佳實施中,該組遠紅外線電極片20的數量可為一片或兩片以上組成。A preferred embodiment of the present invention relates to a transcutaneous nerve stimulation device having a photoelectric thermotherapy function. Referring to FIGS. 1 and 2, a host 10, a set of far infrared ray electrodes 20, and a set of far infrared ray electrodes are shown. The 20 series detachable is directly disposed at the bottom of the main body 10, and the set of far infrared ray electrode sheets 20 has the characteristics of being electrically conductive and thermally conductive. In the preferred embodiment, the number of the far infrared ray electrode sheets 20 may be one or two. The above composition.
必須先說明的是,一般遠紅外線被稱為生命光線,係最能深入皮膚與皮下組織的光線,雖然人類無法用肉眼看見遠紅外線,但它的性質與光相似,不但可於光軸方向直線前進,而且還可以進行反射、放射等光的性質。因此,遠紅外線能夠迅速的被人體皮膚吸收,且深入人體的遠紅外線會引起物質中的原子和分子的振動,再透過共振吸收形成反應促使皮膚下深層的溫度上升,將具有提升發熱效果之遠紅外線電極片20用於人體皮膚時,更能達到使微血管擴張、促使血液循環等效果。It must be noted that the general far infrared ray is called the life ray, which is the light that can penetrate deep into the skin and the subcutaneous tissue. Although humans cannot see the far infrared ray with the naked eye, its nature is similar to that of light, not only in the direction of the optical axis. It is also possible to carry out the properties of light such as reflection and radiation. Therefore, the far-infrared rays can be quickly absorbed by the human skin, and the far-infrared rays deep into the human body can cause the vibration of atoms and molecules in the substance, and then the resonance absorption reaction forms a reaction to promote the temperature rise of the deep layer under the skin, which will have a far-reaching effect of heating. When the infrared ray electrode sheet 20 is used for human skin, it is more effective in expanding microvasculature and promoting blood circulation.
如圖2所示,該組遠紅外線電極片20可包括一遠紅外線發熱電極單元21、一保護層22以及一吸附層23,該遠紅外線發熱電極單元21係夾設於該保護層22、該吸附層23之間,該保護層22用以隔離該主機10與該遠紅外線發熱電極單元21,該吸附層23用以貼附於使用者皮膚上;本實施例中,該遠紅外線發熱電極單元21包括一個以上的第一連接器211、一個以上的電熱傳導部212以及一遠紅外線發熱體213,且該電熱傳導部212係呈中空環形,該保護層22上分別形成與該第一連接器211、該電熱傳導部212之尺寸大小相對應的穿口,該吸附層23上設置一個以上的第一金屬固定件24,該第一金屬固定件24穿過該電熱傳導部212以及該保護層22上的穿口,並可拆卸的固定在該主機10的底部。As shown in FIG. 2 , the far infrared ray electrode sheet 20 may include a far infrared ray heating electrode unit 21 , a protective layer 22 , and an adsorption layer 23 . The far infrared ray heating electrode unit 21 is disposed on the protective layer 22 . The protective layer 22 is used to isolate the host 10 and the far-infrared heating electrode unit 21, and the adsorption layer 23 is attached to the skin of the user. In this embodiment, the far-infrared heating electrode unit 21 includes one or more first connectors 211, one or more electrothermal conducting portions 212, and a far-infrared heating element 213, and the electrothermal conducting portions 212 are in a hollow ring shape, and the protective layer 22 is respectively formed with the first connector 211, the size of the electrothermal conducting portion 212 corresponding to the size of the opening, the adsorbing layer 23 is provided with more than one first metal fixing member 24, the first metal fixing member 24 passes through the electrothermal conducting portion 212 and the protective layer The opening on the 22 is detachably fixed to the bottom of the main body 10.
於本實施例中,該主機10的底部設有一個以上的第二連接器11、一個以上的第二金屬固定件12,該主機10底部的第二連接器11係與該遠紅外線發熱電極單元21的第一連接器211連接,該主機10底部的該第二金屬固定件12係與該遠紅外線發熱電極單元21的第一金屬固定件24連接。In this embodiment, the bottom of the main body 10 is provided with more than one second connector 11 and one or more second metal fixing members 12, and the second connector 11 at the bottom of the main body 10 is coupled with the far infrared ray heating electrode unit. The first connector 211 of the main assembly 10 is connected to the first metal fixture 24 of the far infrared ray heating electrode unit 21.
請參閱圖3、4所示,其中該主機10內部具有一容置空間供設置一基板30,該基板30上設有一訊號控制電路,該訊號控制電路具有至少一訊號輸出端,該訊號輸出端係與該主機10底部的第二金屬固定件12電連接,並透過該第二金屬固定件12與該組遠紅外線電極片20連接,當該訊號控制電路透過該訊號輸出端持續提供一輸出電訊號時,該訊號控制電路根據該輸出訊號判斷使用者目前的使用狀態,以執行一熱溫控制程序。As shown in FIG. 3 and FIG. 4, the host 10 has an accommodating space for arranging a substrate 30. The substrate 30 is provided with a signal control circuit. The signal control circuit has at least one signal output end, and the signal output end The second metal fixing member 12 is electrically connected to the bottom of the main unit 10, and is connected to the set of far infrared ray electrodes 20 through the second metal fixing member 12. When the signal control circuit continues to provide an output telecommunication through the signal output end. When the number is selected, the signal control circuit determines the current usage state of the user according to the output signal to execute a thermal temperature control program.
進一步的,如圖4所示,該訊號控制電路包括一微控制器13、一電源模組14、一驅動模組15、一加熱驅動器16、一輸入模組17、一發光元件18以及一電源輸入埠19,其中該微控制器13連接該電源模組14、該驅動模組15、該加熱驅動器16、該輸入模組17以及該發光元件18,該電源模組14連接該電源輸入埠19與該驅動模組15,該組遠紅外線電極片20又分別與該驅動模組15的一訊號輸出端、該加熱驅動器16的一訊號輸出端連接。該電源輸入埠19係用以取得外接電源,該電源模組14將取得的外接電源進行充電、供電,該加熱驅動器16係輸出一加熱訊號,使該組遠紅外線電極片20的遠紅外線發熱體213產生熱,令溫度升高,該驅動模組15透過該微控制器13控制產生高壓並輸出一電刺激訊號。Further, as shown in FIG. 4 , the signal control circuit includes a microcontroller 13 , a power module 14 , a driving module 15 , a heating driver 16 , an input module 17 , a light emitting component 18 , and a power source . The input module 19 is connected to the power module 14, the driving module 15, the heating driver 16, the input module 17, and the light-emitting component 18. The power module 14 is connected to the power input port 19 The remote infrared ray electrode 20 is connected to a signal output end of the driving module 15 and a signal output end of the heating driver 16 . The power input port 19 is configured to obtain an external power source. The power module 14 charges and supplies the obtained external power source. The heating driver 16 outputs a heating signal to enable the far-infrared heating element of the group of far-infrared electrode sheets 20. The 213 generates heat to increase the temperature, and the driving module 15 controls the high voltage generated by the microcontroller 13 to output an electrical stimulation signal.
於本實施例中,該驅動模組15包括一高壓產生器151、一具有保護電路的電流變換器152,該高壓產生器151係連接該電源模組14、該微控制器13,該電流變換器152係連接高壓產生器151、該微控制器13以及該組遠紅外線電極片20,其中該高壓產生器151經由微控制器13控制以產生高壓,並準備電極輸出用,該電流變換器152係用以取得前述的輸出電訊號。In this embodiment, the driving module 15 includes a high voltage generator 151 and a current transformer 152 having a protection circuit. The high voltage generator 151 is connected to the power module 14 and the microcontroller 13. The current conversion is performed. The device 152 is connected to the high voltage generator 151, the microcontroller 13 and the set of far infrared ray electrodes 20, wherein the high voltage generator 151 is controlled by the microcontroller 13 to generate a high voltage, and is prepared for electrode output, the current transformer 152 It is used to obtain the aforementioned output electrical signal.
為說明本新型經皮神經刺激裝置之較佳實施例的具體應用方式,請參考圖5所示,為本新型於應用狀態下之輸出電訊號的座標圖,其中該輸出電訊號包括一輸出電壓(單位/mV)、一輸出電流(單位/mA),該上述微控制器13經由一F/W韌體程式執行該主機10的工作流程,由該微控制器13透過該驅動模組15的訊號輸出端持續提供該輸出電訊號,並由該電流變換器152將該輸出電訊號轉換為一參考電壓訊號,該微控制器13根據即時偵測到的該參考電壓訊號判斷使用者目前的使用狀態,並對判斷結果執行相對應的熱溫控制。舉例而言,當該輸出電訊號的輸出電流為1mA、該參考電壓訊號的輸出電壓為10mV,則代表未貼附皮膚,該微控制器13即執行保護模式,如10秒後關機;當該輸出電訊號的輸出電流為10mA、該參考電壓訊號的輸出電壓為100mV,則屬於正常的使用狀態;當該輸出電訊號的輸出電流為100mA、該參考電壓訊號的輸出電壓為1000mV,則代表電極短路,該微控制器13亦執行保護模式,如驅動該發光元件18發光,以當作警示燈,並切斷該輸出電訊號。To illustrate the specific application mode of the preferred embodiment of the present transcutaneous nerve stimulation device, please refer to FIG. 5, which is a coordinate diagram of the output electrical signal in the application state, wherein the output electrical signal includes an output voltage. (unit / mV), an output current (unit / mA), the microcontroller 13 executes the workflow of the host 10 via an F/W firmware program, and the microcontroller 13 transmits the drive module 15 The signal output terminal continuously supplies the output electrical signal, and the current converter 152 converts the output electrical signal into a reference voltage signal, and the microcontroller 13 determines the current use of the user according to the instantaneously detected reference voltage signal. State, and perform corresponding thermal temperature control on the judgment result. For example, when the output current of the output signal is 1 mA and the output voltage of the reference voltage signal is 10 mV, it means that the skin is not attached, and the microcontroller 13 performs a protection mode, such as shutdown after 10 seconds; The output current of the output electrical signal is 10 mA, and the output voltage of the reference voltage signal is 100 mV, which is a normal use state; when the output current of the output electrical signal is 100 mA, and the output voltage of the reference voltage signal is 1000 mV, the representative electrode Short circuit, the microcontroller 13 also performs a protection mode, such as driving the light-emitting element 18 to emit light as a warning light and cutting off the output electrical signal.
根據本新型具有光電熱療功能之經皮神經刺激裝置之上述較佳實施例可歸納出一訊號控制方法,請參考圖6所示,其主要係由該主機10電連接該組可拆卸的遠紅外線電極片20,且該組遠紅外線電極片20具有可導電、導熱之特性,並由該主機10執行以下步驟: 以該訊號控制電路持續提供該輸出電訊號至該組遠紅外線電極片20(S61); 並由該訊號控制電路根據該輸出電訊號判斷使用者目前的使用狀態,以執行一熱溫控制程序(S62)。According to the above preferred embodiment of the transcutaneous nerve stimulation device with photothermographic function of the present invention, a signal control method can be summarized. Referring to FIG. 6, the main body 10 is electrically connected to the group of detachable remotes. Infrared electrode sheet 20, and the set of far-infrared electrode sheets 20 have electrical and thermal conductivity characteristics, and the host 10 performs the following steps: the signal control circuit continuously supplies the output electrical signals to the set of far-infrared electrode sheets 20 ( S61); and the signal control circuit determines the current usage state of the user according to the output electrical signal to execute a thermal temperature control program (S62).
於本實施例中,當上述步驟執行至「由該訊號控制電路根據該輸出電訊號判斷使用者目前的使用狀態,以執行一熱溫控制程序(S62)」之步驟時,進一步執行以下子步驟: 由該訊號控制電路將該輸出電訊號轉換為一參考訊號,並根據該輸出電訊號、該參考訊號判斷該等訊號的數值是否符合一區間範圍值之內(S621),例如:輸出電訊號大於1mA並且小於100mA、參考訊號大於100mV並且小於1000mV; 若是,則執行正常的溫熱控制程序,以維持正常的使用狀態(S622); 若否,則執行一保護模式,如10秒後關機或者使該發光元件18發光並切斷該輸出電訊號。In this embodiment, when the above step is performed to the step of "determining the user's current use state based on the output signal to execute a thermal temperature control program (S62)", the following substeps are further performed. : the signal control circuit converts the output electrical signal into a reference signal, and determines, according to the output electrical signal and the reference signal, whether the values of the signals meet the range value of a range (S621), for example, outputting a signal signal More than 1 mA and less than 100 mA, the reference signal is greater than 100 mV and less than 1000 mV; if yes, a normal warming control procedure is performed to maintain normal use (S622); if not, a protection mode is performed, such as 10 seconds after shutdown or The light-emitting element 18 is caused to emit light and cut off the output electrical signal.
藉由上述訊號控制方法,將該主機10直接與該組遠紅外線電極片20連接,由於該組遠紅外線電極片20可拆卸,故能夠方便使用者自行更換、提升使用者的方便性,而且該組遠紅外線電極片具有可導電、導熱之特性,因此,當該主機10持續提供該輸出電訊號至該組遠紅外線電極片20時,該主機10能根據該輸出訊號的大小,即時判斷使用者目前的使用狀態,以自動化的方式執行該熱溫控制程序,使該組遠紅外線電極片可放射出遠紅外線發熱,同時令該組遠紅外線電極片之電極導電,透過結合光電熱療功能、自動控制,有效提升肌肉淺層與深層之紓緩效果,達到提升經皮神經刺激效果的目的。The host 10 is directly connected to the set of far-infrared electrode sheets 20 by the above-mentioned signal control method. Since the set of far-infrared electrode sheets 20 is detachable, the user can easily replace and improve the user's convenience. The group of far infrared ray electrodes has the characteristics of being electrically conductive and thermally conductive. Therefore, when the host 10 continues to provide the output electrical signal to the set of far infrared ray electrodes 20, the host 10 can instantly determine the user according to the size of the output signal. In the current state of use, the thermal temperature control program is executed in an automated manner, so that the far-infrared electrode sheets of the group can radiate far-infrared heat, and at the same time, the electrodes of the group of far-infrared electrodes are electrically conductive, and the function is combined with photoelectric thermotherapy. Control, effectively improve the relief effect of the shallow and deep layers of muscle, to achieve the purpose of improving the percutaneous nerve stimulation effect.
10‧‧‧主機
11‧‧‧第二連接器
12‧‧‧第二金屬固定件
13‧‧‧微控制器
14‧‧‧電源模組
15‧‧‧驅動模組
151‧‧‧高壓產生器
152‧‧‧電流變換器
16‧‧‧加熱驅動器
17‧‧‧輸入模組
18‧‧‧發光元件
19‧‧‧電源輸入埠
20‧‧‧遠紅外線電極片
21‧‧‧遠紅外線發熱電極單元
211‧‧‧第一連接器
212‧‧‧電熱傳導部
213‧‧‧遠紅外線發熱體
22‧‧‧保護層
23‧‧‧吸附層
24‧‧‧第一金屬固定件
30‧‧‧基板10‧‧‧Host
11‧‧‧Second connector
12‧‧‧Second metal fasteners
13‧‧‧Microcontroller
14‧‧‧Power Module
15‧‧‧Drive Module
151‧‧‧High voltage generator
152‧‧‧ Current Transformer
16‧‧‧heating drive
17‧‧‧Input module
18‧‧‧Lighting elements
19‧‧‧Power input埠
20‧‧‧ far infrared ray electrode
21‧‧‧ far infrared heating electrode unit
211‧‧‧First connector
212‧‧‧Electrical heat conduction department
213‧‧‧ far infrared heating body
22‧‧‧Protective layer
23‧‧‧Adsorption layer
24‧‧‧First metal fixture
30‧‧‧Substrate
圖1 係本新型一較佳實施例的外觀立體圖。 圖2 係本新型一較佳實施例的分解圖。 圖3 係本新型一較佳實施例的另一分解圖。 圖4 係本新型一較佳實施例的方塊圖。 圖5 係本新型一較佳實施例的應用狀態座標圖。 圖6 係本新型一較佳實施例的訊號控制方法流程圖。1 is an external perspective view of a preferred embodiment of the present invention. 2 is an exploded view of a preferred embodiment of the present invention. Figure 3 is another exploded view of a preferred embodiment of the present invention. 4 is a block diagram of a preferred embodiment of the present invention. Figure 5 is a diagram showing the state of application of a preferred embodiment of the present invention. 6 is a flow chart of a signal control method according to a preferred embodiment of the present invention.
10‧‧‧主機 10‧‧‧Host
20‧‧‧遠紅外線電極片 20‧‧‧ far infrared ray electrode
Claims (8)
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW105203240U TWM525754U (en) | 2016-03-09 | 2016-03-09 | Transcutaneous electronic nerve stimulation having photo-thermoelectric therapy function |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW105203240U TWM525754U (en) | 2016-03-09 | 2016-03-09 | Transcutaneous electronic nerve stimulation having photo-thermoelectric therapy function |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| TWI607778B (en) * | 2016-03-09 | 2017-12-11 | Transcutaneous nerve stimulation device with photoelectric thermotherapy function and its signal control method | |
| TWI725812B (en) * | 2019-01-08 | 2021-04-21 | 友睦科技股份有限公司 | Far infrared fomentation device |
-
2016
- 2016-03-09 TW TW105203240U patent/TWM525754U/en unknown
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| TWI607778B (en) * | 2016-03-09 | 2017-12-11 | Transcutaneous nerve stimulation device with photoelectric thermotherapy function and its signal control method | |
| TWI725812B (en) * | 2019-01-08 | 2021-04-21 | 友睦科技股份有限公司 | Far infrared fomentation device |
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