M328881 八、新型說明: 【新型所屬之技術領域】 本創作係關於—種電導人電極陣列結構,特別是關於 -種戴附式可齡電導人電―以構,供使用者藉由戴附 帶體佩戴於較部位,以使嵌置在該可撓性電導人電極陣列 承置座之各個可撓性電導人電極對該選定部位產入 信號。 【技術背景】 電導入法-般也可稱作離子電滲法,電導入法是利用 電流以促進藥物經由皮膚或黏膜進到體内。電導入法使用脈 衝式電流或持續不間斷電流將藥物藉由離子促進滲透進入 皮膚或黏膜内的給藥技術,包括採用小量的電位差以維持持 續不間斷電流。利用電導入法時,生物活性物質經皮電滲入 量會與通過的電荷直接成比例,這也要依據所提供的電流、 電流提供的持續時間長短、以及電導入作用電極分隔接觸的 皮膚表皮區等性質。電導入法的優點包括可以促進藥物進入 體内、加速藥物的作用時間、且容易控制藥物進入體内的量 及時間;換句話說,一旦電源切掉,傳輸立即停止。再者, 不管持續的或跳動的給藥方式需要與否,利用特別製作的電 流圖表可達到理想的輸入動力。文獻上關於電導入法方面, 已有人提出陰離子性藥物( Miller LL, Smith G A. Int J Pharm,Νο·49,P15,1989)、陽離子性藥物(Siddiqui 0,Roberts M S,Ploack,AE,Pharm Pharmco卜 Νο·37, P732, 1985 )、胜呔/蛋白製劑等之經皮膚吸收促進效果。 M328881 臨床上也有使用利多卡因(麻醉劑)、腎上腺素、曱基潑尼 松(methy! predonisolone )及消炎止痛藥等治療帶狀癌療後 神經痛(小澤明,日本醫事新報,N〇 3648,p25,测) 等。 【先前技術】M328881 VIII. New Description: [New Technology Field] This creation is about the structure of a human-electrode array, especially for the wearable age-old electric conductor, for the user to wear the accessory body. The plurality of flexible conducting human electrodes embedded in the flexible conducting electrode array holder are driven to the selected portion to generate a signal. BACKGROUND OF THE INVENTION Electroporation is also commonly referred to as iontophoresis, which utilizes electrical current to facilitate the passage of drugs into the body via the skin or mucosa. Electroporation uses a pulsed current or continuous uninterrupted current to impart a drug to the skin or into the mucosa through ion delivery techniques, including the use of small potential differences to maintain a sustained uninterrupted current. When using the electro-introduction method, the amount of percutaneous electroosmosis of the bioactive substance is directly proportional to the charge passing through, which is also dependent on the duration of the supplied current and current, and the skin epidermal area separated by the electro-introducing electrode. Other nature. Advantages of the electro-introduction method include promoting the entry of the drug into the body, accelerating the action time of the drug, and easily controlling the amount and time of entry of the drug into the body; in other words, once the power source is cut, the transfer is immediately stopped. Furthermore, regardless of whether the continuous or beating mode of administration is required or not, a specially created current chart can be used to achieve the desired input power. In the literature on the introduction of electroporation, anionic drugs have been proposed (Miller LL, Smith G A. Int J Pharm, Νο. 49, P15, 1989), cationic drugs (Siddiqui 0, Roberts MS, Ploack, AE, Pharm). Pharmco Νο·37, P732, 1985), sputum/protein preparation, etc. M328881 Clinically, it also uses lidocaine (narcotics), adrenaline, methionine predonisolone and anti-inflammatory analgesics to treat post-therapy neuropathic pain (Ozawa Akira, Nippon Medical News, N〇3648, P25, test) and so on. [Prior Art]
时我國專利第〇〇14〇339(1990年)號揭露—種「經皮_ 為及其電極」,其特徵在於至少二電極元件,形成該施藥器, 經由絕緣裝置而彼此分隔;貯器裝置,在該施藥器之至少一 電極元件内’内含該藥物;1路,包括電力來源。我 利第〇〇199865(1993年)號揭露一種「皮膚用電極結構和使 用该電極結構之穿皮藥物輸送裝置」,其特徵在於穿皮藥物 輸送裝置包括-電極…多孔絕緣層位於電極—側並渗有所 要輸送之藥液…液體貯器位於電極另—側,及—可位移膜 片I控制液體自貯器經電極通道饋送至多孔絕緣層。我國專 利第00358745(1999年)號揭露一種「離子渗透法用電極带 置」,係提供-種離子渗透法所用電極裝4,具彳來自電^ 的金屬離子不會侵人體内,可再利用,低廉而量產性優卜 抑制引起分極的氣體發生,顯著改善透過電流,並防止^期 pH變化損傷皮膚等優良性能。纟國專^ 〇〇侧40(2_年)號揭露一種「離子電滲療法用裝置」,係 提供-種將藥物作電氣式經皮膚投與之離子轉療法用壯、 其特欲在.支持體上具備電源,同時在該支持體之同— 早面上配置施體與受體,令兩者間介著絕緣用空隙部,而 成一體構造’該離子電滲療法用裝置不必增加電流值即可安 6 M328881 =又有效地使藥物經皮膚吸收’且處理性甚優良。我 U_13G9_镇揭露—種「電極及離子電渗設備及 方法」,係揭露-種電極及離子電滲設備及方法,其中 極展現變化的電阻。 習知的技術中,亦有使用多個電極或複數個電極,或 兩組或複數組電極,藉以控制多數有效成分之釋出的目的, 但這些複數組電極個個獨立,線路排職雜,且都是使用金 屬電極’電極表面無法使用在關節或身躺崎㈣部位。習知 的技術中,亦有將複數個施體與受體配置成同心圓狀者(日 本特開平4·2〇8ΐ66號),雖然在未有任何根據下即陳述同 〜0狀電極裝置可以將藥物釋出所需電流抑制於最小限 但事實上’縱使是同心圓狀電極,其吸收性亦會因絕緣 之距離及施體與受體之面積比等要素而改變。 觸二二Γ:平1 2 3 4 5·16號中,絕緣部係以具有與皮膚接 '刀為”必要條件’但此種構造與其說是用來 於施體與受體間之電流經由皮膚㈣漏而導致之吸收性阻 =不如,兄是因為底部所含之瓊脂凝膠等藥物對皮膚沒有粘 7 1 32554W此為-輔助點著方法。以電極墊而言,日本特開平 2 、#°揭示—種即使含有水分,對皮膚亦有良好的枯 3 者*且其本身通電時不會產生形態等之變化者。不過, 4 用之^ ^H仍未提供令人滿意之離子電渗療法 5 【新型内容】 M328881 本創作所欲解決之技術問題 出$ 導入電極’都有類似電刺激電極的金屬凸 槽’電導入電極裝置不易固定、易脫落。且 平的 1面積小、也無法使用在㈣或肢體f曲或不 你田η〗皮膚今易產生極化,降低電導人的效率。即使 使用夕個電極或複數個電極’或兩組或複數組電極,但這些 電極個個獨立,線路排列複雜等。而使用脈波型電流 :時’因負載週期小於職㈣<D,作用時間 則必須增長等等。 本創作解決問題之技術手段 為解決習知技術之_所採狀技術手段係提供一種 戴附式可撓性f導人電鱗列結構,包括—可撓性電導入電 ^列1置座’開設有複數個承置孔;複數個電導入電極, 地肷置在該可撓性電導入電極陣列承置座之承置孔 中’ -山戴附帶體’結合在該可撓性電導人電極陣列承置座之 兩側知’供使用者藉由該载附帶體佩戴於選定部位,以使嵌 _在《亥可红f生電導入電極陣列承置座之各個可撓性電導入 電極對4叙部位產生電導人信號。可撓性電導人電極陣列 ▲可挽11底層、一導電電極面、絕緣隔絕區、以及欲置 在该可撓性底層之預定間隔位置之電導人電極,每—個電導 入電極之間係由絕緣隔絕區^以區隔絶緣。 M328881 本創作對照先前技術之功效 纟li作改&電極結構、電極與電線的連接方式,創作 複數料撓性之陣列式電導人電極,只有—組電源線導入電 源輸人&’利用晶片或微晶片之通道切換電路和切換控制單 疋’將與電極間之線路直接佈線於可撓性電導的底部,以解 -決複數組電極_個獨立,線路㈣複雜之問題;並創作可 —舰之陣列式電導入電極,使用軟式或_電極m ❿性之陣列式電導人電極μ合的、且容易的貼附 2身體㈣何部位;陣列式電極可以用積體電路佈線的技 :Τ/Γ谷易的同時在一個電極面上具有複數個電極組及絕 心°於、^用通道切換電路連接在該電導入電極信號產生電 接於s t與各個電導人電極之間’而該切換控制單元係連 ;電路’用以控制該通道切Japanese Patent No. 14 339 (1990) discloses "transdermal _ as its electrode", characterized in that at least two electrode elements are formed to be separated from each other via an insulating device; The device contains 'the drug' in at least one of the electrode elements of the applicator; 1 way, including a source of electricity. My Dijon 199865 (1993) discloses a "skin electrode structure and a transdermal drug delivery device using the electrode structure", characterized in that the transdermal drug delivery device comprises an electrode ... a porous insulating layer on the electrode side The liquid is to be transported. The liquid reservoir is located on the other side of the electrode, and the displaceable diaphragm I controls the liquid from the reservoir to be fed to the porous insulating layer via the electrode channel. China Patent No. 00358745 (1999) discloses a "electrode stripping method for ion permeation method", which provides an electrode assembly 4 for ion permeation method, which does not invade a human body from a metal ion, and can be reused. The low-cost and high-volume production suppresses the generation of the gas of the polarization, significantly improves the permeation current, and prevents the excellent performance such as the pH change and damage to the skin.纟 专 ^ 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 The support body has a power supply, and at the same time, the donor body and the receptor are disposed on the same surface of the support body, and the gap portion for insulation is provided between the two, and the integrated structure is formed. The iontophoresis device does not need to increase the current. The value can be 6 M328881 = effectively absorb the drug through the skin' and the handling is very good. I U_13G9_ town uncovers a kind of "electrode and iontophoresis equipment and methods", which exposes an electrode and iontophoresis equipment and method, in which the pole exhibits a varying resistance. In the prior art, a plurality of electrodes or a plurality of electrodes, or two groups or a plurality of array electrodes are used to control the release of most active components, but the complex array electrodes are independent, and the lines are arranged. And all use metal electrodes' electrode surface can not be used in the joint or body lying (four) parts. In the conventional technique, there are also a plurality of donors and receptors arranged in a concentric shape (Japanese Patent Laid-Open No. 4-2〇8ΐ66), although the electrode device can be stated as the same as the 0-shaped electrode device without any basis. The current required to release the drug is kept to a minimum but in fact 'even if it is a concentric electrode, its absorbability will also vary depending on factors such as the distance between the insulation and the area ratio of the donor to the receptor. Touch 2:2: In the 1 2 3 4 5·16, the insulating part has the necessary condition to connect with the skin, but this structure is not used for the current between the donor and the receptor. Skin (4) leakage caused by absorption resistance = inferior, brother because the bottom contains agar gel and other drugs on the skin is not sticky 7 1 32554W This is an auxiliary point method. In terms of electrode pads, Japan special Kaiping 2, #°示—A species that has a good dryness to the skin even if it contains water* and does not change its shape when it is energized. However, 4 ^^H still does not provide satisfactory ion electricity. Infiltration therapy 5 [New content] M328881 The technical problem that this creation is to solve is that the introduction electrode has a metal groove similar to the electrical stimulation electrode. The electric lead-in electrode device is not easy to be fixed and easy to fall off, and the flat 1 area is small. Can not be used in (4) or limb f song or not your field η〗 Skin is now prone to polarization, reducing the efficiency of the conductor. Even with the use of a night electrode or a plurality of electrodes ' or two groups or complex array electrodes, but these electrodes Independent, complicated line arrangement, etc. Pulse wave type current: When the load cycle is less than the duty (4) < D, the action time must be increased, etc. The technical means for solving the problem in this creation is to provide a wearable method for solving the conventional technology. The flexible f-conducting electric scale structure comprises: a flexible electric lead-in electric column 1 is provided with a plurality of receiving holes; a plurality of electric lead-in electrodes, and the mantle is disposed on the flexible electric lead-in electrode The 'mountain mount' in the receiving hole of the array receiving seat is combined with the two sides of the flexible conductive human electrode array receiving seat for the user to wear on the selected part by the attached body, so that The embedded _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ And an insulating isolation region, and a conductive human electrode to be placed at a predetermined interval position of the flexible bottom layer, each of the electrical lead-in electrodes is separated by an insulating isolation region to isolate the edge. M328881 The effect of the prior art is compared with the prior art.纟li for changing & electrode junction The structure, the connection between the electrodes and the wires, and the creation of a flexible array of conductivity-type human electrodes, only the group of power lines are introduced into the power input & 'using the wafer or micro-chip channel switching circuit and the switching control unit' will be The lines between the electrodes are directly routed to the bottom of the flexible conductance to solve the problem of the complex array of electrodes, which are independent, and the line (4) is complicated; and the array-type electric lead-in electrode of the ship can be created, using a soft or _electrode m ❿ Array-type conductivity of human electrodes, and easy attachment of 2 body (four) and what parts; array electrodes can be integrated circuit wiring technology: Τ / Γ谷易 simultaneously on a single electrode surface with a plurality of electrodes The group and the singularity are connected to the electric lead-in electrode by the channel switching circuit to generate electrical connection between st and each of the conducting human electrodes' and the switching control unit is connected; the circuit 'is used to control the channel cutting
2:極信號產生電路之輸出端與至少-個電導入電極S =’:由該電導入電極受到驅動而產生電導入或電促滲之 入‘入的時間、增加電導入的效率。整個陣列式電導 入電極可—體成形,製程容易。 ㈣式電¥ 使用:舒可:二『車:1:電導入電極’無金屬電極凸^ 甚至在走動、戈^ 、不易脫落’尤其可重複使用, 入雷搞^ 守候也可使用。此可撓性之陣列式電導 -種方可作為電導人電極外’亦可作為電刺激電極,為 或電導入的用且具可挽性之平面電極’電極的刺激作用面積 、面積大,因本創作為可撓性平面電極,可以做成 9 .M328881 端帶方式,方便使用且固定牢 激Η车,抑丁 &丄 丄從用電導入或電刺 平而φ 走動或行走,本創作利㈣帶式固定之可於性 •千面陣列電極,則不受易脫落: 刺激時時亦可走動、看電視或 ^^了^入或電 .避免:=Γ 行電刺激及物理治療,且完全 步^式電極片所帶來的不方便,故本創作具有新賴性與進 •附呈3本^7採料具體實施例,將藉由以下之實施例及 附王圖式作進一步之說明。 【實施方式】 >閱第1圖所示’其係顯示本創作之立體圖。直中本 _戴附式可撓性電導人電極陣列結構⑽係包括;;電極 陣列承置座1和-可撓性電導入電極陣列2,該複數個電導 人電極2係嵌置在該電極陣列承置座1所開設之承置孔中。 _ 山—戴附帶體3係結合在該電極陣列承置座!之兩側 該戴附帶體3係可佩戴於使用者之患部,以使嵌置在該 電極陣列承置座1之可撓性電導入電極陣列2對使用者之患 R送電V人。較佳地’該電極陣列承置座i係可由硬式塑 膠、軟式塑膠或布所製成,而該戴附帶體3係可伸縮、或係 可調整其大小或可用拆離式,即陣列式可撓性電極置於使用 者口定αΗ立後’可撓性電導入電極陣列再以網狀黏貼膠帶從 後往前將陣列式電極黏附於使用者身上。 第2圖係顯不本創作可撓性電導入電極陣列嵌置於電 ,M328881 極陣列承置座之立體圖,帛3.圖係顯示可挽性電導入電極陣 列嵌置於電極陣列承置座之平面圖。如圖所示,嵌置於該電 極陣列承置座1之可撓性電導人電極陣列2係包含電導入電 極 2a、2b、2c、2d、2e、2f、2g、2h、2i、2j、2k21、2m、 P 2q 2r、2s、2t,其係嵌置於該電極陣列承置 座卜以直接接觸於使用者之皮膚表面並對其 入的功效。 本創料-種方便制且具可撓性平㈣極之端帶型 ^改良W電極與電線的連接方式,以金屬線插入式接觸 ==榫固定,同時改為大面積之可撓性平面電 =時參:第4圖所示’本創作之可撓性電導入電極陣列 以及肷置在柯撓性底層u之預定間隔 2a〜2t,每一個電導入電極2a〜 之玉V入電極 以區隔絶緣。可撓性底層! 1是由可^由7隔絕區13予 物質包括聚胺基甲酸酯類(pu ’ ’物貝組成’可撓性 Kk (扣類)、石夕燒類(silicone類)、梭 輯ubbe,、不織布類 質 士、)橡 電物質可由碳、金屬粉末或微粒包括全氏而電極的導 2 所成可撓性電極可用導電布或導電纖維製 本創作可以固定震置予以定位在使〜 例如使用戴附帶體3作為固定奘 之k疋邛位, 固定裳置,此端帶上電極之間可^ ’亦^以為繃帶形式作為 域,使穿戴者更為舒適。有一段具有鬆緊功能之區 4 了㈣戴者麵行電導人或電刺 M328881 =更舒適,編帶及(或)電極上可作為筛網狀,樹^ 减’广達到軌舒適的目的與效果。可撓性電極之固 可知用$扣式、或魔術沾式、或使用黏著劑、或使用 膠”、或使用安全別針、或打平結等方式加以固定。 一斤®係,4示本創作之第—實施例控制電路圖。如圖 所示,該控制電路係包括有—電源供應電路4、—電導入信 . :產生電路5、一通道切換電路6、一切換控制單元7、一 • 檢出電路8、和一遮斷電路9。該電源供應電路4係供岸工 )乍電壓予該電導人信號產生電路5;該電導人信號產生電路 5一係包括一共振驅動電路5卜一電力放大/衰減電路&和 I驅動電路53’料振_電路51係提供共振信號予該電 $放大/衰減電路52,該電力放大/衰減㈣52係可決定電 V入電力強度之放大或衰減,並將此放大或衰減之信號傳送 路::而該驅動電路53係用以送出-電導入輸 σ ^ 〜呈由5亥通道切換電路6以驅動該可撓性電導 藝 電極陣列2產生電導入能量。 -朗道⑽電路6係連接找,㈣電路53與該可 電導人電極陣列2之間,用以控制該各個電導人電極H 之作動順序,使4各電導入電極2a〜2t依照該切換控制單元 7所設定之時間、料和每次之作動純來作動。該切換押 制單元7係連接於該通道城電路6,其可設定各個電導二 電極2a〜2t之作動時間、順序和每次之作動個數, 一 切換控制信號S2予該通道切換電路6,以控制該通道切換 電路6而使各個電導人電極2心可依照所妓之時間和順 12 M328881 序及每次之作動個數而輪流產生電導入。 «亥檢出電路8係連接於該可撓性電導入電極陣列2和 該遮斷電路9’該遮斷電路9係連接於該電導人信號產生電 路5之電力放大/衰減電路52和該檢出電路8,自於該可挽 性電導入電極陣列2係貼附於其使用者之患部之皮膚表面 上,並對其患部發送電導人電流或電壓,因此當各個電導入 電極h〜2t中之-的電流過大或過熱時會發送—過熱信號 S3予該檢出電路8,並經由該遮斷電路9傳送一遮斷信號 以予該電力放大/衰減電路52,以遮斷該驅動電路53對該 可撓性電導入電極陣列2之驅動。 ,參閱第6 ®所示,其係顯示本創作第二實施例之控制 ,路圖。該控制電路係包括有—電源供應電路4、複數個電 u信號產生電路5a、5b...5j、—通道切換電路6、一切換2: an output terminal of the pole signal generating circuit and at least one of the electric lead-in electrodes S = ': the electric lead-in electrode is driven to generate an electric induction or an electro-osmotic incorporation time, and an efficiency of electric introduction is increased. The entire array of electrically conductive electrodes can be formed into a body and the process is easy. (4) Type of electricity ¥ Use: Shuke: 2 "Car: 1: Electric lead-in electrode" No metal electrode convex ^ Even moving, Ge ^, not easy to fall off ' Especially reusable, can also be used when entering the mine. The flexible array type conductance-species can be used as a conductive human electrode, and can also be used as an electrical stimulation electrode, and the surface area and area of the electrode for the electrically conductive and electrically conductive planar electrode can be large. This creation is a flexible planar electrode, which can be made into a 9. M328881 end belt, which is convenient to use and fast to lock the brakes, and to prevent or move from electricity or electric thorns while walking or walking. Lee (4) belt-type fixed can be used in the nature of the thousands of array electrodes, it is not easy to fall off: stimulate the time can also walk, watch TV or ^ ^ ^ ^ or electricity. Avoid: = Γ electric stimulation and physical therapy, And the complete step-by-step electrode sheet brings inconvenience, so this creation has a new reliance and the introduction of 3 sets of specific materials, which will be further developed by the following examples and the attached pattern. Description. [Embodiment] > Referring to Fig. 1, a perspective view showing the creation is shown. The straight-through flexible conductive human electrode array structure (10) includes: an electrode array receiving base 1 and a flexible electric lead-in electrode array 2, and the plurality of conducting human electrodes 2 are embedded in the electrode The socket is installed in the socket of the array. _ Mountain-wearing body 3 series is combined in the electrode array holder! Both sides of the wearing body 3 can be worn on the affected part of the user so that the flexible electrical lead-in electrode array 2 embedded in the electrode array receiving base 1 can transmit power to the user. Preferably, the electrode array socket i can be made of hard plastic, soft plastic or cloth, and the wearable body 3 can be telescopic, or can be adjusted in size or can be detached, that is, the array can be After the flexible electrode is placed on the user's mouth, the flexible electrode is placed on the electrode array, and then the array electrode is adhered to the user from the back through the mesh adhesive tape. Figure 2 shows the stereoscopic diagram of the M328881 pole array socket, which is shown in the figure. The figure shows that the pullable electrodeposited electrode array is embedded in the electrode array socket. Floor plan. As shown in the figure, the flexible conducting human electrode array 2 embedded in the electrode array receiving base 1 includes electric lead-in electrodes 2a, 2b, 2c, 2d, 2e, 2f, 2g, 2h, 2i, 2j, 2k21 2m, P 2q 2r, 2s, 2t, which is embedded in the electrode array to support the surface of the user's skin and to enter it. The invention is a convenient type and flexible flat (four) pole end belt type ^ improved W electrode and wire connection, with metal wire plug-in contact == 榫 fixed, and changed to a large area of flexible plane Electric = time reference: Figure 4 shows the flexible electrode-introducing electrode array of the present invention and the predetermined interval 2a to 2t disposed on the flexible underlayer u of each of the electro-introducing electrodes 2a to The area is isolated. Flexible bottom layer! 1 is composed of 7 isolation zone 13 substances including polyurethanes (pu ' 'objects' flexible Kk (deduction), Shi Xi Shao (silicone), shuttle ubbe, Non-woven fabrics, rubbery materials can be made of carbon, metal powder or particles including the whole of the electrode and the electrode of the electrode 2 can be made of conductive cloth or conductive fiber. This creation can be fixed and placed to make ~ for example use The attachment body 3 is used as the k-position of the fixed jaw, and the fixed skirt is placed. The end of the belt can be used as a bandage in the form of a bandage to make the wearer more comfortable. There is a section with elastic function 4 (4) wearer's face guide or electric spur M328881 = more comfortable, braided and / or electrode can be used as a mesh, tree ^ reduce 'wide to achieve the purpose and effect of the rail comfort . The solid state of the flexible electrode can be fixed by using a $ button type, or a magic dipping type, or using an adhesive, or using a glue, or using a safety pin or a flat knot. The control circuit diagram of the first embodiment. As shown, the control circuit includes a power supply circuit 4, an electric induction signal, a generating circuit 5, a channel switching circuit 6, a switching control unit 7, and a check. An output circuit 8 and a blocking circuit 9. The power supply circuit 4 is supplied with a voltage to the conducter signal generating circuit 5; the electric signal generating circuit 5 includes a resonant driving circuit 5 The power amplifying/attenuating circuit & and the I driving circuit 53' material vibration_circuit 51 provides a resonance signal to the electric power amplifying/attenuating circuit 52, and the power amplifying/attenuating (four) 52 system can determine the amplification or attenuation of the electric power intensive power intensity. And amplifying or attenuating the signal transmission path: and the driving circuit 53 is configured to send-electrically-input σ^~ by the 5 hai channel switching circuit 6 to drive the flexible conductive electrode array 2 to generate electricity Import energy. - Landau (10) circuit 6 series And (4) between the circuit 53 and the conductive human electrode array 2, for controlling the operation sequence of the respective conductive human electrodes H, so that the four electrical lead-in electrodes 2a to 2t are set according to the time set by the switching control unit 7, The switching unit 7 is connected to the channel city circuit 6, which can set the operation time, the sequence and the number of actuations of each of the two conducting electrodes 2a to 2t, one switching The control signal S2 is supplied to the channel switching circuit 6 to control the channel switching circuit 6 so that the respective conductor electrodes 2 can alternately generate electrical inputs according to the time and the number of operations and the number of actuations. The detection circuit 8 is connected to the flexible electric lead-in electrode array 2 and the blocking circuit 9'. The blocking circuit 9 is connected to the power amplifying/attenuating circuit 52 of the conductance signal generating circuit 5 and the The detecting circuit 8 is attached to the skin surface of the affected part of the user from the pullable electrical lead-in electrode array 2, and sends a conducting current or voltage to the affected part, so when each electrical lead-in electrode h~2t Medium - the current is too large or When hot, a superheat signal S3 is sent to the detecting circuit 8, and an interrupting signal is transmitted via the blocking circuit 9 to the power amplifying/attenuating circuit 52 to block the driving circuit 53 from being flexible. The driving of the electrode array 2 is shown in Fig. 6®, which shows the control of the second embodiment of the present invention. The control circuit includes a power supply circuit 4 and a plurality of electrical u signal generating circuits. 5a, 5b...5j, channel switching circuit 6, one switching
J 9其中該電導入信號產生電路53係連接於該電導入電極 a、仏,該電導人信號產生電路%係連接於該電導入電極 = 刪隹’該電導入信號產生電路讀 忒電導入電極2S、2t 〇 曾朗道切換電路6係連接在該電源供應電路4和 旎產生電路心5b...5j之間’該切換控制單元7係 2於該通道切換電路6,_換控制單U係用以設” 通道切換電路6於各個電導人信號產生電路心% 5. ^ 間的切換時間和切換順序,並傳送—切換控制信號s2·^ 13 M328881 C刀換電路6,以控制該通道切換電料而使該電源 電路4可依照所設定之切換時間和切換順序輪流供庫= 作電壓予各電導人信號產生電路5a、5b...5j中之一。 =導:信號產生電路53係用以產生電導人信號,其 ” j—貫施例中之該電導人信號產生電路5同,亦包含 ^振驅動電路、—電力放A/衰減電路、和—驅動電路, 2由該驅動電路送出一電導入輸出信號化以使該電導入 :2a二2b受到驅動而產生電導入能量。依此類推,各個 ^入h戒產生電路5b...5j係分別經由其驅動電路送出一 =广:出信號Slb..,Slj以使連接於各電導入信號產生電 ...J之電導入電極受到驅動而產生電導入能量。 該檢出電路8a係、連接於該電導人電極2^和 斷電路%,該遮斷電路9a係連接於該電導人信號產生電政 =、和該齡電路8a,當該電導人電極Μ%之電流過大 或過熱時會發送-過熱信號❿予該檢出電路^,並經由 :遮斷電路9&傳送—遮斷信號%予該電導人信號產生電 5a之電力放大/衰減電路’以遮斷該電導人信號產生電路 ^之㈣電路對該電導人電極23^之驅動。依此類推可 H于头D亥;^出電路8b .8j和該遮斷電路外...9j與該電導 入信號產生電路5 h S ί 4 4 ···」電V入電極2c〜2t之間的連接關 係和運作方式。 此-實施例係將各個電導入電極2c,兩個兩個分為 使此多組之電導入電極分別連接於該多個電導入信 〜生電路5a、5b...5j,亦即每—電導入信號產生電路係驅 ,M328881 動兩個電導入電極。當然,每一電導入信號產生電路亦可僅 連接一個電導入電極。或是當該電極陣列承置座1所嵌置之 電導入電極數目更多時,亦可將該複數個電導入電極每三個 分為一組、每四個分為一組、每五個分為一組等等,並使每 組之電導入電極分別連接於一電導入信號產生電路以受其 驅動。 以上為本創作之邏輯線路控制實施方法實例,舉凡熟 悉此技藝者皆能輕易得知,本創作所提供之戴附式可撓性電 導入電極陣列結構亦能輔助塗抹於皮膚表面之藥劑(例如抗 發炎藥、瘦身或燃燒脂肪之化學活性物質或製品)滲透進入 體内,而達到治療的功效以及燃燒脂肪和痩身效果。 由以上之實施例可知,本創作所提供之具可撓性電導 入電極陣列結構確具產業上之利用價值,故本創作業已符合 於專利之要件。惟以上之敘述僅為本創作之較佳實施例說 明,凡精於此項技藝者當可依據上述之說明而作其它種種之 改良,惟這些改變仍屬於本創作之新型精神及以下所界定之 專利範圍中。 【圖式簡單說明】 第1圖係顯示本創作戴附式可撓性電導入電極陣列結構之 立體圖; 第2圖係顯示本創作可撓性電導入電極陣列嵌置於電極陣 列承置座之立體圖; 第3圖係顯示本創作可撓性電導入電極陣列嵌置於該電極 15 M328881 陣列承置座之平面圖; 第4圖係顯示第2圖中4-4斷面之剖視圖; 第5圖係顯示本創作第一實施例控制電路圖; 第6圖係顯示本創作第二實施例之控制電路圖。 圖式各元件符號之說明: 100 戴附式可撓性電導入電極陣列結 構J 9 wherein the electric lead-in signal generating circuit 53 is connected to the electric lead-in electrodes a and 仏, and the conductance signal generating circuit is connected to the electric lead-in electrode. 2S, 2t 〇 Zenglangdao switching circuit 6 is connected between the power supply circuit 4 and the 旎 generating circuit core 5b...5j 'The switching control unit 7 is 2 in the channel switching circuit 6, _ change control unit U It is used to set the switching time and switching sequence of the channel switching circuit 6 between the respective conductor signal generating circuit cores 5. ^, and transmit-switch the control signal s2·^ 13 M328881 C-cutting circuit 6 to control the channel Switching the electric material so that the power supply circuit 4 can alternately supply one of the electric conductor signal generating circuits 5a, 5b, ... 5j according to the set switching time and the switching sequence. = Conduction: Signal generating circuit 53 It is used to generate a conductance signal, which is the same as the conductance signal generating circuit 5 in the embodiment, and also includes a vibration drive circuit, a power amplifier A/attenuation circuit, and a drive circuit, 2 The circuit sends an electrical lead-in output signal The electric introduction is performed: 2a and 2b are driven to generate electric energy. And so on, each of the h-ring generating circuits 5b...5j respectively sends a = wide: outgoing signal Slb.., Slj through the driving circuit to cause the electric power to be connected to each electric lead-in signal to generate electricity... The lead-in electrode is driven to generate electrical lead-in energy. The detecting circuit 8a is connected to the conducting electrode 2 and the breaking circuit %, and the blocking circuit 9a is connected to the conductor signal generating electricity=, and the age circuit 8a, when the conducting electrode When the current of Μ% is too large or overheated, a superheat signal is sent to the detection circuit ^, and the power amplification/attenuation circuit for generating the electricity 5a is transmitted via the interrupting circuit 9& 'The motor of the conductance electrode 23 is blocked by the circuit of the (4) circuit that interrupts the conductance signal generating circuit. And so on can be H in the head D; ^ out circuit 8b. 8j and the interrupt circuit outside ... 9j and the electric lead-in signal generating circuit 5 h S ί 4 4 · · · "electric V into the electrode 2c ~ 2t connection relationship and operation mode. In this embodiment, each of the electric lead-in electrodes 2c is divided into two groups, and the plurality of sets of electric lead-in electrodes are respectively connected to the plurality of electric lead-in signals 5a, 5b, ..., 5j, that is, each- The electric lead-in signal generation circuit is driven, and the M328881 moves two electric lead-in electrodes. Of course, each of the electrical lead-in signal generating circuits may be connected to only one of the electrical lead-in electrodes. Or when the number of the electric lead-in electrodes embedded in the electrode array socket 1 is larger, the plurality of electric lead-in electrodes may be divided into three groups, four groups, and five groups. They are divided into a group or the like, and each group of electric lead-in electrodes are respectively connected to an electric lead-in signal generating circuit to be driven by them. The above is an example of the implementation method of the logic circuit control of the creation, and those skilled in the art can easily know that the wearable flexible electric lead-in electrode array structure provided by the present invention can also assist the medicine applied on the skin surface (for example, Anti-inflammatory drugs, slimming or chemical substances or products that burn fat) penetrate into the body to achieve therapeutic effects and burn fat and body. It can be seen from the above embodiments that the flexible conductive electrode array structure provided by the present invention has industrial utilization value, so the original operation has been in conformity with the requirements of the patent. However, the above description is only for the preferred embodiment of the present invention, and those skilled in the art can make other improvements according to the above description, but these changes still belong to the novel spirit of the creation and the following definitions. In the scope of patents. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing the structure of the flexible electric lead-in electrode array of the present invention; Fig. 2 is a view showing that the flexible electrode-introducing electrode array of the present invention is embedded in the electrode array holder Fig. 3 is a plan view showing the flexible electric lead-in electrode array of the present invention embedded in the electrode holder of the M15881 array; Fig. 4 is a cross-sectional view showing the section 4-4 in Fig. 2; The control circuit diagram of the first embodiment of the present invention is shown; FIG. 6 is a control circuit diagram showing the second embodiment of the present creation. Description of each symbol of the drawing: 100 wearing flexible electrical lead-in electrode array structure
1 電極陣列承置座 11 可撓性底層 12 導電電極面 13 絕緣隔絕區 2 可撓性電導入電極陣列 2a、2b、2c...2t 電導入電極 3 戴附帶體 4 電源供應電路 5、5a、5b、5c."5j 電導入信號產生電路 51 共振驅動電路 52 電力放大/衰減電路 53 驅動電路 6 通道切換電路 7 切換控制單元 8、8a、8b、8c".8j 檢出電路 9、9a、9b、9c."9j 遮斷電路 16 # >1328881 S卜Sla、Sib、Slc...Slj電導入輸出信號 S2 切換控制信號 S3、S3、S3b、S3c".S3j 過熱信號 ’ S4、S4a、S4b、S4c...S4j 遮斷信號1 Electrode array holder 11 Flexible underlayer 12 Conductive electrode surface 13 Insulation isolation region 2 Flexible electric lead-in electrode array 2a, 2b, 2c... 2t Electrical introduction electrode 3 Wearing accessory body 4 Power supply circuit 5, 5a 5b, 5c. " 5j electric lead-in signal generating circuit 51 resonant drive circuit 52 power amplifying/attenuating circuit 53 driving circuit 6 channel switching circuit 7 switching control unit 8, 8a, 8b, 8c ".8j detecting circuit 9, 9a , 9b, 9c. "9j interrupting circuit 16 # >1328881 S Bu Sla, Sib, Slc...Slj electric import output signal S2 switching control signal S3, S3, S3b, S3c".S3j overheating signal 'S4 , S4a, S4b, S4c...S4j interrupt signal
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