200841895 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種可撓性之電導入電極,特別是關於一種陣列式電、首 入電極結構,此陣列式電導入電極可降低皮膚極化的機率、並可縮短電$ 入的時間、增加電導入的效率’同時此陣列式電導入電極有可密合的二¥ 谷易的貼附在身體的任何部位之設計。 【技術背景】 _電導人法-般也可稱作離子電滲法,電導人法是利㈣流讀進藥物 ,由,膚或黏膜制體内。電導人法使舰衝式電流或持射間斷電流將 藥物藉由離子促進滲透進人皮敍__給#技術,包括制小量^ =以維持持續不_電流。_電導人法時,生物活性物質經皮電渗二 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 、対間長fe、以及電導人作用電極分隔接觸的皮絲皮轉性質。電導入 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 =物進量及換句話說…旦電源切掉,傳輸立即停止。再 、幸跑的或跳動的給藥方式需要與否,姻特別製作的電流圖表可 物ΓτνπΓ /人動力。文獻上關於電導人法方面,已有人提出陰離子性藥 f S.d/ ^ ^ Smith G Α· ^ J Pharm,N〇·49, P15, 1989)、陽離子性藥物 1Q . q 〇5 Roberts M S, Pl〇ack? AE5 Pharm Pharmcol, No.37? P732? i 自衣稱之縫膚魏促級果。臨床上也有使關多卡因 等計^腺素、甲基潑尼松(methyl prcdQnisGl⑽e)及消炎止痛藥 , a^s«,^No3648?P2551994) 【先前技術】 我國專利第GG14G339(199G年)號揭露—種「經皮施藥器及其電極」,其特徵 5 200841895 在於至少二電極元件,形成該施藥器,經由 田、巴緣I置而彼此分隔;貯器裝 置,在該施藥器之至少一電極元件内,内含該舉 茨梁物,一回路,包括電力來 源。我國專利第睛卿"3年)號揭露一種「皮膚用電極結構和使用該 電極結構之穿錢物輸送裝置」,其特徵在於穿皮藥物輪送裝置包括一電 極,-多孔絕緣層位於電極-側並滲有所要輸送之藥液,—液體貯器位於 電極另一側,200841895 IX. INSTRUCTIONS: [Technical Field] The present invention relates to a flexible electric lead-in electrode, and more particularly to an array type electric and first-in electrode structure, which can reduce skin polarization The probability of shortening the time of electricity input and increasing the efficiency of electric introduction. At the same time, the array type electric lead-in electrode has a design that can be attached to any part of the body. [Technical Background] _ Conductor method can also be called iontophoresis, and the conductance method is to read the drug into the body, from the skin or mucous membrane to the body. The conductance method makes the ship-punching current or the sustaining current interrupted by the ions to promote the penetration of the drug into the human skin, including the small amount ^^ to maintain the continuous non-current. _In the conductance method, the charge of the bioactive substance transcutaneously electroosmotic is directly proportional, which is also based on the supplied current, the current provided by the current, the inter-turn length fe, and the conductive human-electrode separation electrode. Skin transfer properties. Electro-induction can promote the entry of drugs into the body, speed up the action of the drug, and is easy to control = the amount of matter and, in other words, the power is cut off and the transmission stops immediately. The need for or not, the rushing or beating mode of administration, or the special current chart can be ΓτνπΓ / human power. In the literature on the human conduct method, anionic drugs f Sd / ^ ^ Smith G Α · ^ J Pharm, N〇 · 49, P15, 1989), cationic drugs 1Q . q 〇 5 Roberts MS, Pl〇 have been proposed. Ack? AE5 Pharm Pharmcol, No.37? P732? i Self-clothing called the skin of Wei Wei. Clinically, there are also adenosine, methylprednisone (methyl prcdQnisGl(10)e) and anti-inflammatory analgesics, a^s«, ^No3648?P2551994) [Prior Art] Chinese Patent No. GG14G339 (199G) The invention discloses a "transdermal applicator and an electrode thereof", and the feature 5 200841895 is characterized in that at least two electrode elements are formed to form the applicator, which are separated from each other via the field and the rim I; and a reservoir device is used for the application. The at least one electrode element of the device contains the girders, a circuit, including a source of electric power. China Patent No. 3, No. 3 discloses a "skin electrode structure and a money-carrying device using the electrode structure", characterized in that the transdermal drug delivery device comprises an electrode, and the porous insulating layer is located at the electrode - the side is permeable to the liquid to be transported, the liquid reservoir is located on the other side of the electrode,
及-可位移則可控制液體自貯驗電極通道饋送至多孔絕 緣層。我國專利第麵745(膽年)號揭露一種「離子滲透法用電極裝 置」’係提供-種離子滲透法所用電極裝置,具有來自電極的金屬離子不會 ^體内’可再_,低廉而量紐優良,抑則起分極的氣體發生,顯曰 者改善透過電流,並防止長期使用時因ρΗ變化損傷皮膚等優良性能。我國 專利第0〇4〇〇24〇(2_年)號揭露一種「離子電渗療法用裝置」,係提供一種 將樂物作電氣式經皮膚投與之離子電滲療法置,其特徵在:支持體上And - displacement allows the liquid to be fed from the reservoir electrode channel to the porous insulating layer. The Chinese Patent No. 745 (Bile Year) discloses that an "electrode device for ion permeation method" provides an electrode device for ion permeation, and the metal ion from the electrode does not have a 'renewable' The amount of gold is excellent, and the gas which is divided into poles is generated, and the person who is exposed has improved the permeation current and prevents the skin from being damaged by the change of ρΗ in long-term use. Chinese Patent No. 0〇4〇〇24〇(2_年) discloses a device for iontophoresis, which provides an iontophoresis method for electrically administering a musical substance through the skin. : Support on the body
具備電源,同時在該支持體之同—單面上配置施體與受體,令兩者間介著 緣用空隙部,而形成_體構造,該離子電滲療法職置不必增加電流值 即可安全又有效地使藥物經皮膚吸收,且處理性甚優良。我國專利第 00401309(2000年)號揭露一種「電極及離子電渗設備及方法」,係揭露一種 電極及離子電滲設備及方法,其中,電極展現變化的電阻。 白知的技術中,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 複雜且都疋使用金屬電極,電極表面無法使用在關節或身軀崎喂的 雜。私的技術巾,亦有將複數個施體與受體配置朗心斷者(日本 6 200841895 知開平4-2〇8166號)’雖然在未有任何根據下即陳述同心圓狀電極裝置可以 將藥物釋峨電流抑制於最小限度,但事實上,縱使是同心圓狀電極’ 其吸收性亦會_緣部之_及賴射體之面觀料麵改變。又, 域平8 1讀6射,絕緣部係以具有舆皮膚接觸的部分為其必要條件,The power supply is provided, and the donor body and the receptor are disposed on the same side of the support body, so that the gap portion is formed between the two, and the body structure is formed, and the iontophoresis position does not need to increase the current value. The drug can be absorbed through the skin safely and effectively, and the handling property is excellent. Japanese Patent No. 00401309 (2000) discloses an "electrode and iontophoresis apparatus and method" which discloses an electrode and iontophoresis apparatus and method in which an electrode exhibits a varying electrical resistance. In Baizhi's technology, there are also multiple electrodes or a plurality of electrodes, or two groups or complex array electrodes, to control the release of most active components, but these complex array electrodes are independent, the lines are complicated and both are With a metal electrode, the surface of the electrode cannot be used in the joint or the body. Private technical towel, there are also a number of donor and receptor configurations (Japan 6 200841895 Zhikaiping 4-2〇8166) 'Although the concentric circular electrode device can be stated without any basis The drug release current is suppressed to a minimum, but in fact, even if it is a concentric circular electrode, its absorbency will change from the edge of the rim and the surface of the lasing body. In addition, the area is 8 1 and 6 shots, and the insulating part is required to have a skin contact.
但此種構造與其說是用來抑繼通於繩與受體間之電驗由皮膚面浅漏 ^致之吸收1±贿’不如說是gj為底部所含之伽凝料藥物對皮膚沒 ;’著I·故以此為辅助枯著方法。以電極塾而言,日本特開平8_奶⑷ 號揭示—種即使含有水分,對皮膚'«良好_著力,而且其本身通電時 不會產生形Μ之變化者。獨,即使有鱗改良,實際上仍未能提供令 人滿意之離子電參療法用之裝置。 縱觀以上資料顯示,傳統上的電導入電極,都有類似電刺激電極的金屬凸 出’’ 以連接電源,且電極下端_般都有―讎物齡槽的突起穿置, 因此使用上更不枝。電極絲或底崎有—輕簡,其缺點也盘 一般電刺激電極雷同,不易㈣、易,尤其是重複使用後。且一· 法使用在關節或身軀顿的部位,也無法在走動、_動時候使用。又’、’、 【發明内容】 本發明所欲解決之技術問題 本發明所欲解決之技術問題包括:傳統上的電導入電極,都有類似電 刺激電極的金屬凸出知或藥_存槽,電導人電極裝置不㈣定、易脫落 且一般電導人電極面積小、也無法使用在關節或肢體彎曲或不平的部位°, 也無法在走動、或運動時候使用。而_連續波型電導人時,皮膚容易產 7 200841895 - 生極化,降低電導入的效率。綜使使用多個電極或複數個電極,或兩組或 . 複數組電極,但這些複數組電極個個獨立,線路排列複雜等。而使用脈'皮 型電流形式時,因負載週期小於100〇/。㈣cycle <1},作用時間則必須増 長等等。 本發明解決問題之技術手段 為解決習知技術之問題所採用之技術手段係提供—種可撓性之陣列式 電導入電極,此可撓性之陣列式電導人電極為—平面式_電極,包括— 電導入電極陣列承置座、複數個電導入電極、一戴附帶體、和一控制電路。 該複數個電導人電樹綠置在铺導人承置座;該戴畴體係結 合在該電導人電極陣列承置座之兩侧端;該控制電路伽以控制該各個電 導入電極之動作’其包括-電導人信號產生電路、—通道切換電路和—切 換控制單元’該電導人信號產生電路制以產生電導人信號,並由一輪出 端送出-電導人輸出信號,該通道切換電路係連接在該電導人信號產生電 路之輪出端與各個電導人電極之間,而該切換控制單元係連接於該通道切 換電路,用以控制該通道切換電路,使該電導入信號產生電路之輸出端盘 至少—個電導人電極連接,以_電導人電極受到驅動而產生電導入能量。 本發明對照先前技術之功效 金本發良電極結構、電極與電麵連射式,·魏個可撓性之 p列式電導人雜,只有—組電源料人電源輸人端,利 之通道切換電路和切換控解元 Mb曰片 將極間之線路直接佈線於可撓性電 8 200841895 導的底部,以解決複數組電極間個個獨立,線路排列複雜之問題;並創作 ‘ 可撓性之陣列式電導入電極,使用軟式或塑膠電極,方便使用,此可撓性 之陣列式電導入電極可密合的、且容易的貼附在身體的任何部位;陣列式 電極可以用積體電路佈線的技術,可以容㈣同時在_個電極面上具有複 數個電極減絕緣區,並糊通勒換電料縣該電導人電極信號產生 電路之輸出端與各個電導人電極之間,而該切換控鮮元係連接於該通道 _切換電路,用以控制該通道切換電路,使該電導人電極信號產生電路之輸 出端與至少-個電導人電極單尤連接,以由該電導人電極受到驅動而產生 電導入或電促滲之效果。此陣列式電導入電極結構可降低皮膚極化的機 率亚可縮短私導入的日寸間、增加電導入的效率。整個陣列式電導入電極 可一體成形,製程容易。 無金屬電極凸出釦,使用上舒適方便 此可撓性之陣列式電導入電; ·,、,一^口j 二^々]文, 容易固定、不易脫落’尤其可重複使用,甚至在走動、或運動時候也可使 用。此可撓性之_式電導人電極,除可作為電導人電極外,亦可作為電 刺激電極,^财_且™㈣™,綱酬用面積 或電導入的面積大,因本創作為可雜平面電極,可以做成繃帶方式,方 便使用且固疋牛#。傳統上使用電導人或電刺激時,都不能走動或行走, 本發明利_帶朗定之可撓性平轉舰極,财受⑽落 使進行電導人或電刺激時時亦可走動、看電視或做其他 電極片所縣料转,故本翻具核雛無她。避免批 9 200841895 本發明所採用的具體實施例,將藉由以下之實施例及附呈圖式作進 步之說明。 、 【實施方式】 本發明是-财便使用且具可換性平面電極之端帶,改良電極與電線 的連接方式’以金屬_人式_電極並財榫蚊,同收為大面積之 可撓性平面__極。可紐_式電極包括底層佈線、及其上陣列式 可撓性電極、及絕緣隔。此電極結般由—可撓性底層、—導電電極 面、絕緣區、t極接端m微晶片之通道切換電路和切換控制單元、 控制器及固找置所組成。此電極之底層是由可撓性物質組成,可捷性物 f f S,SI,I(PU IM). ,^II(silic〇ne ^ ^iI(rubber } ^ ^ 織布類、織布類、紙質等。而電極的導電物f可由碳、金屬粉末或微粒包 括金'銀、銅、鐵或其他導電物質組合所組成。此可撓性電極可用導電布 «電纖維製成。固定裝置亦可利用端帶形式,此端帶上電極之間可以有 一段具有«舰域,《戴者更树適。為了使穿戴者在進行電導 入或電刺鱗糊,職(或)雜切物減,樹鳩通氣 孔:圖所示’以達到通氣舒適的目的與效果。可撓性電極之固定方式可採 用背扣式、或魔術沾式、或使_著劑、或使轉帶式、或仙安全 或打平結等方式加以固定。 參閱第-圖所示,其係顯示本發明戴附式可撓性電導人電極陣列結構 之立體圖。其中本發明戴附式電導入電極陣列結構觸係包括—電導入電 200841895 極陣列承置座1和—電導人電極_2,該複數個電導人電極2係喪置在該 私導入%極陣縣置座丨,而該戴崎體3係結合在該電導人電極陣列承置 座1之兩側端。該戴附帶體3係可佩戴於其使用者之患部,以絲置在該 電導入電辦縣置座丨之該電導人電極_ 2對其制者之患部發送電 導入。較紐,該電導人電極_承置座〗係可由硬式娜、軟式塑膠或 布所製成’而該戴附帶體3係可伸縮、或係可機其大小。或可_離式, 即陣列式可撓性電極置於使用翻定部位後,可撓性_式電極再以網狀 黏貼膠帶從後往前辦列式電極細於使用者身上。 弟二圖係顯示本發明戴附式電導入電極陣列結構之電導入電極陣列嵌 置於亥電導人4陣縣置座之立翻,第三圖係顯示本發贼附式電導 入電極陣顺構之電導人電轉顺置於該電導人雜_承置座之平面 圖,第四_齡本發明戴附式電導人電極_結構之電導人電極陣歹愤 ;Λ电&人$極陣列承置座之上視圖。如圖所示’ ♦置於該電導入電極 陣列承置座i之該電導人電極陣列2係包含—電導人電極%、—電導入電 極2b、-電導人電極2e 一電導人電極2d、—電導入電極仏、—電導入電 極2f、-電導入電極2g、一電導入電極处、—電導入電極μ和一電導入電 極2j,其絲置於該電導入電極陣列承置座】,以直接接觸於使用者之皮膚 表面並對其患部產生電導入的功效。 第五圖係顯示本發明戴附式電導入電極陣列結構之控制電路圖。如圖 所不’該控㈣路係包括有—電源供應電路4、—電導人信號產生電路5、 一通道切換電路6、—切換控制單元7、_檢出電路8、和—遮斷電路9。 200841895 該電源供應電路4係供應工作電壓予該電導入信號產生電路5 ;該電導入信 號產生電路5係包括一共振驅動電路51、一電力放大/衰減電路52、和一驅 動電路53 ’該共振驅動電路51係提供共振信號予該電力放大/衰減電路52, 邊電力放大/衰減電路52係可決定電導入電力強度之放大或衰減,並將此放 大或衰減之信號傳送至該驅動電路%,而該驅動電路53係用以送出一電導However, this kind of structure is not used to suppress the electrophoresis between the rope and the receptor. The absorption from the skin surface is shallow. The absorption is 1± bribe. It is better to say that gj is the condensate drug contained in the bottom. ; 'I. Therefore, this is a supplementary method. In the case of the electrode ,, the Japanese Patent Laid-Open No. 8_Milk (4) discloses that even if it contains moisture, it does not cause a change in the shape of the skin when it is energized. In addition, even with scale improvement, it has not actually provided a satisfactory device for iontophoresis. Throughout the above data, the conventional electric lead-in electrode has a metal protruding like the electric stimulating electrode to connect the power source, and the lower end of the electrode has a protrusion of the 雠-age groove, so the use is even more Not a branch. The electrode wire or the bottom is - light and simple, and its shortcomings are generally the same as the electrical stimulation electrode, not easy (four), easy, especially after repeated use. And the method is used in the joint or the body, and it cannot be used while walking or moving. Further, the technical problem to be solved by the present invention includes the conventional electric lead-in electrodes, which have metal protrusions or medicines similar to electrical stimulation electrodes. The conductance electrode device is not (4) fixed, easy to fall off, and the general conductance electrode has a small area, and cannot be used in a joint or a bent or uneven part of the limb, and cannot be used during walking or exercise. And _ continuous wave type conductance, the skin is easy to produce 7 200841895 - Polarization, reducing the efficiency of electrical introduction. The composite uses multiple electrodes or a plurality of electrodes, or two groups or a plurality of array electrodes, but these complex array electrodes are independent, and the lines are arranged in a complicated manner. When the pulse type current type is used, the duty cycle is less than 100 〇 /. (4) cycle <1}, the action time must be longer and so on. The technical means for solving the problem of the present invention is to provide a flexible array type electric lead-in electrode by using the technical means for solving the problems of the prior art, and the flexible array type conductivity electrode is a planar type electrode. The invention comprises an electric lead-in electrode array socket, a plurality of electric lead-in electrodes, a wearing body, and a control circuit. The plurality of electrically conductive human green trees are disposed on the guiding person socket; the wearing domain system is coupled to the two sides of the conductive human electrode array receiving seat; the control circuit is used to control the operation of the respective electrical introduction electrodes The utility model comprises a conductor signal generating circuit, a channel switching circuit and a switching control unit, wherein the conductor signal generating circuit is configured to generate a conductor signal, and the output terminal is sent by a round of output, and the channel switching circuit is connected. The switch control unit is connected to the channel switching circuit for controlling the channel switching circuit to make the output end of the electric lead signal generating circuit The disk is connected to at least one of the conductance electrodes, and the _ conductance electrode is driven to generate electrical introduction energy. The invention compares the effect of the prior art with the excellent electrode structure, the electrode and the electric surface radiation type, the Wei-flexible p-type conductivity, and only the power supply input terminal, the channel switching circuit and the switching The control element Mb is directly wired to the bottom of the flexible electric 8 200841895 to solve the problem of independent and complicated circuit arrangement between the complex array electrodes; The electrode is introduced, and the flexible or plastic electrode is used for convenient use. The flexible array type electric lead-in electrode can be closely attached to any part of the body, and the array electrode can be integrated with the circuit. It is possible to accommodate (4) a plurality of electrode minus insulation regions on the _ electrode faces at the same time, and to switch between the output end of the conductivity electrode signal generating circuit and each of the conductivity human electrodes, and the switching control element Connected to the channel_switching circuit for controlling the channel switching circuit, so that the output end of the conductance electrode signal generating circuit is connected to at least one of the conducting electrodes, The electric conductor is driven to generate an effect of electric introduction or electro-osmosis. The array type electric lead-in electrode structure can reduce the probability of skin polarization, shorten the time between private introductions, and increase the efficiency of electric introduction. The entire array type electric lead-in electrode can be integrally formed and the process is easy. Metal-free electrode protruding buckle, comfortable and convenient to use this flexible array type electric lead-in electricity; ·,,, ^^口j^^々], easy to fix, not easy to fall off' especially reusable, even walking around It can also be used during exercise or during exercise. The flexible _-type conductivity human electrode can be used as an electrical stimulation electrode as well as an electrical stimulation electrode, and can be used as an electrical stimulation electrode, and the area of the invention or the electrical introduction area is large. The miscellaneous plane electrode can be made into a bandage method, which is convenient to use and solid. Traditionally, when using electric conductor or electric stimulation, they can't walk or walk. The flexible slewing ship of the invention has the advantage of being able to move around and watch TV when conducting electric conduction or electric stimulation. Or do other electrode sheets, the county is expected to turn, so the present is not her. Avoiding Batches 9 200841895 The specific embodiments of the present invention will be further described by the following examples and accompanying drawings. [Embodiment] The present invention is an end belt of a planar electrode which is used for money and has a replaceability, and the connection mode of the electrode and the electric wire is improved by a metal _ human _ electrode and a mosquito, and the same as a large area. Flexible plane __ pole. The neon-type electrode includes an underlying wiring, an array of flexible electrodes thereon, and an insulating spacer. The electrode junction is composed of a flexible bottom layer, a conductive electrode surface, an insulating region, a channel switching circuit of the t-pole terminal m microchip, a switching control unit, a controller, and a solid-position device. The bottom layer of the electrode is composed of a flexible material, and the singularity is ff S, SI, I (PU IM). , ^II (silic〇ne ^ ^iI (rubber } ^ ^ weaving, weaving, Paper, etc. The conductive material f of the electrode may be composed of carbon, metal powder or particles including gold 'silver, copper, iron or other conductive material. The flexible electrode can be made of conductive cloth «electric fiber. Fixing device can also be used. In the form of end belts, there may be a section between the electrodes on the end belt that has a «ship, which is more suitable for the wearer. In order to make the wearer perform electric lead-in or electrospinning, the occupation (or) is reduced. Tree vents: As shown in the figure, 'to achieve the purpose and effect of ventilation comfort. The flexible electrode can be fixed by means of back button type, or magic dipping type, or making the tape, or making the belt type, or fairy. It is fixed by means of safety or flattening, etc. Referring to Fig. 1, it is a perspective view showing the structure of the wearable flexible conductive human electrode array of the present invention. -Electrical introduction of electricity 200841895 pole array socket 1 and - conductance electrode_2, the plurality of electricity The human electrode 2 is placed in the privately-introduced 极 县 县 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The patient's affected part is electrically connected to the affected part of the manufacturer by the wire placed in the electric lead-in county. The conductive electrode _ bearing seat can be Hard-type, soft plastic or cloth made 'and the attached body 3 series can be stretched, or can be sized. Or can be separated, that is, the array type flexible electrode can be placed after using the turning part, The flexible _ type electrode is further thinner than the user with the mesh adhesive tape from the back to the front. The second drawing shows that the electric lead-in electrode array of the attached electric lead-in electrode array structure of the present invention is embedded in the guide. The person in the 4th district of the county is turned upside down. The third picture shows the electric conductor of the thief-attached electric lead-in electrode array. The electrician is placed on the plane of the electric conductor. The fourth aging invention. Wear-attached conductivity electrode _ structure of the conductor electrode array anger; Λ 电 & person $ pole array socket top view Figure ♦ The conductive human electrode array 2 disposed in the electrical lead-in electrode array holder i includes a conductive human electrode %, an electrical lead-in electrode 2b, a conductive human electrode 2e, and a conductive human electrode 2d. , an electric lead-in electrode, an electric lead-in electrode 2f, an electric lead-in electrode 2g, an electric lead-in electrode, an electric lead-in electrode μ, and an electric lead-in electrode 2j, and the wire is placed on the electrode of the electric lead-in electrode array. In order to directly contact the surface of the user's skin and to produce electrical introduction into the affected part. The fifth figure shows the control circuit diagram of the structure of the attached electro-introduction electrode array of the present invention. The control (four) path includes There are a power supply circuit 4, a conductance signal generating circuit 5, a channel switching circuit 6, a switching control unit 7, a detection circuit 8, and a blocking circuit 9. 200841895 The power supply circuit 4 supplies a working voltage to the electric lead-in signal generating circuit 5; the electric lead-in signal generating circuit 5 includes a resonant driving circuit 51, an electric power amplifying/attenuating circuit 52, and a driving circuit 53' The driving circuit 51 provides a resonance signal to the power amplifying/attenuating circuit 52, and the side power amplifying/attenuating circuit 52 determines the amplification or attenuation of the electric power intensity, and transmits the amplified or attenuated signal to the driving circuit %, The driving circuit 53 is used to send a conductance
入輸出信號si並經由該通道切換電路6以驅動該電導入電極陣列2產生電 導入能量。 该通道切換電路6係連接在該驅動電路53與該電導入電極陣列2之 間’用以控制該各個電導入電極2&、21)、2〇一习之作動順序,使該各電導 入電極2a、沘、2c…2j依照該切換控制單元7所設定之時間、順序和每次 之作動個數來作動。該切換控解元7係連接於_道切換電路6,其可吸 疋各個電導人電極2a、2b、2e."2j之作動_、順序和每次之作動個數, 並傳送-切換控輸號S2找通道切換· 6,以控繼通道切換電路$ 而使各個電導入電極2a、2b、2e〜2j可依照所設定之時間和順序及每次之 作動個數而輪流產生電導入。 該檢出電路8係連接於該電導人電轉列2和該遮斷電路9,該遮斷電 路9係連接於該電導入信號產生電路5之電力放大/衰減電路幻和外出電 路8,由於該電導入電極陣列2係貼附於其使用者之患 " 4H ^ ^ 7胃表面上,並 對其患部發送電導人糕或轉,@歸各個電導 、2b、2c〜2i 中之-的電顏大或過鱗會發送-補錄S3找 叫乾路δ,並經由 以遮斷該驅 _斷電路9傳送-遮斷信號S4予該電力放大/衰減電路52, ' 12 200841895 動電路53對該電導入電極陣列2之驅動。 參閱第六圖所示’其係顯示本發賴赋電導人電極陣列結構另一實 施例之控路圖。該㈣電路係包括有—電祕應電路4、複數個電導入 信號產生電路5a、5b、5e、5d、5e、-通道切換電路6、_切換控制單元7、 複數個檢出電路8a、8b、8e、8d、8e和複數個遮斷電路%、%、%、9d、 9e 其中該電導入信號產生電路5a係連接於該電導入電極么和該電導入電 極2b錢導人^⑨產生電路%係連接於該電導人電極〜和該電導入電 極如’該轉人信髓生電路5。麵接_電導人電極26和該電導入電 極义...依此類推,該電導入信號產生電路5e係連接於該電導入電㈣ 和該電導入電極。 該通道切換電路6係連接在該電源供 夂 .ς 包格4和各電導入信號產生電 a、5b、5C、5d、5e之間,該切換控制單元 ,,“ 早70 7係連接於該通道切換電路 Ψ "刀、:制單元7翻以設定該通道切換 ♦敗h、认 於各個電導入信號產生 包 、5<:、5(1、^之間的切換時間和切_序,、,盾, 俨铗ς9 、序亚傳送一切換控制 虎予麵道切換電路6,以控制該通道切換泰攸 玖4可佑昭妬μ 士 、包路6而使該電源供應電 ^……〜斤攻疋之切換牯間和切換順序輪流供靡一 ^ A ^ 、…工作電壓予各電導入 仏唬產生電路5a、5b、5c、5d、5e中之一。 該電$入信號產生電路Sa係用以產生電 例中之該電導人付n * w ’其與上述前-實施 ㈣^ 。 亦包含—共振驅動電路、1力放大/ ^迅、和-驅動電路,並由鼠驅動電路送出 電V入輸出信號Sla以 13 200841895 使該電導人電極2a、2b受到驅動而產生電導人能量。依此類推,各個電導 入信號產生電路5b、5e、5d、5e係分別經由其驅動電路送出—電導入輪出 信號Sib、Sic、Sid、Sle以使連接於各電導入信號產生電路%、&、^、 5e之電導入電極受到驅動而產生電導入能量。The output signal si is input and the electric switching energy is generated by driving the electric lead-in electrode array 2 via the channel switching circuit 6. The channel switching circuit 6 is connected between the driving circuit 53 and the electrical lead-in electrode array 2 to control the respective electrical lead-in electrodes 2 & 21, and the sequence of actuation of the electrodes. 2a, 沘, 2c...2j are actuated in accordance with the time, sequence, and number of actuations set by the switching control unit 7. The switching control element 7 is connected to the channel switching circuit 6, which can suck the actuation _, the sequence and the number of actuations of each of the conductance electrodes 2a, 2b, 2e. " 2j, and transmit-switch control The input signal S2 finds the channel switching 6. In order to control the channel switching circuit $, the respective electric lead-in electrodes 2a, 2b, 2e to 2j can alternately generate electrical introduction according to the set time and order and the number of actuations. The detecting circuit 8 is connected to the conductance human power converter 2 and the blocking circuit 9, and the blocking circuit 9 is connected to the power amplification/attenuation circuit of the electric lead-in signal generating circuit 5, and the illusion and the outgoing circuit 8, Since the electric lead-in electrode array 2 is attached to the stomach surface of the user' 4H ^ ^ 7 and sends a conductive cake or a turn to the affected part, @归 Each conductivity, 2b, 2c~2i - The electric large or excessive scale will be sent - the supplementary S3 finds the trunk δ, and the transmission amplification/attenuation circuit 52 is transmitted to the power amplification/attenuation circuit 52 by intercepting the drive-break circuit 9, ' 12 200841895 The circuit 53 drives the electric lead-in electrode array 2. Referring to the sixth figure, it is a control circuit diagram showing another embodiment of the present invention. The (four) circuit includes an electric secret circuit 4, a plurality of electric lead-in signal generating circuits 5a, 5b, 5e, 5d, 5e, a channel switching circuit 6, a switching control unit 7, and a plurality of detecting circuits 8a, 8b. , 8e, 8d, 8e and a plurality of interrupting circuits %, %, %, 9d, 9e, wherein the electrical lead-in signal generating circuit 5a is connected to the electrical lead-in electrode and the electrical lead-in electrode 2b is generated by the consumer The circuit % is connected to the conductance human electrode ~ and the electric lead-in electrode such as 'the transfer transistor'. The face-in-conductor electrode 26 and the electric lead-in electrode are connected to each other, and the electric lead-in signal generating circuit 5e is connected to the electric lead-in electric (4) and the electric lead-in electrode. The channel switching circuit 6 is connected between the power supply port ς ς 4 4 and each of the electric lead-in signal generating circuits a, 5b, 5C, 5d, 5e, and the switching control unit, "the early 70 7 system is connected to the The channel switching circuit Ψ "knife,: unit 7 is turned over to set the channel to switch ♦ defeat h, recognize each electrical import signal generation packet, 5 <:, 5 (1, ^ switching time and cut_order, ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, The switching power supply and the switching sequence alternately supply one of the operating voltages to one of the electric power generating circuits 5a, 5b, 5c, 5d, and 5e. The electric energy input signal generating circuit The Sa system is used to generate the electric conductor in the electric circuit to pay n * w 'and the above-mentioned pre-implementation (four) ^. Also includes - resonance drive circuit, 1 force amplification / fast, and - drive circuit, and the mouse drive circuit The electric power V input/output signal Sla is sent to drive the electric conductors 2a, 2b to generate electric conductivity energy by 13 200841895 And so on, each of the electric lead-in signal generating circuits 5b, 5e, 5d, and 5e is respectively sent via the driving circuit - the electric lead-in signal Sib, Sic, Sid, Sle to be connected to each of the electric lead-in signal generating circuits %, & The electric lead-in electrodes of ;, ^, 5e are driven to generate electric lead-in energy.
Ψ 該檢出電路8a係連接於該電導入電極%、%和該鑛電路%,該遮 斷電路9a係連接於該電導入信號產生電路%和該檢出電路如,當該電導 入電極2a或2b之電流過大或過鱗會發送一過熱信號孤予該檢出電路 8a ’並經由該遮斷電路9a傳送—遮斷信號地予該電導入信號產生電路^ 之電力放大/衰減電路,以遮斷該電導人錢產生電路&之驅動電路對該電 導入電極2a、2b之驅動。依此類推可分別得知該檢出電路%& n 和該賴電路%、9e、9d、9e與導人信號產生電路%、&、^、乂 和該電導入電極2c、2d, 作方式。 2e、2f,2g、2h,2i、2j之間的連接關係和運 此一實施例係將各個電導入電極H 1.¾兩個兩個分為—組, 並使此五組之料人電極分職接㈣五個電導人錄產生電路 5c、5d、5e ’亦即每-電導人信號產生電路係驅動兩個電導人電極。當然 每-電導人信號產生電路亦可僅連接—個電導人。或是當該電導入電 極陣列承置座_置之電導人電滅目更多時,亦可將該複數個電導入 電極每三個分為-組、每四個分為一組、每五個分為—組等等,並使每組 之電導入電極分別連接於—電導人信號產生電路以受其驅動。 舉凡熟悉此技藝者皆能 以上為本創作之邏輯線路控制實施方法實例 14 200841895 輕易得知’本發明所提供之釘付式電導入電極陣列結構ι〇〇亦能辅助塗抹 於皮膚表面之藥劑(例如抗發炎藥、痩身或燃燒脂肪之化學活性物質或製 品)渗透進人體内,而達到治療的功效以及燃燒猶和瘦身效果,町舉 一些實施例,說明本創作之應用。 【貫施例一】 根據本發明,具可撓性陣列式電極結構進行電導入時,藥物槽可在正 電極或負電極上,端視藥物性質而定。若藥物帶正電荷,則藥物槽在正電 極上。若藥物帶負電荷,則藥物槽在娜上,極間有絕緣區隔開, 須有—定的寬度,以避免短路。為增加電導入之面積,陣列式電極 “中,讀峨撕,㈣侧極其餘之 陣列式電極可都設定為正極,並將藥物或藥物槽置於正電極上。反之亦然 [實施例二] 根據本發明,利用具可撓性陣列式 做°構私^卡_物透過皮 %,利夕卡_電導入之效果如圖七所示。電流愈大、電導 入之樂物量愈多。 根據本《,亦可此具可撓___,在面膜上、 合面膜進行左旋C輕錢皮敍細份㈣“,其方式域面膜/ 左旋c維讀或皮賴養成份, 'a ^ 祀使貼覆於臉上後,將可撓担 1 η減其上,再施以適當的電流 弋農接將適置之左旋c維生素 35 200841895 皮膚滋養成份,塗抹於臉上後, 當的電流^ 付撓性陣列式電極覆蓋其上,再施以適 【實施例四】 根據本發明,亦可利爾仏 以lmA — 撓轉赋恤、輯,在越層上先進 U 1mA疋電/瓜進仃I子點、或 -+八^$ ^ 、、、生素、或皮膚滋養成份的電導入 -十刀鐘後、再改以正負電極交替 Λ%、戈進仃(正向一分鐘、逆向一分 鐘、正向-分鐘、逆向-分鐘、 刀鐘、埂向一分鐘、…依此類推), 以這種模式電導入後,其量子點 一疋c、准生素、或皮膚滋養成份的透 入皮層的深度可關定在特.位置上,其結果如圖八所示。 由以上之細伽她物條恤編構確辦 上之利用價值’故本發明業已符合於專利之要件。惟以上之敘述僅為本發 明之較佳實施例說明,凡精於柄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發明之發明精神及以下所界定之專利範圍 中。 16 200841895 * 【圖式簡單説明】 •第-圖係顯示本發明可撓性陣列式電導人電極陣列結構之立體圖; 第二圖係顯示本發明可碰_式電導人驗_結構之轉人電極 嵌置於該電導入電極陣列承置座之立體圖; 第三圖係顯示本發明可撓性電導人電極陣躲構之電導人電極陣列栽置於 該電導入電極陣列承置座之平面圖; _ 第四_顯示本發明可撓性電導人電極陣聽構之電導人電極陣列嵌置於 該電導入電極陣列承置座之上視圖; 第五圖係顯示本發明可撓性電導入電極陣列結構之控制電路圖; 第六圖係顯示本發明可撓性電導入電極陣列結構另一實施例之控制電路 圖。 第七圖係顯示利用本發明可撓性電導入陣列電極進行利多卡因藥物透過皮 膚之電導入之效果。 • 第八圖係顯示利用本發明可撓性電導入陣列電極進行物質透過皮膚到特定 深度位置之效果。 17 200841895检 the detecting circuit 8a is connected to the electric lead-in electrode %, % and the mine circuit %, and the blocking circuit 9a is connected to the electric lead-in signal generating circuit % and the detecting circuit, for example, when the electric lead-in electrode If the current of 2a or 2b is too large or too large, an overheating signal is sent to the detection circuit 8a' and transmitted via the blocking circuit 9a, and the signal is amplified to the power amplification/attenuation circuit of the electrical introduction signal generating circuit. The driving of the electric lead-in electrodes 2a, 2b is interrupted by the driving circuit of the electric current generating circuit & And so on, respectively, the detection circuit %& n and the circuit %, 9e, 9d, 9e and the leader signal generating circuit %, &, ^, 乂 and the electric lead-in electrodes 2c, 2d the way. The connection relationship between 2e, 2f, 2g, 2h, 2i, 2j and this embodiment divides two electric induction electrodes H 1.3⁄4 into two groups, and makes the five groups of the human electrodes The four-conductance recording circuit 5c, 5d, 5e', that is, the per-conductor signal generating circuit drives two conducting human electrodes. Of course, each-conductor signal generating circuit can also be connected to only one conductor. Or when the electric lead-in electrode array socket _ is provided with more electric conduction power, the plurality of electric lead-in electrodes may be divided into three groups, four groups, and five groups. The groups are divided into groups and the like, and the electric lead-in electrodes of each group are respectively connected to the electric conductor signal generating circuit to be driven by them. For those skilled in the art, the logic line control method for the above-mentioned creations can be used as an example 14 200841895 It is easy to know that the nail-type electric lead-in electrode array structure provided by the present invention can also assist the agent applied to the skin surface ( For example, anti-inflammatory drugs, chemically active substances or products that burn fat or burn fat penetrate into the human body to achieve therapeutic effects and burn and slimming effects, and some examples are given to illustrate the application of the present invention. [Example 1] According to the present invention, when the flexible array electrode structure is electrically introduced, the drug solution can be on the positive electrode or the negative electrode depending on the nature of the drug. If the drug is positively charged, the drug reservoir is on the positive electrode. If the drug is negatively charged, the drug tank is on the top, and the insulation is separated by a pole. It must have a certain width to avoid short circuit. In order to increase the area of the electric lead-in, the array electrode "middle, read and tear, (4) the other side of the array electrode can be set to the positive electrode, and the drug or drug tank is placed on the positive electrode. And vice versa [Example 2 According to the present invention, the effect of the electro-introduction of the Lieka card by using the flexible array type is shown in Fig. 7. The larger the current, the more the amount of music to be introduced. According to this ", this can also be flexible ___, on the mask, the mask is made to the left-handed C light-skinned skin (4) ", its mode domain mask / left-handed c-dimensional reading or skin care, 'a ^ 祀After applying the patch to the face, reduce the stretchable 1 η and apply the appropriate current to the left-handed c vitamin 35 200841895 skin nourishing ingredient, after applying it to the face, when the current ^ According to the present invention, the flexible array electrode can be applied to the fourth embodiment. According to the present invention, the lmA can be used as the lmA-flexible tweezers, and the U 1 mA electric/melon can be advanced on the layer.电I sub-point, or -+ eight ^$ ^,,, biotin, or skin nourishment of the electric import - after ten knives, then change Positive and negative electrodes alternate Λ%, Gojin 仃 (for one minute, reverse one minute, positive-minute, reverse-minute, knife clock, one minute, and so on), after electric induction in this mode, The depth of the penetrating layer of the quantum dot, the quasi-gene, or the skin nourishing component can be determined at the specific position, and the result is shown in FIG. The use of the above-mentioned fine gamma material is to ensure the use value. The invention has been in compliance 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 descriptions. However, these changes still belong to the inventive spirit of the present invention and are defined below. In the scope of patents. 16 200841895 * [Simplified description of the drawings] • The first figure shows a perspective view of the structure of the flexible array type conductivity electrode array of the present invention; the second figure shows the human electrode of the invention. a perspective view of the electrical lead-in electrode array holder; the third diagram shows a plan view of the electrically conductive human electrode array of the flexible conductive human electrode array of the present invention placed on the electrical lead-in electrode array holder; The fourth embodiment shows that the conductive human electrode array of the flexible conductive human electrode array is embedded in the electric lead-in electrode array receiving seat; the fifth figure shows the flexible electric lead-in electrode array structure of the present invention. Control circuit diagram; Fig. 6 is a control circuit diagram showing another embodiment of the flexible electric lead-in electrode array structure of the present invention. Fig. 7 is a view showing the effect of electrophoresis of lidocaine drug through the skin using the flexible electroconductive array electrode of the present invention. • The eighth figure shows the effect of using the flexible electro-introducing array electrodes of the present invention to penetrate a substance through a skin to a specific depth position. 17 200841895
【圖式各元件符號之說明】: 100 1 2 2a、2b、2c …2j 3 4 5、5a、5b、5c…5e 51 52 53 6 7 8、 8a、8b、8c"e8e 9、 9a、9b、9c …9e S卜 Sla、Sib、Slc".Sle S2 53、 S3、S3b、S3c...S3e 54、 S4a、S4b、S4c …S4e 戴附式電導入電極陣列結構 電導入電極陣列承置座 電導入電極陣列 電導入電極 戴附帶體 電源供應電路 電導入信號產生電路 共振驅動電路 電力放大/衰減電路 驅動電路 通道切換電路 切換控制單元 檢出電路 遮斷電路 電導入輸出信號 切換控制信號 過熱信號 遮斷信號 18[Description of each component symbol of the drawing]: 100 1 2 2a, 2b, 2c ... 2j 3 4 5, 5a, 5b, 5c...5e 51 52 53 6 7 8 , 8a, 8b, 8c " e8e 9, 9a, 9b , 9c ... 9e Sb Sla, Sib, Slc".Sle S2 53, S3, S3b, S3c...S3e 54, S4a, S4b, S4c ... S4e wearing electrical lead-in electrode array structure electrical lead-in electrode array holder Electric lead-in electrode array electric lead-in electrode wear body power supply circuit electric lead-in signal generation circuit resonance drive circuit power amplification/attenuation circuit drive circuit channel switching circuit switching control unit detection circuit interrupt circuit electric induction output signal switching control signal overheat signal Interrupt signal 18