M437160 五、新型說明: 【新型所屬之技術領域】 本創作係有關於一種生琿訊號偵測結構,特別係指一種具有明顯 突起以易與人體表面接觸及緊密貼合之生理訊號偵測結構,藉以方便 偵測人體之生理訊號。 【先前技術】 現今在測量人體之心跳、腦波等生理訊號時,會將一生理測量儀 器之複數感測元件,分別貼附(或穿戴)於人體表面之不同部位,藉由 該些感測元件感測神經衝動(即膜電位之變化)通過人體器官(如:心 臟、頭部)時擴散到周圍組織或是體表的電流,而所測得之感測訊號再 藉由電線由該些感測元件傳輸至該生理測量儀器中,經處理後轉換成 數據顯示,藉此瞭解受測部位之狀況(如:心跳頻率、腦波變化)。 上述感測元件大多採以電極片實施,而傳統電極片之結構主要係 為一具有黏性之基層(如:導電膠層)以及一與基層結合之導電部,在 測1生理訊说使用時,係透過該基層之黏性以其一面完全黏貼於人體 表面,藉此使體表之電流經由該基層、導電部、電線後至該生理測量 儀器中;反之,即為電極治療,係將電流從該生理測量儀器傳送至體 表,藉此深入體表内以刺激所欲治療之部位。 然而人體表面係為起伏不定之弧曲表面,甚有特別突出之部位 (如:肩、膝),致使傳統電極片之基層與人體表面之間容易產生空隙, 且在人體動作時,如肩胛骨周緣、肘關節等部位亦會頂開上述傳統電 極片之基層,導致該基層係有部份鬆開而不易黏附於人體表面,甚至 3 M437160 是整體脫落,前述情形均不易產生感測訊號,更容易造成偵測中斷, 且當使用複數傳統電極片時’須各別貼附於欲债測之人體部位表面, 再予以固定,則不便於使用。 再者,上述傳統電極片之基層容易因乾燥而龜裂,且容易黏有人 體體表之汗垢而影響生理訊號傳輸,也會因為汗垢殘留而發黴變黑, 或是容易黏有其它污潰(如:灰塵)而形成雜訊干擾,又前述汗垢或污 潰黏附該基層表面也容易失去黏性,是以傳統電極片容易前述情形而 耗損及造成使用上之不便。 有鑑於此’本創作人乃潛心研思、設計組製,期能提供一種具有 明顯突起,且易與人體表面接觸及緊密貼合之功效的生理訊號偵測結 構’藉以方便偵測受測者之生理訊號,增加使用上之便利性,為本創 作所欲研創之創作動機者。 【新型内容】 本創作之主要目的,在於提供一種具有明顯突起,且易與人體表 面接觸及緊密貼合之功效的生理訊號偵測結構,藉以方便偵測受測者鲁 之生理訊號,增加使用上之便利性。 本創作之次一目的,在於提供一種結合有包邊帶之生理訊號偵測 結構,使具有定位之功效,以增加舒適感及美觀之效果,更能降低對 電流傳導之影響,亦降低雜訊干擾。 為達上述目的’本創作為一種生理訊號偵測結構,係包括:一底 層,至少—電極片,該電極片係設置於該底層之頂面,該電極片與該 底層之間係形成有一第一容置室;以及至少一突出件,該突出件係固 4 定設置於該第-容置室中,該突出件係具有至少—突出面該突出件 之突出面係頂推並突起該電極片;據此,使具有明顯突起之效果能 易與人體表面接觸及緊密貼合之功效,藉以方便偵測受測者之生理訊 號’增加使用上之便利性,再藉由増設—包邊帶,使具有定位之功效, 以增加舒賴及鏡之效果,更能降低對驗科之卿亦降低雜 訊干擾。 為了能夠更進-步瞭解本創作之特徵、特點和技術内容請參閱 以下有關本創作之詳細說明與關,惟所關式僅提供參考與說明 用,非用以限制本創作。 【實施方式】 請參閱第1圖至第9圖所示,本創作為一種生理訊號伽結構!, 係包財至少一電極片11、—底層2〇以及至少-突出件30之組合結 構’刖述電極片11係用以接觸欲侧之人體部位表面,而前述突出件 30係與該侧U騎配置,紐底層2_直接連接於一穿戴物 (可參閱第10圖之衣服50)。 本創作之生理訊測結構1在實際實施時,其簡單實施結構之 組合樣式係如第7圖所示’係採以單-電極片11實施,該電極片11 係置;該底層20之頂面,該電極片^與該底層2〇之間係形成有一 第-容置室S1;而所述之突出件3〇係固定設置於該第一容置室幻 中,該突出件30係具有至少—突出面3卜該突出件3〇之突出面3i 係頂撐並突起該電極片11。 透過上述組麟件’使本創作_於人體表㈣,能順著人體之 M437160 弧曲表面貼合,而該突出件3〇係對齊並頂撐該電極片u,且予以突 起該電極片11之片面,從外觀觀之,該電極片u之局部片面係呈突 出狀’以緊密貼合(或緊密抵住)人體表面,避免產生空隙,進而讓人 體表面之電齡肖料至該電極# u巾,制賴敝理訊號之變 化。 由於本創作之生理訊號偵測結構丨係依該電極片u之使用數量, 而有著不同之實施方式’其中若採以單—電極片u實施時,結合有本 創作之生理訊號細結構1之穿戴物(圖未示,例如:腕帶或護腕)係 設於人體之手腕處(圖未示),並搭配—電子裝置(圖未示,例如:多媒 體播放裝置),該電子裝置之另端係電性連财—配件(齡示,例如: 耳機),該配件係設於人體之另-部位(如:耳部),以做為接地 (Ground)(或導電負極)使用,藉以形成鋼迴路;若採以複數電極片 11實施時’本創作之生理訊號偵測結構丄就不限於設置前述手腕處, 可參閱第11圖所示,即結合於-衣服5〇上,透過在該衣服5G内之二 電極片11以形成偵測迴路。 該突出件30在其對應於該突出面31之相對表面32,係能呈突起 狀(圖未示)或是呈平坦狀(可參閱第3圓所示)實施,其中前述相對表 面32採以平坦狀實施,係使整個突出件3〇之形狀係由其相對表面羽 漸次收脑_面31,除了增加該如⑽之撕表面32與該底 層20之接觸面積,亦同樣增加該突出件3〇之突出面&能電極片 11之接觸面積並形成緊密接觸,如此即使該突出件3〇穩固定位於該 第一容置室S1中’避免滑移或晃動,並讓該突“ 31能對齊並頂樓 6 該電極片11且予以突起,,少該突出面3!與該電極片U之間的間 隙。 上述電極片11係設有複數網孔iii(請參閱第w圖所示)’藉 以阻撐塵埃等異物滲人該電極片11中,降低對該電極片u内之料 部位干擾,亦減少雜訊產生。 上述突出件30係能選自泡棉、_體、棉花布或是彈性體實施, 藉以方便製造’其巾該突出件3Q採轉冊時係具有彈性而能伸展 或壓縮’谷易辨曲或是彎折,爾後亦容級復原狀,如此貼服於人 體表面時’ _著人縣面之㈣職,以雜使収實施。 上述底層2〇係為布材層、塑膠片材層或是為聚酿纖維⑽yester fiber)材層。 又本文t,所述之至少―電極片u係包含有複數電極片^,而 所述之至少-突出件3〇係包含有複數突出件3q,前述複數用語係指 二個或超過二叙數量,是財_如第5 _示(柯搭配參閱第 卜2、4圖所示)’採以雙電極片u搭配雙突出件3〇實施時該二電 極片11係間隔設置於該底層20之頂面,使各該電極片u與該底層 2〇之間係分別形成有—第—容置室S1 ’而各該突出件3q係分別固定 設置於各該第-容置室S1中,各該突出件3Q係具有至少一突出面 31 ’各該突出件3〇之突出面31係頂樓並突起各該電極片u,另在彼 此相鄰之任二電極片n之間還連接有至少—連接片12,所述連接片 12之兩端係連接於彼此相鄰之二電極片η之間在所述連接片㈣ 該底層20之間係形成有—第二容置室S2,該些電極片u和該連接片 12係彼此相連成一與該底層20形狀相對應之頂層10 ;藉此使該些電 極片11係在所述連接片12之輔助下’能快速貼附在人體之同一部位 的相對應側(如·頭部之左右兩相對側處、背部之左右兩側、或是心藏 部位之胸、背兩相對應側)。 上述第二容置室S2係供容置其他物品(如:電線、感測器,控制 器)’但若該第二容置室S2中未容置物品時,所述連接片12係貼合該 底層20之頂面。 而在實際實施時,各該電極片11分別與該底層2〇、所述連接片 12之連接方式’還有所述連接片12與該底層2〇之間的連接方式,均 能採用車縫(以車縫線縫穿固定)、黏劑(塗佈接著劑以黏貼固定)或熱 熔接(先進行裁切,再對裁切處加熱以熔接固定)等方式,達到連接固 定之功效。 另外’如第1圖至第4圖所示’為本創作之生理訊號偵測結構j 於實際實施時之最佳例,係進一步包括有一包邊帶4〇,其實施結構請 再參閱第2、3圖所示’該包邊帶40之下邊41係連接該底層20之底 面的周邊’而該包邊帶4〇之上邊42係連接該頂層1〇(即由彼此相連 之該些電極片11和所述連接片12所組成)之頂面的周邊,該頂層1〇 之頂面的周邊係對應於前述底層2〇之底面的周邊,俾利於該包邊帶 40包覆固定’藉以增加舒適感及美觀之效果,在此實施例中,所述連 接片12係能視實際需求而選擇性設置,因此使本創作亦能如第6圖所 示’僅在該底層20之頂面間隔設置有該二電極片u實施,使該包邊 帶40之上邊42僅連接該二電極片11之頂面的周邊;藉此在本創作以 車縫方式結合於-紐5G上時(可翔第1G、u圖穌),能藉助該 包邊帶40以確認可縫穿之區域,使該車鏠線60沿著該包邊帶40縫 穿,避免誤縫該突出件而破壞結構,而本創作更可藉由搭配該衣服 50以在又測者穿戴後,使該二電極片u能夠快速對應且方便於緊密 貼合欲受測之部位,避免各別貼附實施。 再者’如第8、9騎示,上述包邊帶4()之實施方式·搭配先 前提及之生理訊號偵測結構i的簡單實施結構(該簡單實施結構可見 第7圖而搭配後之樣式可見第9圖所示),該包邊帶仙之下邊^ 係連接該絲20之底面_邊補包邊㈣之上邊婦連接該電 片11之頂面的周邊,該電極片u之頂面的周邊係對應於前述底層 2〇之底面的周邊,俾利於該包邊帶4〇包覆固定亦同樣有增加舒適 感及美觀之效果’並利於連接於所搭配之衣服5〇。 另外’右所述電極片u之尺寸較大時,為了節省成本並使該電極 片11與體表之電流形成電性連接,再如第1、2、4圖所示,各該電極 \ιι係進-頻合有至少—延長祕13(在第2 _揭祕左下方之 °大圖中)各該延長導線13之_端係伸人且電性連接於各該電 極片11 +,而各該延長導線13之另端係伸出各該電極片 11之一侧 藉此在各該電極片n被該各突出件30頂樓並突起之情形下能 災合琢電極片 -奋易與人體體表之電流形成電性連 、而在實際實施中’本創作採以單—電極片U實施時亦能增設前 述k長導線13,另當本創作採以超過二電極片U實鱗,係能依各 〜電極>1 11之尺寸,選擇性地結合有前述延長導線Μ實施。 上述電極片11之延長導線13係為紡織用之複數導電紗線組成, 較為柔軟,是以該延長導線13係透過電性連接有一電線(圖未示),該 電線之另端再與一生理測量儀器(圖未示)電性連接,使體表之電流經 由該電極片11、延長導線13及電線後,進而能再傳輸至一生理測量 儀器中;在實際實施中,該延長導線13並非為必要設置之構件,是以 前述電極片11亦能直接電性連接該電線(圖未示)。 據此,本創作之生理訊號偵測結構係藉由至少一電極片u、一底 層20以及至少一突出件3〇之組合設計,具有明顯突起之效果,能易 γ、人體表φ接觸及緊麵合之功效,藉以方便偵啦測者之生理訊 號’增加使用上之便利性’再藉由增設—包邊帶4Q,使具有定位之功 效’以增加舒誠及魏之效果,更能降低對電流料之影響,亦降 低雜訊干擾。 以上所述僅為賴叙較佳,實齡丨,_鱗舰本創作之 專利細,舉凡運用本創作說明書及圖式内容所為之等效結構變化, 均理同包含於本創作之範圍内,合予陳明。 【圖式簡單說明】 第1圖係為本創作之生理訊號偵測結構的立體示意圖。 第2圖係為第1圖之a至a線段的剖斷面視圖。 第3圖係為第1圖之B至B線段之剖斷面的放大示意圖。 第4圖係為第1圖之分解示意圖。 第5圖係為第2圖之生理訊號偵測結構令去除該包邊帶、車缝線及延 長導線實施的示意圖。 第6圖係為第2圖之生理訊號偵測結構中去除該連接片及延長導線實 施的示意圖》 第7圖係為本創作之生理訊號偵測結構的簡單實施例圖。 第8圖係為第7圖之生理訊號偵測結構係進一步包括有一包邊帶實施 的立體分解圖。 第9圖係為第8圖之生理訊號>(貞測結構組合後的立體示意圖。 第10圖係為本創作之生理訊號偵測結構結合於一衣服後背内實施的 後面透視示意圖。 第11圖係為本創作之生理訊號偵測結構結合於另一前開襟之衣服内 實施的前視示意圖。 M437160 【主要元件符號說明】 1 生理訊號偵測結構 50 衣服 10 頂層 60 車縫線 11 電極片 S1 第一容置室 111 網孔 S2 第二容置室 12 連接片 13 延長導線 20 底層 30 突出件 31 突出面 32 相對表面 40 包邊帶 41 下邊 42 上邊 12M437160 V. New Description: [New Technology Field] This creation department is about a sputum signal detection structure, especially a physiological signal detection structure with obvious protrusions to easily contact and closely fit the human body surface. In order to facilitate the detection of physiological signals of the human body. [Prior Art] Nowadays, when measuring physiological signals such as heartbeat and brain waves of a human body, a plurality of sensing elements of a physiological measuring instrument are respectively attached (or worn) to different parts of the surface of the human body, and the sensing is performed. The component senses the impulse of the nerve impulse (ie, the change in membrane potential) through the human organs (eg, the heart, the head) to the surrounding tissue or the surface of the body, and the measured sensing signals are then taken by the wires. The sensing component is transmitted to the physiological measuring instrument, processed and converted into a data display, thereby understanding the condition of the tested site (eg, heartbeat frequency, brain wave variation). Most of the above-mentioned sensing elements are implemented by electrode sheets, and the structure of the conventional electrode sheets is mainly a viscous base layer (such as a conductive adhesive layer) and a conductive portion combined with the base layer, when the physiological signal is used. Through the adhesiveness of the base layer, one side is completely adhered to the surface of the human body, thereby causing the current of the body surface to pass through the base layer, the conductive portion, and the electric wire to the physiological measuring instrument; otherwise, the electrode treatment is to apply current The physiological measuring instrument is transmitted from the physiological measuring instrument to the body surface, thereby being deeply penetrated into the body surface to stimulate the desired treatment site. However, the surface of the human body is a undulating curved surface, and particularly prominent parts (such as shoulders and knees), which cause gaps between the base layer of the conventional electrode sheet and the surface of the human body, and when the human body moves, such as the shoulder blade. The elbow joint and the like also open the base layer of the conventional electrode sheet, so that the base layer is partially loosened and not easily adhered to the surface of the human body, and even the 3 M437160 is completely detached, and the above situation is not easy to generate a sensing signal, which is easier. The detection is interrupted, and when using a plurality of conventional electrode sheets, it is necessary to attach the surface of the body part to be tested for debt, and then fix it, which is inconvenient to use. Furthermore, the base layer of the above-mentioned conventional electrode sheet is liable to be cracked due to drying, and it is easy to adhere to the sweat stain of the human body surface and affect the physiological signal transmission, and may also become moldy and black due to sweat residue remaining, or easily adhere to other stains. Corruption (such as: dust) forms noise interference, and the aforementioned sweat stain or stain adheres to the surface of the base layer, and the viscosity is easily lost. This is because the conventional electrode sheet is easily depleted in the foregoing situation and causes inconvenience in use. In view of the fact that this creator is devoted to research and design, it can provide a physiological signal detection structure with obvious protrusions and easy contact with the human body surface and close fit. The physiological signal increases the convenience of use and is the creative motive for the creative research. [New content] The main purpose of this creation is to provide a physiological signal detection structure with obvious protrusions, which is easy to contact with the human body surface and closely fit, so as to facilitate detection of the physiological signal of the testee and increase the use. Convenience. The second purpose of the present invention is to provide a physiological signal detecting structure combined with a sideband to enhance the effect of comfort and aesthetics, thereby reducing the influence on current conduction and reducing noise. interference. For the above purpose, the present invention is a physiological signal detecting structure, which comprises: a bottom layer, at least an electrode sheet, the electrode sheet is disposed on a top surface of the bottom layer, and a surface is formed between the electrode sheet and the bottom layer. An accommodating chamber; and at least one protruding member, the protruding member is fixedly disposed in the first accommodating chamber, the protruding member has at least a protruding surface, and the protruding surface of the protruding member pushes and protrudes the electrode According to this, the effect of having obvious protrusions can be easily contacted and closely adhered to the surface of the human body, thereby facilitating detection of the physiological signal of the subject, increasing the convenience of use, and then by providing a side band It has the effect of positioning to increase the effect of Shu Lai and Mirror, and it can also reduce the noise interference to the Master of Detective. In order to be able to further understand the features, features and technical content of this creation, please refer to the following for a detailed description of this creation, but only for reference and explanation, not to limit this creation. [Embodiment] Please refer to Figure 1 to Figure 9. This creation is a physiological signal gamma structure! , at least one electrode sheet 11, a bottom layer 2〇, and at least a combination structure of the protruding members 30. The electrode sheet 11 is used to contact the surface of the body part of the desired side, and the protruding member 30 is attached to the side U. In the riding configuration, the bottom layer 2_ is directly connected to a wearing object (refer to the clothes 50 of Fig. 10). In the actual implementation of the physiological sensing structure 1 of the present invention, the combination pattern of the simple implementation structure is as shown in FIG. 7 'implemented by the single-electrode sheet 11 , and the electrode sheet 11 is tied; the top of the bottom layer 20 a first accommodating chamber S1 is formed between the electrode sheet and the bottom layer 2; and the protruding member 3 is fixedly disposed in the first accommodating chamber, and the protruding member 30 has At least the protruding surface 3 is protruded from the protruding surface 3i of the protruding member 3i and protrudes from the electrode sheet 11. Through the above-mentioned group of pieces, the original creation_the human body table (4) can be adhered along the surface of the human body M437160, and the protruding piece 3 is aligned and supported by the electrode piece u, and the electrode piece 11 is protruded. The one-sided view, from the appearance, the partial surface of the electrode sheet u is protruding to 'closely fit (or closely close to) the surface of the human body, avoiding the occurrence of voids, and thus the electrical surface of the body surface to the electrode# u towel, the change in the signal. Since the physiological signal detecting structure of the present invention is based on the number of the electrode sheets u, there are different implementation modes, wherein if the single-electrode sheet is used, the physiological signal fine structure of the present invention is combined. The wearing object (not shown, for example, a wristband or a wristband) is attached to the wrist of the human body (not shown), and is coupled with an electronic device (not shown, for example, a multimedia playing device), and the electronic device is another The end is electrically connected to the financial-accessory (age indication, for example: earphone), which is placed in another part of the human body (such as the ear) to be used as a ground (or conductive negative) to form The steel circuit; if the plurality of electrode sheets 11 are used, the physiological signal detecting structure of the present invention is not limited to the setting of the wrist, as shown in Fig. 11, that is, it is combined with the clothes 5 The two electrode sheets 11 in the garment 5G form a detection loop. The protruding member 30 can be implemented in a protrusion shape (not shown) or in a flat shape (as shown in the third circle) at its opposite surface 32 corresponding to the protruding surface 31, wherein the aforementioned opposite surface 32 is adopted. The flat shape is implemented such that the shape of the entire protruding member 3 is gradually increased from the opposite surface to the surface 31. In addition to increasing the contact area between the tearing surface 32 and the bottom layer 20 as in (10), the protruding member 3 is also increased. The protruding surface of the crucible can be in close contact with the contact area of the electrode sheet 11, so that even if the protruding member 3 is firmly fixed in the first housing chamber S1, 'avoiding slip or shaking, and allowing the protrusion 31 to The electrode sheet 11 is aligned and protruded from the top floor 6 to reduce the gap between the protruding surface 3! and the electrode sheet U. The electrode sheet 11 is provided with a plurality of meshes iii (see the figure w). In order to prevent foreign matter such as dust from infiltrating into the electrode sheet 11, the interference of the material portion in the electrode sheet u is reduced, and noise generation is also reduced. The protruding member 30 can be selected from foam, _ body, cotton cloth or Elastomer implementation, so as to facilitate the manufacture of 'the towel when the protruding piece 3Q is transferred It has elasticity and can be stretched or compressed. The valley is easy to discriminate or bend, and then it is restored to the level of the human body. When it is attached to the surface of the human body, it is carried out by the staff of the county. The lanthanum is a cloth layer, a plastic sheet layer or a yester fiber layer. Further, at least the electrode sheet u includes a plurality of electrode sheets, and the at least one protrusion The 3 〇 series includes a plurality of protruding parts 3q, and the plural plural terms refer to two or more than two numerous numbers, which is a _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ When the sheet u is matched with the double protruding piece 3, the two electrode sheets 11 are spaced apart from the top surface of the bottom layer 20, so that the first receiving chamber S1 is formed between each of the electrode sheets u and the bottom layer 2 And each of the protruding members 3q is fixedly disposed in each of the first-accommodating chambers S1, and each of the protruding members 3Q has at least one protruding surface 31'. The protruding surfaces 31 of the protruding members 3 are top stories and protrusions The electrode sheet u is further connected with at least a connecting piece 12 between any two electrode sheets n adjacent to each other. The two ends of the tab 12 are connected between the two electrode sheets n adjacent to each other. Between the connecting sheets (4) and the bottom layer 20, a second accommodating chamber S2, the electrode sheets u and the connecting sheets are formed. The 12 series are connected to each other to form a top layer 10 corresponding to the shape of the bottom layer 20; thereby, the electrode sheets 11 are fastened to the corresponding side of the same part of the human body by the aid of the connecting sheet 12 (eg · The opposite sides of the head, the left and right sides of the back, or the chest and back of the heart. The second housing room S2 is for housing other items (such as wires and senses). Detector, controller) 'But if the second accommodating chamber S2 does not accommodate an article, the connecting piece 12 is attached to the top surface of the bottom layer 20. In actual implementation, each of the electrode sheets 11 is connected to the bottom layer 2, the connecting piece 12, and the connection between the connecting piece 12 and the bottom layer 2 (Sewing through the sewing thread), adhesive (coating adhesive to adhere to the fixed) or thermal fusion (cutting first, then heating the cutting to fix the welding), etc., to achieve the effect of connection and fixation. In addition, as shown in Figures 1 to 4, the best example of the physiological signal detecting structure j of the present invention is that it has a sideband 4〇, and the implementation structure is referred to the second. 3, the lower edge 41 of the edge band 40 is connected to the periphery of the bottom surface of the bottom layer 20, and the upper edge 42 of the edge band 4 is connected to the top layer 1 (ie, the electrode sheets connected to each other) 11 and the periphery of the top surface of the connecting piece 12, the periphery of the top surface of the top layer 1 corresponds to the periphery of the bottom surface of the bottom layer 2, and the edge of the edge band 40 is coated and fixed. The comfort and aesthetic effect, in this embodiment, the connecting piece 12 can be selectively set according to actual needs, so that the creation can also be spaced only on the top surface of the bottom layer 20 as shown in FIG. The second electrode sheet u is disposed such that the upper edge 42 of the edge band 40 is only connected to the periphery of the top surface of the second electrode sheet 11; thereby, when the creation is combined with the button 5-Nu 5G 1G, u, can use the edge band 40 to confirm the sewable area, so that the rudder line 60 along The hem band 40 is sewn to avoid severing the protruding member and damaging the structure, and the creation can be matched with the clothing 50 to make the two-electrode piece u quickly correspond and convenient to be closely attached. The parts to be tested should be protected from each other. Furthermore, as shown in the eighth and the ninth, the implementation of the above-mentioned edging band 4 () is combined with the simple implementation structure of the physiological signal detecting structure i mentioned above (this simple implementation structure can be seen in Figure 7 The pattern can be seen in Fig. 9), and the underside of the edging band is connected to the bottom surface of the wire 20. The edge of the edge of the wire is connected to the periphery of the top surface of the film 11, and the top of the electrode piece u is The periphery of the surface corresponds to the periphery of the bottom surface of the bottom layer 2, and the wrapping and fixing of the edge band 4〇 also has the effect of increasing comfort and appearance' and facilitating connection with the clothes 5所. In addition, when the size of the electrode piece u on the right side is large, in order to save cost and electrically connect the electrode piece 11 with the current of the body surface, as shown in the first, second, and fourth figures, each of the electrodes is set. The extension-frequency combination has at least the extension secret 13 (in the larger image in the lower left of the second _ secret), the extension end of each of the extension wires 13 is extended and electrically connected to each of the electrode sheets 11 + The other end of the extension wire 13 extends from one side of each of the electrode sheets 11 so that the electrode sheets n can be catalyzed by the protrusions 30 on the top floor and protruded from the protrusions. The current of the meter forms an electrical connection, and in actual implementation, the above-mentioned k-length wire 13 can also be added when the single-electrode sheet U is implemented, and the above-mentioned creation adopts more than two electrode sheets U. The extension wire 选择性 is selectively incorporated in accordance with the size of each of the electrodes > The extension wire 13 of the electrode sheet 11 is composed of a plurality of conductive yarns for textiles, and is relatively soft. The extension wire 13 is electrically connected to a wire (not shown), and the other end of the wire is followed by a physiological The measuring instrument (not shown) is electrically connected, so that the current of the body surface can be transmitted to the physiological measuring instrument through the electrode sheet 11, the extension wire 13 and the electric wire; in actual implementation, the extension wire 13 is not In order to provide the necessary components, the electrode sheet 11 can be directly electrically connected to the electric wire (not shown). Accordingly, the physiological signal detecting structure of the present invention is designed by a combination of at least one electrode sheet u, a bottom layer 20 and at least one protruding member 3〇, and has the effect of obvious protrusion, which can easily γ, human body surface φ contact and tight The effect of face-to-face combination is to facilitate the physiological signal of the detector to increase the convenience of use, and then by adding - the edge band 4Q, so that the effect of positioning can be increased to increase the effect of Shu Cheng and Wei, and can reduce The effect on the current material also reduces noise interference. The above is only the preferred version of Lai Xu, the age of the 丨, _ 舰 舰 本 本 本 专利 专利 , , , , 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰 舰Combined with Chen Ming. [Simple description of the drawing] Fig. 1 is a perspective view of the physiological signal detecting structure of the present invention. Figure 2 is a cross-sectional view of the line a to a of Figure 1 . Fig. 3 is an enlarged schematic view showing a section of the line B to B of Fig. 1. Fig. 4 is an exploded perspective view of Fig. 1. Figure 5 is a schematic diagram of the physiological signal detecting structure of Figure 2 for removing the edge band, the sewn line and the extended wire. Fig. 6 is a schematic view showing the removal of the connecting piece and the extension wire in the physiological signal detecting structure of Fig. 2. Fig. 7 is a view showing a simple embodiment of the physiological signal detecting structure of the present invention. Figure 8 is a perspective view of the physiological signal detecting structure of Figure 7 further including an embodiment of a sideband. Fig. 9 is a physiological signal of Fig. 8> (a schematic perspective view of the combined structure of the structure. Fig. 10 is a rear perspective view of the physiological signal detecting structure of the present invention combined with the inside of a garment. The figure is a front view of the physiological signal detecting structure of the present invention combined with another front opening garment. M437160 [Main component symbol description] 1 Physiological signal detecting structure 50 Clothes 10 Top layer 60 Sewing line 11 Electrode piece S1 first accommodating chamber 111 mesh S2 second accommodating chamber 12 connecting piece 13 extension wire 20 bottom layer 30 protruding piece 31 protruding surface 32 opposite surface 40 edging belt 41 lower side 42 upper side 12