;· 16 ;· 16M394095;· 16 ;· 16M394095
五、新型說明: L 【新型所屬之技術領域】 本創作係提供-種電子經絡儀的技術領域,尤指其技術 上提供一種電子經絡儀的檢測棒結構。 【先前技術】 按,習知良導絡測定系統是依據「人體皮膚表面電阻 測疋法」之原理而設計,其硬體結構基本上為直流電源, 串聯一個電阻和可變電阻及—個直流電流表。測量時將鋼 棒(負極)交由被測者以單手適度握持,測試棒(正極) 由施測者依序加諸於被測者之特定皮膚點(穴位)。 唯其s知測式棒(正極)測試方法都是濕式測量, 過去為了有效降低皮膚電阻值,降低皮膚乾濕度影響’所 以良導絡测試電極需I M + W # 藉由棉化沾濕,以降低皮膚電阻 值,而有利於偵測。而-般習用時,大都使用—般脫脂棉, 並隨意摘取任忍大小塞人檢測端子,導致棉花的大小、濕 潤度、密度、m緊與接觸皮膚面積的形狀及施測人員操作 時所施加壓力的程度’皆造成量測誤差。 是以,針對上述習知結構所存在之問題點,如何開發 -種更具理想實用性之創新結構,實消費者所殷切企盼, 亦係相關業者須努力研發突破之目標及方向。 有鑑於此,創作人士从夕& 本於夕年從事相關產品之製造開發 與設計經驗’針對上述之目標1加設計與審慎評估後, 終得一確具實用性之本創作。 【新型内容】 欲解決之技術問題點:習知測試棒(正極)測試方法 都是濕式測量,過去為了有效降低皮膚電阻值,降低皮膚 乾濕度影響,所以良導絡測試電極需要藉由棉花沾濕,以 降低皮膚電阻值,而有利於偵測。而一般習用時,大都使 用一般脫脂棉,並隨意摘取任意大小塞入檢測端子,導致 棉花的大小、濕潤度、密度、鬆緊與接觸皮膚面積的形狀。 及施測人員操作時所施加壓力的程度,皆造成量測誤差。 解決問題之技術特點:提供一種電子經絡儀的檢測棒 結構,係包含有:一電子經絡儀,該電子經絡儀分別以電 線連接一銅棒(負極)及一檢測棒(正極),該檢測棒包含 有一彈性元件頂抵一探針設於該檢測棒之前端,該檢測棒 之前端面所形成之接觸面直徑為7ram〜3mm之間,接觸面相 當小而適合於人體穴位小的精確接觸,其探針壓迫至穴位 之壓力以彈性元件壓縮1/4〜1/2之間為穩定壓力,而壓縮 1/3之壓力為最佳並可保持適當與皮膚有效接觸不因施測 者手部晃動而有偏差,施測者並手持檢測棒,輕壓受測者 欲測之穴位,並讀取數值記錄之。該檢測棒表面並可設有 —按鈕或觸控開關,而該檢測棒可與電腦連線,按鈕按壓 或觸控開關觸控時並可將檢測數據傳至電腦記錄,若沒有 按紐,則帛手動或電腦軟體自動㈣記錄之。藉由該檢測 M3.94095 i :彳;Ci 棒乃得以用乾式測量法,相較於傳統良導絡儀之溼式測量 法,其操作更簡易且量測值穩定者。 對照先前技術之功效:先前技術為濕式測量,且誤差 大,而本創作提供一檢測棒,該檢測棒得進行乾式測量, 而且該檢測棒之探針接觸面小,以配合穴位小的位置量 測,避免過大接觸皮膚,檢測棒並依彈性元件壓縮程度可 判斷施測者施加壓力,據此得以達到操作更簡易,且量測 & 值更穩定者。 有關本創作所採用之技術、手段及其功效茲舉一較 佳實施例並配σ圖式詳細說明於后,相信本創作上述之目 的、構造及特徵,當可由H人而具體的瞭解。 【實施方式】 囫所示,本創作係提供 麥閲弟 的檢測棒結構,包括: 一電子經絡儀(1 Q )’該電子經絡儀(1 〇 )分別以 電線(11)、(12)連接—銅棒(負極)(2〇)及一 檢測棒(正極)(3〇),該檢測棒(30)包含有—彈性 元件(3 1 )頂抵一探針(3 2 )設於該檢測棒(3 〇 ) 之前端,該檢測棒(3〇)之探針(32)前端面所形成 之接觸面(32 1 )直徑為7mm〜3關之間接觸面(a 2 η相當小而適合則、的人體穴位的精確接觸其探針㈡ 2 )壓迫至穴位之虔力,以彈性元件(3 1 )壓縮1/4〜1/2 5 之間為穩定虔力,而麼縮1/3之壓力為最佳,施測者 持檢測棒(3 0 ),輕壓受測者欲測之穴位,並讀取數值弋 錄之。藉由該檢測棒(30)乃得以用乾式測量法,即1 測電極為具緩衝特性並經適當表面處理之乾式電極,置 ㈣統良導絡儀之㈣測量法,其操作更簡易且量測值穩乂 疋其測量以十—正經之原穴為測定點,探討原穴之電阻 值在「經絡、臟腑辨證」之應用。本創作不需用渴 不因過當接觸皮膚產生干擾的問題,該探針(32、)内縮 1/3比較好控制’且其探針(3 2)前端面的接觸面(3’: 1)小,可精確的壓在穴位上,不會像習用的接觸面大, 無法準確量測穴位。 參閱第三圖所示,為該檢測棒之另一實施例剖示圖, 該檢測棒(3 0 )之前端設有一彈性元件( 丄^頂抵一 探針(32),該檢測棒(3〇)之探針(32)前端面所 形成之接觸面(321)直料W3mm之間接觸面门 2 1 )相當小而適合於小的人體穴位的精破接觸,其探針 (32)壓迫至穴位之麼力,以彈性元件(3ι)壓縮 1/4〜1/2之間為穩定壓力,可使電極與皮膚有緊密的良好接 觸,因皮膚阻抗高’可避免皮膚與探針(3 2 )有電阻之 產生。而壓縮1/3之壓力為最佳,該檢測棒(3 〇 )上設 有一按鈕(3 3 )或觸控開關,而該檢測棒(3 〇 )以= 線(1 2 )連接電子經絡儀(丄〇 )(如第一圖所示)以該 M394095 [3·1.6ΐ^Γ| 年月 電子經絡儀(1 Ο )並可以電線(i 3 )(如第二圖所示^^ 連接一電腦(4 0 ),施測者並手持檢測棒(3 〇 ),輕壓 党測者欲測之穴位,當該探針(3 2 )壓迫至穴位之壓力, 以彈性元件(3 1 )壓縮到彡1/3之壓力,而檢測到數據 時,就可以壓該檢測棒(3 〇 )上之按紅(3 3 )或觸控 該觸控開關,如此可將數據傳送至電腦(4 〇 )讀取數值 '•己錄之,使用上更為方便。而如果檢測棒(3 〇 )沒有設 按紐(3 3 ),則書寫記錄該數值。 參閱第-、四圖所示,人體之左右手與左右腳分別有 十二正經之原穴,量測時先將電子經絡儀(i ◦)開機後 暖機5分鐘,施測者手部穿戴棉質手套,將負極與檢測棒 (30) 4目碰觸’此時電子經絡儀(1 〇)的讀值為〇〇 表不杈正70成,再以酒精棉片清潔受測者手部及腳部皮膚, 將負極之銅棒(2 0 )或貼片供受測者握持或直接貼於掌 心,施測者握持檢測棒(3 〇 )係輕握即可,且勿直接碰 觸探針(3 2 )’請受測者將手輕置於施測者手掌之上,施 測者並以另一手持檢測棒(3 〇 )輕壓欲測之穴位,並讀 取數值記錄之。輕壓力量的大小以檢測棒(3 〇 )之探針 (3 2 )受壓後縮入三分之一為原則。 所述該探針(32)表面設有一表面處理層,以防止 探針(3 2 )表面氧化,該表面處理層可為一電鍍層。 所述該探針(3 2 )在壓縮至穩定壓力處設有一標記。 前文係針對本創作之較佳實施例為本創作之技術特徵 進行具體之說明;惟,熟悉此項技術之人士當可在不脫離 本創作之精神與原則下對本創作進行變更與修改,而該等 變更與修改,皆應涵蓋於如下申請專利範圍所界定之範疇 中。 【圖式簡單說明】 第-圖:係、本創作之其-實施例電子經絡儀配置圖。 第二圖:係本創作之檢測棒局部剖示圖。 第三圖:係本創作之檢測棒另-實施例之局部剖示圖 第四圖:係本創作之量測狀態示意圓。 【主要元件符號說明】 k 1 1 )電線 (1 3 )電線 (3 0 )檢測棒 (3 2 )探針 (3 3 )按鈕 (1 0 )電子經絡儀 (1 2 )電線 (2 0 )銅棒 (3 1 )彈性元件 (321)接觸面 (4 0 )電腦V. New description: L [New technology field] This creation department provides the technical field of electronic meridian instrument, especially the technology to provide an electronic meridian instrument detection rod structure. [Prior Art] According to the principle of the "human skin surface resistance measurement method", the hardware structure is basically a DC power supply, a resistor and a variable resistor in series, and a DC current meter. . During the measurement, the steel rod (negative electrode) is handed to the subject to be moderately held by one hand, and the test rod (positive electrode) is sequentially applied to the specific skin point (acupoint) of the subject by the tester. Only its s-test bar (positive) test method is wet measurement. In the past, in order to effectively reduce the skin resistance value and reduce the skin dry humidity effect, the good guide test electrode needs IM + W # by cotton staining. Wet to reduce skin resistance and facilitate detection. In the usual practice, most of the use of cotton wool, and free picking Ren Ren size plug detection terminal, resulting in cotton size, wetness, density, m tight and contact skin area shape and application of personnel to apply The degree of pressure' causes measurement errors. Therefore, in view of the problems existing in the above-mentioned conventional structure, how to develop an innovative structure with more ideal and practicality, the consumers are eagerly awaiting, and the relevant industry must strive to develop the goal and direction of breakthrough. In view of this, the creators have been engaged in the manufacturing development and design experience of related products from the eve of the evening. In response to the above-mentioned goal 1 plus design and careful evaluation, the author has finally achieved a practical and practical creation. [New content] Technical problems to be solved: The conventional test rod (positive) test method is wet measurement. In the past, in order to effectively reduce the skin resistance value and reduce the effect of skin dryness and humidity, the good guide test electrode needs to be used. Cotton is wet to reduce skin resistance and is good for detection. In general, most of the conventional cotton wool is used, and any size is inserted into the detection terminal, which results in the size, wetness, density, elasticity and contact skin area of the cotton. And the degree of pressure applied by the test personnel during operation causes measurement errors. Technical feature of solving the problem: providing a detection rod structure of an electronic meridian, comprising: an electron meridian, the electron meridian is respectively connected with a copper rod (negative electrode) and a detecting rod (positive electrode) by wires, the detecting rod The utility model comprises a resilient member abutting a probe disposed at a front end of the detecting rod, wherein a contact surface formed by the front end surface of the detecting rod has a diameter of 7 ram to 3 mm, and the contact surface is relatively small, and is suitable for precise contact of a small acupuncture point of the human body, The pressure of the probe pressed to the acupoint is compressed by the elastic element between 1/4 and 1/2 as a stable pressure, and the pressure of 1/3 is optimal and can maintain proper contact with the skin without shaking the hand of the tester. There is a deviation, the tester holds the test stick, gently presses the acupuncture points to be tested, and reads the numerical record. The detecting rod surface may be provided with a button or a touch switch, and the detecting rod can be connected with the computer, and when the button is pressed or the touch switch is touched, the detection data can be transmitted to the computer for recording. If there is no button,帛 Manual or computer software automatically (four) recorded. With this test, M3.94095 i : 彳; Ci rod is able to use dry measurement method, which is easier to operate and stable in measurement compared to the traditional wet measurement method. Compared with the efficacy of the prior art: the prior art is wet measurement, and the error is large, and the present invention provides a detection rod which is subjected to dry measurement, and the probe contact surface of the detection rod is small to match the position of the acupuncture point. Measurement, to avoid excessive contact with the skin, the detection rod and according to the degree of compression of the elastic element can judge the pressure applied by the tester, thereby achieving easier operation and more stable measurement & The techniques, means and functions used in this creation are described in a better example and the σ schema is described in detail. I believe that the above-mentioned objectives, structures and features of this creation can be specifically understood by H people. [Embodiment] As shown in the figure, the creation department provides the detection rod structure of Mai Yuedi, including: an electronic meridian (1 Q )'. The electronic meridian (1 〇) is connected by wires (11) and (12) respectively. a copper rod (negative electrode) (2 〇) and a detecting rod (positive electrode) (3 〇), the detecting rod (30) comprising - an elastic element (3 1 ) abutting a probe (3 2 ) is provided for the detection At the front end of the rod (3 〇), the contact surface (32 1 ) formed by the front end surface of the probe (32) of the detection rod (3 〇) has a diameter of 7 mm 〜 3 Between the contact surfaces (a 2 η is relatively small and suitable Then, the precise contact of the acupoints of the human body with the probe (2) 2) the force of pressing to the acupoint, compressing the elastic element (3 1 ) between 1/4 and 1/2 5 to stabilize the force, and shrinking 1/3 The pressure is optimal, and the tester holds the test rod (30), gently presses the acupuncture points to be tested, and reads the values. By means of the detection rod (30), it is possible to use the dry measurement method, that is, the measurement electrode is a dry electrode with a buffering property and a suitable surface treatment, and the (four) measurement method of the system is simpler and more convenient. The measured value is stable. The measurement is based on the original point of the ten-positive point, and the application of the resistance value of the original point in the syndrome differentiation of meridians and organs is discussed. This creation does not require the use of thirst that does not interfere with contact with the skin. The probe (32,) shrinks within 1/3 and controls the contact surface of the front end of the probe (3 2) (3': 1 ) Small, can be accurately pressed on the acupoints, will not be as large as the conventional contact surface, can not accurately measure the acupuncture points. Referring to the third figure, a cross-sectional view of another embodiment of the detecting rod, a front end of the detecting rod (30) is provided with an elastic member (a topping a probe (32), the detecting rod (3) 〇) The contact surface (321) formed by the front end face of the probe (32) is directly between the W3mm contact surface door 2 1 ) is quite small and is suitable for the fine contact of a small human acupuncture point, and the probe (32) is pressed The force to the acupoint is stabilized by compressing the elastic element (3 ι) between 1/4 and 1/2, so that the electrode can be in close contact with the skin, because the skin impedance is high, the skin and the probe can be avoided. 2) There is resistance. The compression pressure of 1/3 is optimal. The detection rod (3 〇) is provided with a button (3 3 ) or a touch switch, and the detection rod (3 〇) is connected to the electron meridian with the = line (1 2 ). (丄〇) (as shown in the first figure) with the M394095 [3·1.6ΐ^Γ| year month electronic meridian (1 Ο) and can wire (i 3) (as shown in the second figure ^^ Computer (40), the tester and hand-held test stick (3 〇), gently press the acupuncture points of the party tester, when the probe (3 2) is pressed to the pressure of the acupoint, compressed by the elastic element (3 1) When the pressure is 彡 1/3, and the data is detected, you can press the red (3 3 ) on the test stick (3 〇) or touch the touch switch, so that the data can be transmitted to the computer (4 〇 ) Reading the value '• Recorded, it is more convenient to use. If the detection bar (3 〇) does not have a button (3 3 ), write the value. Refer to the figures - and 4, human body The left and right hands and the left and right feet respectively have twelve original points. When measuring, the electronic meridian (i ◦) is turned on and warmed up for 5 minutes. The tester wears cotton gloves and the negative electrode and the detection rod ( 30) 4 eyes touched 'At this time, the reading value of the electronic meridian (1 〇) is not 70%, then the skin of the subject and the foot are cleaned with alcohol cotton, and the copper rod of the negative electrode is used. (2 0 ) or patch for the subject to hold or directly attached to the palm, the tester holding the test stick (3 〇) is lightly gripped, and do not directly touch the probe (3 2 )' The tester puts the hand lightly on the palm of the tester, and the tester gently presses the acupuncture point to be tested with another hand-held test stick (3 〇), and reads the value record. The amount of light pressure is used to detect the stick ( The probe (3 2 ) of the 3 〇) is compressed by one third of the principle. The surface of the probe (32) is provided with a surface treatment layer to prevent oxidation of the surface of the probe (3 2 ). The processing layer may be a plating layer. The probe (32) is provided with a mark at a compression to a stable pressure. The foregoing description of the preferred embodiment of the present invention is specifically described for the technical features of the present invention; Those who are familiar with the technology may make changes and modifications to the creation without departing from the spirit and principles of this creation, and such changes and modifications All should be covered in the scope defined by the following patent application scope. [Simplified description of the diagram] The first diagram: the system, the creation of the creation - the electronic meridian configuration diagram. The second diagram: the detection rod part of the creation Fig. 3: The detection bar of the present invention is another part of the embodiment. The fourth figure is the circle of the measurement state of the creation. [Main component symbol description] k 1 1 ) Wire (1) 3) Wire (3 0 ) Detection rod (3 2 ) Probe (3 3 ) Button (1 0 ) Electron Meridian (1 2 ) Wire (2 0 ) Copper rod (3 1 ) Elastic element (321) Contact surface ( 4 0 ) Computer