201208639 六、發明說明: 【發明所屬之技術領域】 本發明係提供-種磁熱治療用刺針,特別係指一翻用變 動磁場感應產生渦電流’並加熱於尖銳狀感磁導熱物質,使該 感磁導熱物質產生高熱,再以高熱燒灼組織與細胞,繼而產生 . 治療功效之磁熱治療用刺針。 【先前技術】 按’由於近杨精賴II及醫療技術發展突麟進,許多 以往必須開刀的職獅手術,已逐漸被高週舰瘤燒灼術 (RadiGfreq職y AblatiQn,職,或魅線賴率顧燒灼術/ , _紐治療)取代。職的原理是在超音波或電腦斷層的精 確導引下,將治療用的刺針穿過皮膚,插入須治療或去除之腫 瘤組織與細胞中,然後將刺針接上電源當電磁波㈤ • frequeney) 與細胞時’會造成組織與細胞中的成分因 電子激I而致摩擦,經由離子激化(i〇nagitation)進-步轉換成 熱此的形式’造成局部組織與細胞的凝固性壞死(coagulation necrosis) ’备展度達到攝氏6〇_1〇此時可以將脸瘤組織與細胞 完全滅除。 、’星查’RFA系統使用之刺針所需的熱能來自於電磁波所 提供’而此種探針之針管皆為金屬所製成,以便產生導引電磁 波之功能。惟’祕_金勤 1針在敎電磁舰量後會產生 201208639 而溫’因此刺針之針管内部須設置冷卻系統,以避免刺針整體 皆為高溫狀態而燒灼到不該燒灼的部位,因此,傳統的刺針之 針管都报粗大,而且刺針之造價頗為昂貴,以致RFA系統之 硬體設備成本一直居高不下。 後來遂有-種如第96146945號㈣專射請案所示之 「燒炙注射裝置」問世,該裝置主要係包含—中空針具,該針 具内部設-貫通孔卿^接注㈣,該針赠段為加熱段,加熱 段前端呈尖銳狀,而針具後段之外圍係包覆有絕熱層,以及加 ·、’、裝置該加熱裝置啟動後係可使針具加熱增溫。運用於燒灸 /。療時’可先透過二較位方式確認紐所在位置,再將該針 具前段之加熱段插入病灶之組織與細胞中,再啟動加熱裝置, 使加熱裝置之舰料續具前端,織無猶行燒灸, 並可透過注射器將藥劑經針具之貫通孔注入組織與細胞中,藉 由燒炙與藥劑產生相辅相成之療效。 惟’上述燒炙注射裝置之針具(以下簡稱習知針具)相較 於傳統RFA系統之刺針,該習知針具雖具有可注射藥劑及加 熱以提昇療效之優點,但同時也存在有以下數項問題及缺失: 1.針具之加熱速度緩慢:由於習知針具之加熱裝置係由 電熱線圈構成’其料可直接轉於針贼設置於把手部内, 再藉由熱傳導效應將熱能傳導至針具前端,然,由於該加孰裝 201208639 置距離針具前端加熱段之距_遠,因此餘傳遞須花費較長 時間,以致針具前端加熱速度過於緩慢。 2.針具之隔熱效果不佳:由於習知針具係时屬材料製 成中工針s並定義針具之前段為加熱段,針具之後段外圍則 覆上絕熱層以進行隔熱,但其絕熱層之厚度過薄,不易產生確 、實贿狀隔熱換言之,金屬針管之高溫仍會透過絕哉 . 層向外傳導。 μ 3.針具之熱傳距離過長··由於習知針具係先由金屬材料製 成中空針具,缝再於後段賴覆上絕歸,再加上其加熱方 • 式細加絲置騎具末齡行加熱,再彻金储料之熱傳 .特性慢慢向前端傳導’因此,習知針具極容易因為熱傳距離過 長’而導致習知針具須耗費較長時間才能將前端溫度提昇至所 需熱度’以及習知針具之前後段溫差過大,以致提昇隔熱困難 ρ 度之現象。 . 4.針具内部容易11 且塞:於習知針具為中空狀且在内部設 •—貫軌,因此,當針具刺穿皮膚再插人組織與細胞之過程 中’極容易產生人體組織或細胞經由針具前端開口進入貫通孔 内’造成貫通孔阻塞之現象。 有鏗於傳統針具之昂貴造價,與習知針具之種種問題,吾 等發明人特地構思研發一種有別於以往加熱方式之磁熱治療 201208639 用刺針’並在經過長期研發及不斷測試改良後有本發明問世。 【發明内容】 緣是,本發明所提供之磁熱治療用刺針,其主要係在解決 傳,,先針具领f卩貴,與習知針具之無法有效_、熱傳導距離 與時間過長,以及熱傳導效率不佳等問題。 本發明主要係提供-種磁熱治療關針該騎至少包含 、感磁導紐,域磁導熱段之前端成财尖銳狀針頭;一不 感磁導熱段,财__段伽瑪财式焊__導熱段 之後端。 :據上所述雜治拥撕,其巾,縣鱗熱段係金屬材 料製成之實心針,而不感磁隔熱段係非金㈣料製成之實心 棒該感磁導熱段與不導磁隔熱段之相鄰接端分別成型有徑向 插接域供插設之㈣簡,且插彻壁凹設_環齒槽,藉 之’該感轉熱段之插接段赌於减麵熱段之鋪中然後 施以硬焊’使㈣填充於插槽_之賴並形成固化令感磁 導熱段與不感磁隔熱段穩固結合。 據上所述磁熱治療用刺針’其中,該感磁導熱段係金屬材 料製成之實心針’而不感顧熱段麵金屬材料製成之實心 棒’該感磁導熱段與不感磁隔熱段之間設-空心金屬套環’該 感磁導熱段與錢磁導熱段制於套環之相祕端係分別成 6 201208639 型-,向插接段1不感磁導熱段之插接段外壁凹設一環齒 槽藉之該感磁導熱段之插接段插設於套環中並施以電焊結 口該不感磁隔熱段之插接段亦插設於套環中,接觸感磁導熱 段然後施以硬焊,使焊料填充於插接段外壁之齒槽中並形成固 化’令感磁導熱段、套環與不感磁隔熱段穩固結合。 、 據上所述磁熱治療用刺針,其中,該感磁導熱段之實心針 鲁 係為鐵氟龍、陶纽及金屬鑛膜或包覆於金屬材料所製成。 、據上所述磁熱治療用刺針,其中,該不感磁隔熱段於遠離 感磁導熱段之末職成型—徑向銜接段,贿接段外壁凹設一 - 環齒槽,且該銜接段外部係套設一塑膠管。 ,據上所述磁熱治療關針,其巾,該感鱗熱段係金屬材 料製成之實讀’域磁導熱段於朝向不導截熱段之鄰接端 ^ 财有徑向插接段,而不感磁隔熱段係非金屬材料製成之空心 ΐ該不感磁隔熱段於接近感磁導熱段—側之内壁凹設一環齒 槽’藉之’ §亥感磁冑熱段之插接段插言史於不感磁隔熱段中然後 知以硬焊’使焊料填充於不感磁隔熱段内壁之齒槽並形成固 化,令感磁祕段與不感磁隔熱段穩固結合。 據上所述磁熱治療用刺針,其中,該感磁導熱段係金屬材 料製成之實心針’該感磁導熱段於朝向不導磁隔熱段之鄰接端 成型有徑向插接段,而不感磁隔熱段係非金屬材料製成之空心 201208639 管,該不感磁隔熱段於接近感磁導熱段一側鑽設一徑向穿孔, 藉之,該感磁導熱段之插接段插設於不感磁隔熱段中,然後將 焊料填充於穿孔後施賴焊,使焊料賊磁導熱段焊固結合為 一體,令感磁導熱段與不感磁隔熱段穩固結合。 據上所述磁熱治療用刺針,其中,該感磁導熱段之實心針 係為鐵1龍、喊以及金屬鍍膜或包覆於金屬材料所製成。 據上所述磁熱治療用刺針,其中,該不感磁隔熱段於遠離 感磁導熱段之麵係細—徑向銜接段,該銜接段外壁凹設一 環齒槽,且該銜接段外部係套設一塑膠管。 據上所述磁熱治療用刺針,其中,該感磁導熱段係金屬材 料製成之空^針,·!域磁導熱段於朝向不導雜熱段之鄰接端 成型有徑向插接段’而不感磁隔熱段係非金屬材料製成之空心 管’該不感磁_段於接近感磁|熱段一側之内壁凹設一環齒 槽’藉之’賴磁賴段之插接段插設於不感雜熱段中然後 知以硬焊’使焊料填充於不感磁隔熱段内壁讀槽並形成固 化,令感磁導熱段與不感磁隔熱段穩固結合,並於感磁導熱段 與不感磁隔熱段内部形成相互貫通之通道,該通道中並插設一 實心金屬内針。 據上所述磁熱治療用刺針,其中,該感磁導熱段係金屬材 料製成之空心針减麵熱段係非金屬材料製成之空心 201208639 管,該感磁導熱段與不感磁隔熱段之間設有一空心金屬套環, 戎不感磁導熱段對應於套環之相祕端徑向減段,且 插接&外壁凹《又齒槽,藉之,該感磁導熱段與套環以端面 相互貼合並施以電焊形成結合’該不感磁隔熱段之插接段插設 於套環中織施以硬焊,使焊料·於插接段外壁之齒槽中並 、形成固化’令感磁導熱段、套環與不感磁隔熱段穩固結合,且 於感磁導触與不感侧熱段_形餘互貫通之通道,該通 Φ 道中並插設一實心金屬内針。 據上所述磁熱治療用刺針,其中,該感磁導熱段之空心針 助針係為峨龍、陶纽及金屬賴或包覆於金;I材料所製 心㈣ 針,其中,該不感磁隔熱段於遠離 ί: 端係成型—徑向銜接段,該銜接段外壁凹設一 θ且雜私外部麵設—瓣管,該轉管連社 :套頭,且該金屬内針係穿過塑膠套頭與塑膠管後插入』 藉以上处,本㈣她於舰 與病灶無關之組織及細胞, 員,並改善__使_齡雜熱, 201208639 於外科及内科手術,應用細較廣等優點及功效。 【實施方式】 關於本發明之齡手段,_數種可行實施娜合圖式於 下文進行詳細綱’俾供缸深人了職湖本發明。 如第一、一、二圖所示,本發明第-實施例係揭露-種磁 熱治療用刺針1 ’該刺針!至少包含前段之感磁導熱段n及 後段之不感磁隔熱段12,其中: 該感磁導熱段11係金屬材料(在此所述之金屬材料係為 不鏽鋼及其他感磁導熱類金屬,例如3〇〇系列、4〇〇系列或6〇〇 系列不鏽鋼,外表可加防沾黏鍍膜如鐵氟龍、陶瓷以及金屬鍍 膜或包覆)製成之實心針,其前端成型有尖銳狀針頭該感磁導 熱段11鄰接不感磁隔熱段12 —端係成型有徑向插接段1U ; 該不感磁隔熱段12係非金屬材料(在此所述之非金屬材 料係為陶竟材料或其他耐局溫之不導磁低導熱之材料,例如氧 化锆)製成之實心棒,該不導磁隔熱段12鄰接感磁導熱段11 一端係成型有供插設之徑向插槽121,且插槽121内壁凹設一 環齒槽122,該不感磁隔熱段12於遠離感磁導熱段11之末端 係成型一徑向銜接段123,該銜接段123外壁凹設一環齒槽 124,且該銜接段123外部係套設一塑膠管125,該銜接段123 與塑膠管125之間係可以黏膠加以結合。 201208639 關於第一實施例之結合狀態,主要係令感磁導熱段u之 插接段111插設於不感磁隔熱段12之插槽121中’然後以鋼 膏或其他熔點較低之材料作為焊料施以硬焊,使熔融狀焊料填 充於插槽121内壁之齒槽122,再經冷卻形成固化,令感磁導 熱段11與不感磁隔熱段12穩固結合,構成如圖所示之磁熱治 療用刺針1。 如第四、五、六圖所示,本發明第二實施例係揭露一種磁 鲁 熱治療用刺針2,該刺針2至少包含前段之感磁導熱段21、中 &之套環22及後段之不感磁隔熱段23 ’其中: ' 該感磁導熱段21係由金屬材料(在此所指之金屬材料係 、 為不鏽鋼及其他感磁導熱類金屬,例如300系列、400系列或 _系列不鏽鋼’外表可加防沾黏鍍膜如鐵氟龍、陶瓷以及金 屬鍍膜或包覆)製成之實心針,其前端成型有尖銳狀針頭,該 • 感磁導熱段21鄰接套環22 一端係成型有徑向插接段211 ; 該套環22亦係由金屬材料(在此所指之金屬材料係為不 鏽鋼及其他感磁導熱類金屬,例如系列、彻系列或_ 系列不鏽鋼)製成; 該不感磁隔熱段23係非金屬材料(在此所述之非金屬係 為陶竞材料或其他耐高溫之不導磁低導熱之材料,例如氧化 錯)製成之實心棒,該不感磁隔熱段23鄰接套環22 一端係成 201208639 型有徑向插接段231,且該插接段231外壁凹設一環齒槽232, 該不感磁隔熱段23於遠離感磁導熱段21之末端係成型一徑向 銜接段233,該銜接段233外壁凹設一環齒槽234,且該銜接 段233外部係套設一塑膠管235 ’該銜接段233與塑膠管235 之間係可以黏膠加以結合。 關於第二實施例之結合狀態’主要令感磁導熱段21之插 接段211插設於套環22中並施以電焊,使感磁導熱段21與套 環22先行結合,再將不感磁隔熱段23之插接段231插設於套 環22中,令不感磁隔熱段23接觸感磁導熱段21,然後以銅 膏或其他熔點較低之材料作為焊料施以硬焊,使熔融狀焊料填 充於插接段231外壁之齒槽232,再經冷卻形成固化,令感磁 導熱段21、套環22與不感磁隔熱段23穩固結合,構成如圖 所示之磁熱治療用刺針2。 如第七、八、九圖所示,本發明第三實施例係揭露一種磁 熱治療關針3,該撕3至少包含前段之感磁導熱段31及 後段之不感磁隔熱段32,其中: 該感磁導熱段31係金屬材料(在此所指之金屬材料係為 不鏽鋼及其他感磁導熱類金屬,例如3GG系列、4GG系列或6〇〇 系列不鏽鋼’外表可加防沾黏鍍膜如鐵氟龍、陶究以及金屬鍍 膜或包覆)製成之實心針’其前端成财魏狀針頭,該感礙 201208639 導熱段31於朝向不導磁隔熱段%之鄰接端成型有徑向插接段 311 ; 該不感磁隔熱段32係非金屬材料(在此所述之非金屬係 為陶瓷材料或其他耐高溫之不導磁低導熱之材料,例如氧化 鍅)製成之空心管,該不感磁隔熱段32於接近感磁導熱段31 . 一侧之内壁凹設一環齒槽321 ,該不感磁隔熱段32於遠離感 磁導熱段31之末端係成型一徑向銜接段322,該銜接段322 * 外壁凹設一環齒槽323,且該銜接段322外部係套設一塑膠管 324,該銜接段322與塑膠管324之間係可以黏膠加以結合。 . 關於第三實施例之結合狀態,主要令感磁導熱段31之插 . 接段311插設於不感磁隔熱段32中,然後以銅膏或其他熔點 較低之材料作為焊料施以硬焊,使熔雜焊料填充於不感磁隔 熱段32内壁之齒槽切,再經冷卻形成固化,令感磁導熱段 • 31與不感磁隔熱段32翻結合’構成如第圖所示之磁熱治療 用刺針3。 ·… ' 如第十、十一、十二圖所示,本發明第四實施例係揭露一 種磁熱治療用刺針4,該刺針4至少包含前段之感磁導熱段41 及後段之不感磁隔熱段42,其中: 該感磁導熱段41係金屬材料(在此所指之金屬材料係為 不鏽鋼及其他感磁導熱類金屬,例如3〇〇系列、伽系列或_ 13 201208639 系列不鏽鋼,外表可加防沾黏鍍膜如鐵氟龍、陶瓷以及金屬鍵 膜或包覆)製成之實心針,其前端成型有尖銳狀針頭,該感磁 導熱段41於朝向不導磁隔熱段42之鄰接端成型有徑向插接段 411 ; 該不感磁隔熱段42係非金屬材料(在此所述之非金屬係 為陶瓷材料或其他耐高溫之不導磁低導熱之材料,例如氧化 . 锆)製成之空心管,該不感磁隔熱段42於接近感磁導熱段41 一側鑽设一徑向穿孔421,該不感磁隔熱段42於遠離感磁導 參 熱段41之末端係成型一徑向銜接段422,該銜接段422外壁 凹設一環齒槽423 ’且該銜接段422外部係套設一塑膠管424, 該銜接段422與塑膠管424之間係可以黏膠加以結合。 .201208639 VI. Description of the Invention: [Technical Field] The present invention provides a magnetic heat treatment needle, in particular, a method of inducing an eddy current by a variable magnetic field and heating it to a sharp magnetically sensitive substance such that The magnetically sensitive material generates high heat, and then burns the tissue and cells with high heat, which is then produced. The therapeutic effect of the magnetic heat treatment with a needle. [Prior Art] According to the recent development of the lion lions and the medical technology, many lion lion surgery that had to be opened in the past has been gradually burned by the high-altitude ship (RadiGfreq y AblatiQn, position, or charm line Rate of cauterization /, _ New treatment) replaced. The principle of the job is to pass the therapeutic needle through the skin, insert the tumor tissue and cells to be treated or removed, and then connect the needle to the power source as electromagnetic waves (5) • frequeney) When the cells are 'will cause the tissue and the components in the cells to be rubbed by the electrons, I will be converted into the form of heat by ionization", causing coagulation necrosis of local tissues and cells. 'The preparation degree reaches 6〇_1摄, and the face tissue and cells can be completely eliminated. The thermal energy required for the lancet used in the 'Star Check' RFA system comes from the electromagnetic wave provided by the 'the needle of the probe is made of metal to generate the function of guiding electromagnetic waves. However, the 'secret _ Jinqin 1 needle will produce 201208639 after the electromagnetic quantity, and the temperature will be set. Therefore, the cooling system should be set inside the needle of the needle to avoid the whole needle being hot and burned to the part that should not be burned. Therefore, the traditional The needles of the needles are reported to be large, and the cost of the needles is quite expensive, so that the cost of the hardware of the RFA system has been high. Later, there was a kind of "burning injection device" as shown in No. 96146945 (4). The device mainly consists of a hollow needle, which is internally provided with a through hole and a hole (4). The needle gift segment is a heating segment, the front end of the heating segment is sharp, and the outer portion of the rear portion of the needle is covered with a heat insulating layer, and the heating device is heated to increase the temperature after the heating device is activated. Used in burning moxibustion /. At the time of treatment, the position of the button can be confirmed by the second bitwise method, and then the heating segment of the front segment of the needle is inserted into the tissue and cells of the lesion, and then the heating device is activated, so that the ship material of the heating device has a front end and is woven. The moxibustion moxibustion can be used to inject the medicament into the tissue and the cells through the through-hole of the needle through a syringe, and the curative effect is complemented by the burning of the medicament. However, the needle of the above-mentioned burning injection device (hereinafter referred to as the conventional needle) is superior to the needle of the conventional RFA system, and the conventional needle has the advantages of injectable medicament and heating to enhance the therapeutic effect, but there are also The following problems and defects: 1. The heating speed of the needle is slow: because the heating device of the conventional needle is composed of electric heating coils, the material can be directly transferred to the needle thief and placed in the handle portion, and then the heat is transferred by the heat conduction effect. Conducted to the front end of the needle, however, since the length of the front end heating section of the needle is set to 2020, the excess transmission takes a long time, so that the front end heating speed of the needle is too slow. 2. The thermal insulation effect of the needle is not good: since the conventional needle is made of material and the middle part of the needle is defined as the heating section, the outer part of the needle is covered with a heat insulation layer for heat insulation. However, the thickness of the thermal insulation layer is too thin, and it is not easy to produce a true and brittle heat insulation. In other words, the high temperature of the metal needle tube will still pass through the layer. μ 3. The heat transfer distance of the needle is too long. · Because the conventional needle is made of a hollow needle made of metal material, the seam is then applied to the back section, and the heating method is added. The rider is heated at the end of the ride, and then the heat transfer of the gold stock is stored. The characteristic is slowly transmitted to the front end. Therefore, it is very easy for the conventional needle to take a long time because the heat transfer distance is too long. In order to raise the temperature of the front end to the required heat' and the temperature difference between the front and the back of the conventional needle is too large, it is difficult to increase the heat resistance. 4. The inside of the needle is easy to be 11 and plugged: the conventional needle is hollow and has an internal rail. Therefore, when the needle pierces the skin and inserts the tissue and the cells, it is very easy to produce the human body. The tissue or cells enter the through-hole through the opening of the needle tip end, causing the through-hole to block. In spite of the high cost of traditional needles and the problems of the conventional needles, our inventors specially conceived to develop a magnetothermal treatment 201208639 with a different type of heating method, and after long-term research and development and continuous testing and improvement The invention is later available. SUMMARY OF THE INVENTION The reason is that the magnetic heat treatment lancet provided by the present invention mainly solves the problem, and the first needle has a high cost, and the conventional needle has no effect. The heat conduction distance and the time are too long. And problems such as poor heat transfer efficiency. The invention mainly provides a magnetic heat treatment needle, the ride includes at least a magnetic induction guide, and the front end of the magnetic heat conduction section is a sharp needle; the non-magnetic heat conduction section, the __ segment gamma wealth welding _ _The rear end of the thermal conduction section. According to the above-mentioned miscellaneous treatment, the towel, the county scale hot section is a solid needle made of metal material, and the non-magnetic insulation section is a solid rod made of non-gold (four) material. The magnetic conductive section and the non-conductive The adjacent ends of the magnetic insulating section are respectively formed with a radial plugging domain for inserting (4) simple, and the wall recessed _ ring tooth groove is inserted, and the plugging section of the heat transfer section is gambling The surface of the hot section is then brazed to make (4) fill the slot and form a solidification so that the magnetically conductive section is firmly bonded to the non-magnetic insulation section. According to the magnetic heat treatment lancet described above, wherein the magnetically permeable heat-conducting section is a solid needle made of a metal material, and does not care for a solid rod made of a hot-spot metal material. The magnetically conductive section and the non-magnetic heat insulation Between the segments, a hollow metal collar is formed. The magnetic heat conduction section and the magnetic heat conduction section are formed in the secret end of the collar into 6 201208639 type, and the outer wall of the plug section of the non-magnetic conduction section of the plug section 1 The insertion of the magnetically conductive section of the magnetically conductive section is inserted into the collar and the electric welding junction is applied. The insertion section of the non-magnetic insulating section is also inserted into the collar to contact the magnetic heat conduction. The segments are then brazed to fill the solder in the slots of the outer wall of the plug-in section and form a solidified portion to stabilize the magnetically conductive section, the collar and the non-magnetically insulating section. According to the magnetic heat treatment lancet described above, the solid needle of the galvanic heat conduction section is made of Teflon, Taonu and metal mineral film or coated with a metal material. According to the magnetic heat treatment lancet, the non-magnetic insulation section is formed at a distal end away from the magnetically conductive section, the radial connection section, and the outer wall of the bridging section is recessed with a ring groove, and the connection is The outer part of the section is provided with a plastic tube. According to the magnetic heat treatment of the needle, the towel is made of a metal material made of a metal material, and the magnetic heat conduction section is formed at abutting end of the non-conductive heat intercepting section. The non-magnetic insulating section is a hollow made of non-metallic material. The non-magnetic insulating section is adjacent to the magnetically sensitive section—the inner wall of the side is recessed with a ring groove. The splicing inserts are known in the non-magnetic insulating section and then known to braze the solder to fill the slots of the inner wall of the non-magnetic insulating section and form a solidification, so that the magnetic sensitive segment and the non-magnetic insulating section are firmly combined. According to the magnetic heat treatment lancet, wherein the magnetically permeable heat-conducting section is a solid needle made of a metal material, and the galvanic heat-conducting section is formed with a radial insertion section at an adjacent end facing the non-magnetic heat insulating section. The non-magnetic insulating section is a hollow 201208639 tube made of a non-metallic material, and the non-magnetic insulating section is drilled with a radial perforation on a side close to the magnetically sensitive section, whereby the plugging section of the magnetically conductive section is Inserted in the non-magnetic insulation section, and then the solder is filled in the perforation and then welded, so that the solder thief magnetic heat conduction section is welded and integrated into one body, so that the sensible heat conduction section and the non-magnetic insulation section are firmly combined. According to the magnetic heat treatment lancet described above, the solid needle of the galvanic heat conduction section is made of iron 1 dragon, shouting, and metal plating or coating on a metal material. According to the magnetic heat treatment lancet, wherein the non-magnetic insulation section is a thin-radial connection section away from the surface of the susceptive heat conduction section, the outer wall of the connection section is recessed with a ring tooth groove, and the external part of the connection section Set a plastic tube. According to the magnetic heat treatment lancet described above, wherein the magnetically permeable heat-conducting section is made of a metal material, and the magnetic heat-conducting section is formed with a radial insertion section at an adjacent end of the non-conductive heat-heating section. 'The non-magnetic insulation section is a hollow tube made of non-metallic material'. This is not magnetically sensitive. The section is close to the magnetic field. The inner wall of the hot section is recessed with a ring groove. Inserted in the non-heat-sensitive section and then known to be brazed to fill the inner wall of the non-magnetic insulation section and form a solidification, so that the sensible heat conduction section and the non-magnetic insulation section are firmly combined, and in the sensible heat conduction section A channel is formed through the interior of the non-magnetic insulating section, and a solid metal inner needle is inserted into the channel. According to the magnetic heat treatment lancet, the magnetic heat conduction section is made of a metal material, and the hollow needle reduction surface heat section is a hollow 201208639 tube made of a non-metal material, and the magnetic heat conduction section and the non-magnetic heat insulation layer are A hollow metal collar is arranged between the segments, and the non-magnetically conductive section corresponds to the radial reduction of the secret end of the collar, and the plugging & outer wall concave is further a cogging, by which the magnetic conductive section and the sleeve are The ring is bonded to each other by an end face and is welded to form a joint. The plug portion of the non-magnetic insulating layer is inserted into the collar to be brazed to make the solder in the tooth groove of the outer wall of the plugging section and form a solidification. 'The magnetically conductive section, the collar and the non-magnetic insulation section are firmly combined, and a solid metal inner needle is inserted into the passage of the magnetic contact and the non-sensing side heat section. According to the magnetic heat treatment lancet, the hollow needle assisting needle of the magnetic sensitive section is 峨龙, 陶纽和金属赖 or coated with gold; I material is made of heart (four) needle, wherein the feeling The magnetic insulation section is away from the ί: end-forming-radial joint section, the outer wall of the joint section is recessed with a θ and the outer surface of the joint is provided with a valve tube, and the tube is connected with a sleeve, and the metal needle is worn. After inserting the plastic sleeve and the plastic tube, I borrowed the above, this (4) her organization and cells unrelated to the lesion, and improved __ to make the age of miscellaneous heat, 201208639 in surgical and internal surgery, the application is more extensive, etc. Advantages and effects. [Embodiment] Regarding the ageing means of the present invention, a number of feasible implementations of the Nahe diagram are described below in detail. As shown in the first, first and second figures, the first embodiment of the present invention discloses a needle for magnetic heat treatment 1''. The non-magnetic thermal insulation section 12 of the magnetic heat conduction section n and the rear section of the front stage is at least included, wherein: the magnetic heat conduction section 11 is a metal material (the metal material described herein is stainless steel and other magnetically conductive metal, such as 3〇〇 series, 4〇〇 series or 6〇〇 series stainless steel, solid needles can be added with anti-adhesive coating such as Teflon, ceramic and metal coating or coating. The front end is formed with sharp needle. The magnetically sensitive heat conducting section 11 is adjacent to the non-magnetic insulating section 12 - the end is formed with a radial plugging section 1U; the non-magnetic insulating section 12 is a non-metallic material (the non-metallic material described herein is a ceramic material or Another solid rod made of a non-magnetic low-conductivity material, such as zirconia, which is resistant to local temperature, is adjacent to the magnetically conductive section 11 and has a radial slot 121 for insertion. The inner wall of the slot 121 is recessed with a ring-shaped slot 122. The non-magnetic heat-insulating section 12 is formed with a radial connecting portion 123 at a distal end of the magnetically-sensitive heat-conducting section 11. The outer wall of the connecting section 123 is recessed with a ring-shaped slot 124. And the outer portion of the connecting portion 123 is sleeved with a plastic tube 125, and the connection The segment 123 and the plastic tube 125 can be bonded by a glue. 201208639 Regarding the combined state of the first embodiment, the plugging section 111 of the magnetically sensitive heat conducting section u is mainly inserted in the slot 121 of the non-magnetic insulating section 12 and then used as a steel paste or other material having a lower melting point. The solder is brazed so that the molten solder is filled in the slots 122 of the inner wall of the slot 121, and then solidified by cooling, so that the magnetically conductive portion 11 and the non-magnetic insulating portion 12 are firmly combined to form a magnetic body as shown in the figure. Hot treatment with a needle 1. As shown in the fourth, fifth and sixth figures, the second embodiment of the present invention discloses a magnetic lustrous treatment lancet 2, the lancet 2 comprising at least a sensible magnetic heat conduction section 21, a middle & collar 22 and a rear section The non-magnetic insulation section 23 'where: ' The magnetically conductive section 21 is made of a metal material (herein referred to as a metal material, stainless steel and other magnetically conductive metals such as 300 series, 400 series or _ series) The stainless steel 'appears can be coated with anti-adhesive coating such as Teflon, ceramic and metal coating or coating. The solid needle is formed at the front end with a sharp needle. The magnetically sensitive section 21 is adjacent to the end of the collar 22. a radial insertion section 211; the collar 22 is also made of a metal material (the metal material referred to herein is stainless steel and other magnetically conductive metal such as series, series or _ series stainless steel); Non-magnetic insulating section 23 is a non-metallic material (the non-metal type described herein is a solid rod made of Tao Jing material or other high temperature resistant non-magnetic low thermal conductivity material, such as oxidation error), and the non-magnetic isolation The hot section 23 is adjacent to the end of the collar 22 The type 201208639 has a radial insertion section 231, and a ring-shaped tooth groove 232 is recessed in the outer wall of the insertion section 231, and the non-magnetic insulation section 23 forms a radial engagement section 233 at the end away from the magnetic conductive heat-transfer section 21, A ring groove 234 is defined in the outer wall of the connecting portion 233, and a plastic tube 235 is disposed on the outer portion of the connecting portion 233. The connecting portion 233 and the plastic tube 235 are adhesively bonded. Regarding the combined state of the second embodiment, the plugging section 211 of the magnetically sensitive heat conducting section 21 is mainly inserted into the collar 22 and subjected to electric welding, so that the magnetic conductive heat conducting section 21 and the collar 22 are combined first, and then the magnetic field is not magnetized. The plugging portion 231 of the heat insulating portion 23 is inserted into the collar 22, so that the non-magnetic insulating portion 23 contacts the magnetically conductive portion 21, and then the solder is applied as a solder with a copper paste or other material having a lower melting point. The molten solder is filled in the tooth gap 232 of the outer wall of the plugging section 231, and then solidified by cooling, so that the magnetic heat conductive section 21, the collar 22 and the non-magnetic insulating section 23 are firmly combined to form a magnetocaloric treatment as shown in the figure. Use a needle 2. As shown in the seventh, eighth, and ninth embodiments, a third embodiment of the present invention discloses a magnetocaloric treatment needle 3, which includes at least a magnetic heat conduction section 31 of a front stage and a non-magnetic insulation section 32 of a rear stage, wherein : The magnetically conductive section 31 is a metal material (the metal material referred to herein is stainless steel and other magnetically conductive metal, such as 3GG series, 4GG series or 6〇〇 series stainless steel), and an anti-adhesion coating can be added. The solid needle made of Teflon, ceramics and metal coating or coating has its front end into a wealthy needle, which hinders the 201208639 thermal conduction section 31 from forming a radial direction at the adjacent end of the non-magnetic insulation section. The plugging section 311; the non-magnetic insulating section 32 is a hollow tube made of a non-metallic material (the non-metal type described herein is a ceramic material or other high temperature resistant non-magnetic low thermal conductivity material such as cerium oxide). The non-magnetic heat insulating section 32 is adjacent to the magnetic conductive heat conducting section 31. A ring tooth groove 321 is recessed in the inner wall of one side, and the non-magnetic insulating heat insulating section 32 forms a radial connecting section at the end away from the magnetic conductive heat conducting section 31. 322, the connecting portion 322 * is recessed with a ring groove 323 in the outer wall. A plastic tube 324 is disposed on the outer portion of the connecting portion 322, and the connecting portion 322 and the plastic tube 324 are adhesively bonded. Regarding the combined state of the third embodiment, the plug portion 311 of the magnetic conductive heat conducting portion 31 is mainly inserted in the non-magnetic insulating portion 32, and then the solder is applied as a solder with a copper paste or other material having a lower melting point. Welding, so that the molten solder is filled in the slots of the inner wall of the non-magnetic insulating section 32, and then solidified by cooling, so that the magnetically conductive section 31 and the non-magnetic insulating section 32 are combined to form a structure as shown in the figure. Magnetic heat treatment with a needle 3. As shown in the tenth, eleventh and twelfth drawings, a fourth embodiment of the present invention discloses a magnetic heat treatment lancet 4, which comprises at least a magnetically sensitive section 41 of the front section and a non-magnetic separation of the rear section. The heat segment 42, wherein: the magnetically permeable heat conductive segment 41 is a metal material (the metal material referred to herein is stainless steel and other magnetic conductive metal materials, such as 3 〇〇 series, gamma series or _ 13 201208639 series stainless steel, appearance A solid needle made of an anti-adhesive coating such as Teflon, ceramic, and a metal key film or a coating is formed with a sharp needle at the front end thereof, and the magnetically conductive portion 41 faces the non-magnetic heat insulating portion 42. The abutting end is formed with a radial plugging section 411; the non-magnetic insulating section 42 is a non-metallic material (the non-metal described herein is a ceramic material or other high temperature resistant non-magnetic low thermal conductivity material, such as oxidation. a hollow tube made of zirconium), the non-magnetic insulating portion 42 is drilled with a radial perforation 421 on the side close to the magnetically sensitive portion 41, and the non-magnetic insulating portion 42 is away from the end of the magnetically sensitive portion 41. Forming a radial engaging section 422, the outer wall of the engaging section 422 A ring disposed gullets 423 'and the engaging section 422 is provided outside a plastic jacket pipe line 424, the interface between the tube 424 and plastic section 422 based glue can be combined. .
關於第四實施例之結合狀態,主要令感磁導熱段41之插 接段411插設於不感磁隔熱段42中,然後以不鑛鋼或其他金 屬或焊條作為焊料,並將焊料填充於穿孔421後施以點焊使 焊料與感磁導熱段41焊固結合為一體,令感磁導熱㈣與不 感磁隔熱段42穩固結合’構成如圖所示之磁熱治療用刺針4。 二、十四、十五圖所示,本發明第五實施例係 -種磁熱祕_針5,關触少包含祕之感磁導 51、後段之不感磁隔熱段52,及插設於感鱗熱段51與. 磁隔熱段52内部之内針53,其中: 201208639 该感磁導熱段51係金屬材料(在此所指之金屬材料係為 不鏽鋼及其他感磁導熱類金屬’例如3〇〇系列、4〇〇系列或6⑻ 系列不鏽鋼,外表可加防絲鍍麻鐵錢^以及金屬錄 膜或包覆)製成之空心針,其前端成型有尖銳狀針頭,該感磁 導熱段51於朝向不導磁隔熱段52之鄰接端成型有徑向插接段 511 ; 該不感磁隔熱段52係非金屬材料(在此所述之非金屬係 為陶瓷材料或其他耐尚溫之不導磁低導熱之材料,例如氧化 锆)製成之空心管,該不感磁隔熱段52於接近感磁導熱段51 一側之内壁凹設一環齒槽521,該不感磁隔熱段52於遠離感 磁導熱段51之末端係成型一徑向銜接段522,該銜接段522 外壁凹設一環齒槽523,且該銜接段522外部係套設一塑膠管 524,該塑膠管524連結一塑膠套頭525,該銜接段522與塑 膠管524之間係可以黏膠加以結合; 該内針53係金屬材料(在此所指之金屬材料係為不義 及其他感磁導熱類金屬,例如3〇〇系列、4〇〇系列或6〇〇系列 不鑛鋼,外表可加防_賴如鐵氟龍、喊以及金屬錢膜或 包覆)製成之實心針,該内針53係可由後端經過塑膠套頭525 與塑膠管524,再插言史於不感磁隔熱段52與感磁導熱段51中。 關於第五實施例之結合狀態,主要令該感磁導熱段5ι之 15 201208639 插接段511插設於减顧熱段52巾,然後以辨或其麟 點較低之材料作為焊料施以硬焊,使熔融狀焊料填充於不感磁 隔熱段52内壁之齒槽521,再經冷卻形成固化,令感磁導熱 段51與不感磁隔熱段52翻結合,並於感磁導 51與不 感磁隔熱段52内部形成相互貫通之通道,再將内針幻穿^塑 膠套頭525與塑膠管524,最後插設於該通道中,使内針% 插設於不__段51械麟熱段52 _,即構成如圖所 示之磁熱治療用刺針5。 如第十六、十七、权騎示,本發明第六實施例係揭露 一種磁熱治療_針6 ’該刺針至少包含前段之感磁導熱段 61、中段之麵62與後段之«磁隔熱段63,及插設於感磁 導熱段6卜套環62與不感磁隔熱段63内部之内針64,其中: 韻磁導熱段Μ係金屬材料(在此所指之金屬材料係為 不錯鋼及其他感磁導熱類金屬,例如300系列、侧系列或_ 系列不錄鋼’外表可加防沾黏麵如鐵氟龍、陶究以及金屬鍍 膜或包覆)製成之空心針,其前端成型有尖銳狀針頭,該感磁 導.’、J又61於朝向不導雜熱段62之祕端細雜向插接段 611 ; 亥套% 62亦係由金屬材料(在此所指之金屬材料係為不 鑛鋼及其他感磁導熱類金>1,例如3GG系列、4GG系列或6〇〇 201208639 系列不鏽鋼)製成; 該不感磁隔熱段63係非金屬材料(在此所述之非金屬係 為陶瓷材料或其他耐高溫之不導磁低導熱之材料,例如氧化 锆)製成之空心管,該不感磁隔熱段63鄰接套環62 一端係成 型有徑向插接段631,且該插接段631外壁凹設一環齒槽632, 該不感磁隔熱段63於遠離感磁導熱段61之末端係成型一徑向 銜接段633,該銜接段633外壁凹設一環齒槽634,且該銜接 • 段633外部係套設一塑膠管635,該塑膠管635連結一塑膠套 頭636’該銜接段633與塑膠管635之間係可以黏膠加以結合; * _針64係金屬材料(在此所指之金屬材料係為不鏽鋼 ' 及其他感磁導熱類金屬,例如300系列、400系列或6〇〇系列 不鏽鋼,外表可加防沾黏鍍膜如鐵氟龍、陶瓷以及金屬鍍臈或 包覆)製成之實心針,該内針64係可由後端經過塑膠套頭636 • 與塑膠管635,再插設於不感磁隔熱段63、套環62與感磁導 熱段61中。 關於第六實施例之結合狀態,主要令該感磁導熱段6ι之 插接段611插設於套環62中並施以電焊,使感磁導熱段61與 套環62先行結合,再將該不感磁隔熱段63之插接段63ι插設 於套環62中’然後以銅膏或其他溶點較低之材料作為焊料施 以硬焊,使熔融狀焊料填充於插階段631外壁之齒槽62 ,八 17 201208639 感磁導熱#又61、套環62與不感磁隔熱段幻穩固結合,且於 感磁導熱段61、套環62與不感磁隔熱段63内部形成相互貫 通之通道’再將内針64穿入塑膠套頭636與塑膠管635 ,最 後插认於。玄通道中,使内針64插設於不感磁隔熱段Μ、套環 62與感磁導熱段63内部,即構成如第十一、十二圖所示之磁 熱治療用刺針6。 藉由以上說明可知本發明之優點及功效在於: 1.可適度增加探針長度:本發明之探針射適用於外科 與内科’奴麟⑽軸燒灼祕時,若雜錄位於人體 腹腔内部,峨探針必觀全插峰透過减顧熱段末端 設置塑膠管之構造,可適度增長探針之長度,使雜針可運用 於人體之深層部位。 2.可針對感磁料段進行加熱:由於本發明之加熱原理 係利用在探針朋造成磁場,_過變動磁場來感應可感磁物 質,以產生渦電流並加熱可感磁物質產生高溫,因此,當探針 周圍磁碰生㈣,僅杨段之感辦熱段會錢產生高熱而 已’後段之不感磁隔熱段並不會有溫度上的變化,故本發明不 僅加熱原理異於胃知之直接鱗,更具有可騎祕導熱段進 行加熱,使熱度集中不會向外傳遞之作用。 3·探針加熱速度快:由於本發明係直接對探針前段之不 201208639 鐵鋼及其他感磁導熱類金屬進行域,因此可控制令不錄鋼及 其他感磁導熱類金屬快速提升輯需温度,不僅縮減加熱時 間,並可確保感磁隔熱段保持均溫。 4. 可杜絕熱度傳導:由於本發明之探針後段之不感磁隔 熱段係由陶竟材料或其他财高溫之不導磁低導熱之材料製 成’因此,前段之感磁導熱段所產生之高溫不會傳導至後段之 不感磁隔熱段’且無發生高溫料以輯财應燒觸組織與 細胞’或燙傷醫護人員之虞。 、 5. 防止探針產生阻塞並可注射藥物:由於本發明之實施 例為空心探針時’其内部通道係插設—内針以填滿該通道,因 此’當空罐針刺在穿皮膚再插人組織與細胞之過程中,可以 避免組織或細猶人探仙部,可防止造成貫通姐塞之現 象’且當完成燒灼治療後並可將内針抽出,此時便可注射藥物 經探針傳送到達該組織與細胞以提昇療效。 絲上所述,本發明所揭露之技術手段確可達致預期之目的 與功效且具長遠進步性,誠屬可供產業上利用之發明無誤,爰 依法提出申請,懇祈耻惠予詳審並賜准發明專利,至^| 馨。 准X上所述者,僅為本發明之較佳實施例,當不能以此限 疋本發月實知之範圍,即大凡依本發明申請專利範圍及發明說 201208639 應仍屬本發明專利涵蓋之 明書内容所作之等效變化與修飾 範圍内。 【圖式簡單說明】 第-圖係本發明第—實施例之立體分解示意圖。 第二圖係本發明第—實施例之組合平面示意圖。 第三圖係本發明第—實施例之組合剖視示意圖。 第四圖係本判第二實關之立體分解示意圖。 第五圖係本發㈣二實關之組合平面示意圖。 第六圖係本發明第二實施例之組合剖視示意圖。 第七圖係本發明第三實施例之立體分解示意圖。 第八圖係本發明第三實施例之組合平面示意圖。 第九圖係本發明第三實施例之組合剖視示意圖。 第十圖係本發明第四實施例之立體分解示意圖。 第十-圖係本發明第四實施例之組合平面示意圖。 第十二圖係本發日料四實關之組合剖視示意圖。 第十三圖係本發明第五實施例之立體分解示意圖。 20 201208639 第十四圖係本發明第五實施例之組合平面示意圖。 第十五圖係本發明第五實施例之組合剖視示意圖。 第十六圖係本發明第六實施例之立體分解示意圖。 第十七圖係本發明第六實施例之組合平面示意圖。 第十八圖係本發明第六實施例之組合剖視示意圖。 蠢 【主要元件符號說明】 刺針 11-感磁導熱段 111-插接段 不感磁隔熱段 121-插槽 122—齒槽 123-銜接段 124—齒槽 125—塑膠管 2—刺針 21-感磁導熱段 211-插接段 22-套環 23-不感磁隔熱段 231 -插接段 232--齒槽 233-銜接段 234-齒槽 235-塑膠管 3—刺針 31-感磁導熱段 311-插接段 32--不感磁隔熱段 321-# 槽 322 -銜接段 323--齒槽 324-塑膠管 4--刺針 41-感磁導熱段 411-插接段 42-不感磁隔熱段 421-穿孔 422-銜接段 423—齒槽 424—塑膠管 5-刺針 21 201208639 51-感磁導熱段 511-插接段 521-齒槽 522-銜接段 524-塑膠管 525-塑膠套頭 61-感磁導熱段 611-插階段 63-不感磁隔熱段 631-插接段 633-銜接段 634-齒槽 636--塑膠套頭 52-不感磁隔熱段 523--齒槽 6-刺針 62-套環 632-齒槽 635—塑膠管 22Regarding the combined state of the fourth embodiment, the plugging section 411 of the magnetically sensitive heat conducting section 41 is mainly inserted in the non-magnetic insulating section 42, and then the non-mineral steel or other metal or welding rod is used as the solder, and the solder is filled in After the perforation 421 is applied by spot welding, the solder is welded and integrated with the magnetically conductive portion 41, and the magnetically conductive heat conduction (4) is firmly combined with the non-magnetic insulating portion 42 to form the magnetocaloric needle 4 as shown. As shown in the fourth, fourteenth and fifteenth figures, the fifth embodiment of the present invention is a type of magnetic heat secret_pin 5, which includes less sensitive magnetic flux 51, non-magnetic insulating section 52 of the rear stage, and insertion. The inner needle 53 of the inner portion of the magnetic thermal insulation section 52, wherein: the magnetic sensitive section 51 is a metal material (the metal material referred to herein is stainless steel and other magnetic conductive metal) For example, 3〇〇 series, 4〇〇 series or 6(8) series stainless steel, the outer surface can be added with anti-wire coated iron iron ^ and metal film or coated) hollow needle, the front end is formed with a sharp needle, the magnetic The heat conducting section 51 is formed with a radial plugging section 511 at an adjacent end facing the non-magnetic heat insulating section 52; the non-magnetic insulating section 52 is a non-metallic material (the non-metal system described herein is a ceramic material or other resistant a hollow tube made of a material that is not magnetically conductive and has a low thermal conductivity, such as zirconia, and the non-magnetic insulating portion 52 is recessed with a ring groove 521 on the inner wall of the side close to the magnetically conductive portion 51. The heat segment 52 forms a radial engaging portion 522 at a distal end of the magnetically sensitive portion 51, and the engaging portion 522 A plastic grooved tube 524 is disposed on the outer wall of the connecting portion 522, and the plastic tube 524 is coupled to a plastic sleeve 525. The connecting portion 522 and the plastic tube 524 are adhesively coupled; The inner needle 53 is a metal material (the metal material referred to herein is an unsuitable and other magnetically conductive metal such as 3 〇〇 series, 4 〇〇 series or 6 〇〇 series non-mineral steel, and the appearance can be added to prevent _ _ Such as a solid needle made of Teflon, shouting and metal money film or coating, the inner needle 53 can pass through the plastic sleeve 525 and the plastic tube 524 from the rear end, and then insert the history of the non-magnetic insulation section 52 and sense In the magnetic heat conduction section 51. With regard to the combined state of the fifth embodiment, the magnetically conductive section 5 2012 15 201208639 plug section 511 is mainly inserted in the heat-reducing section 52, and then the material is identified as a solder with a lower material or a lower point. Welding, the molten solder is filled in the tooth groove 521 of the inner wall of the non-magnetic insulating section 52, and then solidified by cooling, so that the magnetic heat conductive section 51 is combined with the non-magnetic insulating section 52, and the magnetic permeability 51 is not sensed. The inside of the magnetic insulating section 52 forms a passage through which the through holes are formed, and then the inner needle is phantomed through the plastic sleeve 525 and the plastic tube 524, and finally inserted into the passage, so that the inner needle is inserted in the __ section 51 The segment 52 _ constitutes the magnetocaloric needle 5 as shown. According to the sixteenth, seventeenth, and the right riding, the sixth embodiment of the present invention discloses a magnetocaloric treatment_needle 6' which includes at least the magnetically conductive portion 61 of the front section, the surface 62 of the middle section, and the magnetic spacer of the rear section. a hot segment 63, and an inner pin 64 inserted in the inner portion of the magnetically sensitive portion 6 and the non-magnetic insulating portion 63, wherein: the magnetic conductive portion is a metal material (the metal material referred to herein is Good steel and other magnetically sensitive metal, such as 300 series, side series or _ series of non-recorded steel hollow inserts with anti-adhesive surfaces such as Teflon, ceramics and metal coating or coating. The front end is formed with a sharp-shaped needle, and the magnetic flux guides ', J and 61 are in the direction of the miscellaneous miscellaneous hot section 62, and the micro-clamping section 611 is also made of metal material (here The metal material is made of non-mineral steel and other magnetically conductive gold type >1, such as 3GG series, 4GG series or 6〇〇201208639 series stainless steel; the non-magnetic insulation section 63 is non-metallic material (in The non-metal described herein is a ceramic material or other high temperature resistant non-magnetic low thermal conductivity material, for example a hollow tube made of zirconia, the non-magnetic insulating section 63 is formed with a radial insertion section 631 at one end of the collar 62, and a ring groove 632 is recessed in the outer wall of the insertion section 631. The segment 63 is formed with a radial connecting portion 633 at a distal end of the magnetically sensitive portion 61. The outer wall of the connecting portion 633 is recessed with a ring groove 634, and the outer portion of the connecting portion 633 is sleeved with a plastic tube 635. 635 is connected to a plastic sleeve 636'. The connecting section 633 and the plastic tube 635 are adhesively bonded; * _ needle 64 series metal material (the metal material referred to herein is stainless steel) and other magnetically conductive metal For example, 300 series, 400 series or 6 inch series stainless steel, the surface can be added with anti-adhesive coating such as Teflon, ceramic and metal rhodium plated or coated solid needle, the inner needle 64 can be passed through the back end The plastic sleeve 636 and the plastic tube 635 are inserted into the non-magnetic insulating section 63, the collar 62 and the magnetically conductive section 61. Regarding the combined state of the sixth embodiment, the plugging section 611 of the magnetically sensitive heat conducting section 6 is mainly inserted into the collar 62 and subjected to electric welding, so that the magnetic conductive heat conducting section 61 and the collar 62 are combined first, and then The plug-in section 63 ι of the non-magnetic insulating section 63 is inserted into the collar 62 and then brazed with a copper paste or other material having a lower melting point as a solder to fill the teeth of the outer wall of the insertion stage 631. Slot 62, 八17 201208639 磁磁热热##61, the collar 62 is sturdy and firmly combined with the non-magnetic insulation section, and forms a mutual passage between the magnetic sensitive section 61, the collar 62 and the non-magnetic insulation section 63. 'The inner needle 64 is then inserted into the plastic sleeve 636 and the plastic tube 635, and finally inserted. In the sinuous passage, the inner needle 64 is inserted into the non-magnetic insulating section Μ, the collar 62 and the sensible heat conduction section 63, i.e., the magnetotherapy needle 6 as shown in Figs. The above description shows that the advantages and effects of the present invention are as follows: 1. The probe length can be appropriately increased: the probe of the present invention is suitable for use in the surgical and internal medicine 'Nu Lin (10) axis burning, if the miscellaneous recording is located inside the abdominal cavity of the human body, The probe must be fully inserted into the peak to reduce the length of the probe by reducing the length of the probe, so that the needle can be applied to the deep part of the human body. 2. Heating can be performed on the magnetic sensitive material segment: since the heating principle of the present invention utilizes a magnetic field generated by the probe, an over-variable magnetic field is used to induce the magnetically sensitive substance to generate an eddy current and heat the magnetically sensitive substance to generate a high temperature. Therefore, when the magnetic contact around the probe (four), only the hot section of the Yang section will generate high heat, but the non-magnetic insulation section of the latter stage does not have a temperature change, so the invention not only has a heating principle different from the stomach. Knowing the direct scale, it also has the ability to heat the heat-transfer section of the rider, so that the heat concentration will not be transmitted outward. 3. The heating speed of the probe is fast: Since the invention directly performs the domain of the 201208639 iron steel and other magnetically conductive and thermally conductive metals in the front section of the probe, it can control the rapid increase of the non-recording steel and other magnetically conductive metal materials. The temperature not only reduces the heating time, but also ensures that the magnetically sensitive thermal insulation section maintains a uniform temperature. 4. Can prevent heat conduction: Since the non-magnetic insulation section of the rear section of the probe of the present invention is made of ceramic materials or other non-magnetic low-conductivity materials of high temperature, the magnetic sensitive section of the front section is generated. The high temperature will not be transmitted to the non-magnetic insulation section of the rear section, and there is no high temperature material to burn the tissue and cells, or burn the medical staff. 5. Preventing the probe from clogging and injecting the drug: Since the embodiment of the present invention is a hollow probe, the internal channel is inserted - the inner needle is filled to fill the channel, so 'when the empty can is needled through the skin In the process of inserting tissue and cells, it is possible to avoid the phenomenon of tissue or fine juveniles exploring the genus, which can prevent the phenomenon of smashing through the sputum. And when the cauterization treatment is completed, the inner needle can be extracted, and the drug can be injected at this time. The needle is delivered to the tissue and cells to enhance efficacy. As stated on the silk, the technical means disclosed in the present invention can achieve the intended purpose and effect and have long-term progress. It is true that the invention for industrial use is correct, and the application is filed according to law. And grant the invention patent, to ^| Xin. The above is only a preferred embodiment of the present invention, and is not limited to the scope of the present invention, that is, the scope of the patent application and the invention 201208639 should still be covered by the patent of the present invention. The equivalent changes and modifications made in the contents of the book. BRIEF DESCRIPTION OF THE DRAWINGS The first drawing is a perspective exploded view of the first embodiment of the present invention. The second drawing is a schematic plan view of the combination of the first embodiment of the present invention. The third drawing is a schematic cross-sectional view of a combination of the first embodiment of the present invention. The fourth figure is a three-dimensional decomposition diagram of the second actual control. The fifth picture is a schematic plan view of the combination of the present (4) and the second real. Figure 6 is a schematic cross-sectional view showing a second embodiment of the present invention. Figure 7 is a perspective exploded view of a third embodiment of the present invention. The eighth drawing is a schematic plan view of a combination of the third embodiment of the present invention. Figure 9 is a schematic cross-sectional view showing a combination of a third embodiment of the present invention. Figure 11 is a perspective exploded view of a fourth embodiment of the present invention. Tenth-figure is a schematic plan view of a combination of a fourth embodiment of the present invention. The twelfth figure is a schematic cross-sectional view of the combination of the four materials of the present day. Figure 13 is a perspective exploded view of a fifth embodiment of the present invention. 20 201208639 The fourteenth drawing is a schematic plan view of the combination of the fifth embodiment of the present invention. Fig. 15 is a schematic cross-sectional view showing the fifth embodiment of the present invention. Figure 16 is a perspective exploded view of a sixth embodiment of the present invention. Figure 17 is a plan view showing the combination of the sixth embodiment of the present invention. Figure 18 is a schematic cross-sectional view showing the sixth embodiment of the present invention. Stupid [main component symbol description] Needle 11 - magnetic conductive section 111 - plug section does not sense magnetic insulation section 121 - slot 122 - cogging 123 - connecting section 124 - gullet 125 - plastic tube 2 - lancet 21 - sense Magnetic heat conduction section 211-plug section 22-loop 23-non-magnetic insulation section 231-plug section 232--tooth groove 233-engagement section 234-tooth groove 235-plastic tube 3-needle 31-magnetic heat conduction section 311-plug section 32--non-magnetic insulation section 321-# slot 322 - connection section 323--tooth groove 324-plastic tube 4--needle 41-magnetic heat conduction section 411-plug section 42-non-magnetic isolation Hot section 421 - perforation 422 - engagement section 423 - cogging 424 - plastic tube 5 - needle 21 201208639 51 - magnetically conductive section 511 - plug section 521 - cogging 522 - engaging section 524 - plastic tube 525 - plastic sleeve 61 -Magnetic heat conduction section 611 - Insert stage 63 - Non-magnetic insulation section 631 - Plug section 633 - Engagement section 634 - Cogging 636 - Plastic sleeve 52 - Non-magnetic insulation section 523 - Groove 6 - Needle 62 - collar 632 - cogging 635 - plastic tube 22