九、發明說明: 【發明所屬之技術領域】 本發明係有關於一種包覆於加熱管之導管體裝置,尤 指一種具有良好熱能傳導之導管體裝置,藉由中空石英 内、外管的設置,讓熱能經由兩者間的空間順利達到光與 熱的快速傳導之創新發明者。 〃 【先前技術】 按,一般之加熱管(3),請參閱第十圖所示,一般皆 係採用一中空金屬管(31),並於此中空金屬管(31)内置設 發熱體(32),且於此發熱體(32)末端連接電極棒(33),2 供外接電源,繼在此中空金屬管(31)内填塞絕緣土(34), 而後,再經由滾壓金屬管(31)之步驟,以使填塞之絕緣土 (34)更為緊實,復於金屬管(31)末端以樹脂(35)封膠,以 使金屬官(31)内呈密封狀態;然,由於該加熱管(3)係置 放於隔熱桶中與水接觸,而金屬管(31)於長期與水接觸下 係容易產生氧化鏽蝕,而使金屬管(31)易有破裂爆管,繼 而引發漏電之情形;再者,因水中含有大量礦物質,長期 下來,於金屬管(31)管壁外將會附著一層厚厚的雜質、石 灰垢,造成加熱管(3)通電時所產生的熱源無法完全傳導 至水中’致使導熱效率降低的缺失。 有鑑於此,本發明人隨科技發展之腳步,及為了降低 產品成本及提升品質,經研發製作及實驗之過程’而發明 包覆於加熱管之導管體裝置,此方法利用該石英内、外管 的設立,而能達到良好的熱傳導效果並具降低成本之優 點。 【發明内容】 5 >;S' ? 麦疋’本發明係有關於一種包覆於加熱管之導管體裝 置’主要於内部設有以電極棒組設連接發熱體及繞設有高 t抗絲之中空石英内管的外部對應套設一中空石英外 官’且於兩開口端結合絕緣件,如此讓石英内、外管之間 具有導熱空間’且於石英外管上設置有導入、導出口;藉 此’利用該石英内、外管的設立,使得由中空石英内管所 成之加熱管之熱能可藉由中空石英外管之導入、導出口來 輸送需加熱之介質以達熱能傳導,同時經由發熱體本身產 生熱能及所伴隨的光熱,可以熱輻射方式快速令介質完成 熱傳導與受熱為首先應用發明者。 【實施方式】 而為令本發明之技術手段能夠更完整且清楚的揭 露’兹請一併參閱所附圖式及圖號,並詳細說明如下: 首先’請參閱第一圖所示,本發明一種包覆於加熱管 之導管體裴置第一實施例剖視示意圖,該導管體裝置(1) 包含有: —加熱管(Π),為内部具有發熱體(111)繞設高阻抗 絲(112) ’且外部套設有中空石英内管(113),而於發熱體 (U1)對應與電極棒(114)組設連接而成; 一外管組(12),係對應於加熱管(11)外部套設一管壁 具有導入、導出口(121)、(122)之中空石英外管(123), 使石英内、外管(113)、(123)之間具有導熱空間(A),同 時兩管體之開口端處結合絕緣件(124),且令加熱管(11) 之電極棒(114)末端突伸出絕緣件(124)外與電源相接設 者。 5月併參閱第·一圖所不,係本發明一種包覆於加熱管 之導管體裝置第二實施例剖視示意圖,組裝時,其加熱管 (U)中之發熱體(111)外部係繞設有高阻抗絲(112),且發 熱體(111)端對應接設電極棒(114),而發熱體繞設 鬲阻抗絲(112)具對應連接電極棒(114)的設置,可依所需 產生之熱能的多寡而設置一支或一支以上,然後,再於外 部套設有中空石英内管(113),使其形成一加熱管(11); 接續,將加熱管(11)對應套入於一中空石英外管(123), 讓加熱管之電極棒(114)穿伸出中空石英外管(123)的兩 端〔而電極棒(114)對應與發熱體(ill)設置之狀態,可依 發熱體(111)的擺設而呈穿伸於一端側或兩端侧的絕緣件 (124)外〕’同時,於中空石英外管G23)兩端分別組設絕 緣件(124)〔該絕緣件(124)可為陶瓷〕,且讓電極棒(H4) 與電源接觸導通,如此,於中空石英外管(123)與加熱管 (11)之中空石英内管(113)間,就具有一導熱空間(A)的空 間。 請一併參閱第一〜三圖所示’使用時,將發熱體(111) 之電極棒(114)端通電,使加熱管(11)開始產生加熱的動 作’而藉由發熱體(111)所產生之熱能與光熱,透由中空 石英内管(113)管壁散放出來,此時,由中空石英外管(123) 之導入口(121)處導入適當介質〔流體〕,讓介質流入中空 石英外管(123)與中空石英内管(113)間的導熱空間(A), 而在導熱空間(A)的介質受發熱體(111)本身所產生之熱 能與光熱的輻射傳導,可急速讓介質達到高溫狀態、或進 而產生蒸氣,而蒸氣會經由中空石英外管(123)之導出口 (122)而輸送出去,將熱能輸送置所需之處;而在加熱管 (11)加過程中,其介質〔流體〕均可由中空石英外管(123) 之導入口(121)慢慢導入。 請再一併參閱第四、五圖所示’係本發明一種包覆於 加熱管之導管體裝置第四、五實施例剖視示意圖’該導管 體裝置(1).之中空石英外管(123)上的導入、導出口 (121) 、(122)的設置係可依照使用者所需之熱能需求的高 低,而設置一組以上;而藉由該加熱管(11)中發熱體(I11) 本身所產生之熱能與光熱的輻射傳導’讓其光、熱能有效 傳導於中空石英内、外管(113)、(123)間的導熱空間(A) ’ 使介質瞬間達到沸騰的高溫,同時’藉由石英管材質不易 附著任何析出物的特性,可使加熱管(11)長期置於流體介 質中時,於石英内、外管(113)、(123)管壁上不致附著任 何礦物質、石灰垢,以長期保持加熱管(11)良好的導熱與 透光效率者;藉此,利用該石英内、外管(113)、(123) 的設立,使得由中空石英内管(113)所成之加熱管(11)的 熱能可藉由中空石英外管(123)之導入、導出口(121)、 (122) 來輪送熱能傳導。 &再一併參閱第六〜九圖所示,係本發明一種包覆於 加熱管之導管體裝置第六、七實施例剖視及動作示意圖, 該導管體裝置⑴包含有: 一加熱管(11),為内部具有發熱體(111)繞設高I1 且抗 4(112) ’且外部套設有中空石英内管(113),而於發熱體 (111)對應與電極棒(丨14)組設連接而成; —外管組(12),係對應於加熱管(11)外部套設一管壁 具有導入、導出口(121)、(122)之中空石英外管(123), $石英内、外管(113)、(123)之間具有導熱空間(A),同 時兩管體之開口端處結合絕緣件(124),且令加熱管(11) 之電極棒(114)末端突伸出絕緣件(124)外與電源相接設; 一外罩體(13),係對應設置包覆於外管組(I?)之中空 石英外管(123)外侧,且與中空石英外管(123)間形成熱流 動空間(B),而外罩體(13)兩端對應結合於絕緣件(124), 且於罩壁上設有進、出入口(131)、(132)者》 於使用時,係如同上述的實施方式將發熱體(111)之 電極棒(114)端通電,使加熱管(11)開始產生加熱的動 作,而藉由發熱體(111)所產生之熱能與光熱,透由中空 石英内管(113)管壁散放出來,當熱能與光熱經由透明中 二石奂内管(113)、中空石英外管(123)的輻射傳導,讓整 體連同導熱空間(A)的介質具高溫,或蒸氣狀態,而當再 由外罩體(13)之進入口(131)導入介質〔流體〕,讓介質流 入外罩體(13)、中空石英外管(123)、中空石英内管(113) 間的熱流動空間(B)、導熱空間(a),可讓中空石英外管 (123)上複數的導入、導出口(121)、(122)形成與外罩體 (13)導入介質所成的漩渦式循環之熱傳導,讓導入之介質 融合原有之熱能介質,同時再藉由加熱管(11)中發熱體 (111)本身所產生之熱能與光熱的輻射傳導,使介質急速 翻騰達到高溫或蒸氣狀態;爾後,當發熱體(111)的溫度 持續加熱’而外罩體(13)陸續導入介質,同樣,藉由複數 的導入、導出口(121)、(122)形成進、出液流的旋渦式循 環之熱傳導’令高溫、蒸氣的原介質融合、對流於導入介 質’而急速達到高溫者。 則述之實施例或圖式並非限定本發明之結構樣態或 尺寸’任何所屬技術領域中具有通常知識者之適當變化或 修飾,皆應視為不脫離本發明之專利範疇。 1323766 藉由以上所述,該元件之組成與使用實施說明可知, 本發明與現有結構相較之下,係具有諸多優點,其詳述如 下: 1. 本發明一種包覆於加熱管之導管體裝置,以加熱管溫度 所散放之熱能與光熱,可對介質產生傳導加熱的功能, 讓介質可完成溫度熱傳導的功效。 2. 本發明一種包覆於加熱管之導管體裝置,藉由石英管良 好的導熱性及透明度,以使發熱體產生熱源時,其熱度 可有效傳導於石英内、外管間之導熱空間及光熱可經由 透明石英管而放射傳導,而快速產生高溫熱能或蒸氣 者。 3. 本發明一種包覆於加熱管之導管體裝置,以加熱管溫度 所散放之熱能及光亮所傳導之熱輻射,可經由與石英外 管間的導熱空間或外罩體的熱流動空間,而將介質急速 加熱,達到可瞬間完成溫度熱傳導的功效。 4. 本發明一種包覆於加熱管之導管體裝置,利用存於管内 之高溫介質,與低溫介質間的相互對流,達到快速熱對 流者。 5. 本發明一種包覆於加熱管之導管體裝置,利用管内高溫 所成之蒸氣、高溫介質及壓力變化,來加速熱能傳導, 使其以旋渦方式傳導對流,達到快速熱傳導的功能者。 6. 本發明一種包覆於加熱管之導管體裝置,藉由加熱管中 發熱體本身所產生之熱能與光熱的輻射傳導,配合中空 石英外管上複數的導入、導出口形成與外罩體導入介質 所成的漩渦式循環之熱傳導,讓導入之介質融合原有之 熱能介質,同時再藉由加熱管中發熱體本身所產生之熱 c s 10 1323766 能與光熱的輻射傳導,使介質急速翻騰達到高溫或蒸氣 狀態。 7.本發明包覆於加熱管之導管體裝置,係顧石英管的絕 電性,便可節省填充絕緣材料的成本及加工程序, 產成本大幅降低者。 - 8·本發明一種包覆於加熱管之導管體裝置係藉石英管不 易附著任何析出物的特性,可使加熱管長期置於水中 時於石英管表層上係不致附著任何礦物質、石灰垢, 2期保持加熱管良好的導熱與透光效率,且於加執管 Z產生的熱能可以有效傳遞至水中的狀態下,加熱管即 =因熱能過度積存,因過熱而造成石英管破裂,電孰 大漏電的情形;依此’可使加熱管的使用期限 9·:Γ月包覆於加熱管之導管體裝置係藉由包覆於發熱 瑕外的高阻抗絲,以輔助增加發熱體的發熱效果。 鲁 综上所述’本發明實施例確能達到所預期之使用功 中,其所揭露之具體構造,不僅未曾見諸於同類產品 '、曾公開於申請前’誠已完全符合專利法之規定與 ^徒依法提出發明專利之申請’懇請惠予審查,並賜 $|利1實感德便。 11 >;s > 1323766 【圖式簡單說明】 第一圖:本發明之第一實施例剖視示意圖 第二圖:本發明之第二實施例剖視示意圖 第三圖:本發明之第三實施例剖視示意圖 第四圖:本發明之第四實施例剖視示意圖 第五圖:本發明之第五實施例剖視示意圖 第六圖:本發明之第六實施例剖視示意圖 第七圖:本發明之第六實施例動作示意圖 第八圖:本發明之第六實施例剖視示意圖 第九圖:本發明之第六實施例動作示意圖 第十圖:現有技術剖視示意圖 【主要元件符號說明】 <本發明> (1) 導管體裝置 (11) 加熱管 (111) 發熱體 (112) 高阻抗絲 (113) 石英内管 (114) 電極棒 (12) 外管組 (121) 導入口 (122) 導出口 (123) 石英外管 (124) 絕緣件 (13) 外罩體 (131) 進入口 (132) 出入口 (A) 導熱空間 (B) 熱流動空間 有> (3) 加熱管 (31) 金屬管 (32) 發熱體 (33) 電極棒 (34) 絕緣土 (35) 樹脂 12IX. Description of the Invention: [Technical Field] The present invention relates to a catheter body device coated on a heating tube, and more particularly to a catheter body device having good thermal energy conduction, which is provided by hollow quartz inner and outer tubes An innovative inventor that allows heat to reach the rapid conduction of light and heat through the space between the two. 〃 【Prior Art】 According to the general heating tube (3), please refer to the tenth figure. Generally, a hollow metal tube (31) is used, and a heating element (32) is built in the hollow metal tube (31). And the electrode rod (33) is connected to the end of the heating element (32), 2 is supplied with an external power source, and the insulating metal (34) is filled in the hollow metal tube (31), and then the metal tube is rolled (31). The step of making the stuffed insulating soil (34) more compact, and sealing the resin (35) at the end of the metal tube (31) to seal the metal official (31); The heating tube (3) is placed in the insulated barrel to be in contact with water, and the metal tube (31) is prone to oxidative rust under long-term contact with water, so that the metal tube (31) is prone to bursting and bursting, which in turn causes In the case of electric leakage; in addition, due to the large amount of minerals in the water, a thick layer of impurities and lime scale will adhere to the outside of the pipe wall of the metal pipe (31) for a long time, causing the heat source generated when the heating pipe (3) is energized. It cannot be completely conducted into the water', resulting in a loss of thermal conductivity. In view of the above, the present inventors have invented a catheter body device coated with a heating tube in accordance with the development of technology, and in order to reduce product cost and improve quality, through the process of research and development and experiment, which utilizes the inside and outside of the quartz. The establishment of the tube can achieve good heat transfer and reduce the cost. SUMMARY OF THE INVENTION [5] The present invention relates to a catheter body device that is coated on a heating tube. The main body is provided with an electrode rod assembly to connect the heating element and a high resistance. The outer part of the hollow quartz inner tube is sleeved with a hollow quartz outer official' and the insulating member is combined at the two open ends, so that there is a heat conducting space between the inner and outer tubes of the quartz', and the introduction and guiding are arranged on the outer quartz tube. By using the quartz inner and outer tubes, the thermal energy of the heating tube formed by the hollow quartz inner tube can be transported by the introduction and outlet of the hollow quartz outer tube to heat the heat. At the same time, through the heat generating body itself, the heat energy and the accompanying light heat are generated, and the heat radiation and the heat can be quickly made to complete the heat conduction and heat. [Embodiment] In order to make the technical means of the present invention more complete and clear, please refer to the drawings and drawings, and the details are as follows: First, please refer to the first figure, the present invention A cross-sectional view of a first embodiment of a catheter body covering a heating tube, the catheter body device (1) comprising: a heating tube (Π) for winding a high-resistance wire with a heating element (111) inside ( 112) 'The outer sleeve is provided with a hollow quartz inner tube (113), and the heating element (U1) is correspondingly connected with the electrode rod (114); an outer tube group (12) corresponds to the heating tube ( 11) Externally enclosing a hollow quartz outer tube (123) having a lead-in and outlet (121) and (122), and having a heat-conducting space between the inner and outer tubes (113) and (123) of the quartz (A) At the same time, the insulating member (124) is combined at the open end of the two tubes, and the end of the electrode rod (114) of the heating tube (11) protrudes out of the insulating member (124) and is connected to the power source. In May, and referring to Fig. 1, a schematic cross-sectional view of a second embodiment of a catheter body device coated with a heating tube according to the present invention, when assembled, the external body of the heating element (111) in the heating tube (U) A high-resistance wire (112) is wound around, and the heating element (111) end is connected to the electrode rod (114), and the heating element is disposed around the 鬲 resistance wire (112) with a corresponding connection electrode rod (114). One or more sets of heat energy are required to be generated, and then a hollow quartz inner tube (113) is externally sleeved to form a heating tube (11); and the heating tube (11) is connected. Correspondingly nested in a hollow quartz outer tube (123), let the electrode rod (114) of the heating tube protrude beyond the two ends of the hollow quartz outer tube (123) (and the electrode rod (114) corresponds to the heating element (ill) In the state of the heating element (111), the insulating member (124) extending through the one end side or the both end sides may be disposed at the same time. At the same time, insulating members are respectively disposed at both ends of the hollow quartz outer tube G23). [The insulating member (124) may be a ceramic], and the electrode rod (H4) is in contact with the power source, thus, outside the hollow quartz (123) and the heating tube (11) into the empty quartz tube (113) within the room, it is a space having a thermally conductive space (A) is. Please refer to the first to third figures together. When using, the electrode rod (114) of the heating element (111) is energized to cause the heating tube (11) to start heating, and the heating element (111) is used. The generated heat energy and light heat are dissipated through the wall of the hollow quartz inner tube (113). At this time, an appropriate medium [fluid] is introduced from the inlet port (121) of the hollow quartz outer tube (123) to allow the medium to flow in. The heat conducting space (A) between the hollow quartz outer tube (123) and the hollow quartz inner tube (113), and the medium in the heat conducting space (A) is thermally radiated by the heating element (111) itself and the light and heat radiation is conducted. Rapidly let the medium reach a high temperature state, or generate steam, and the vapor will be transported out through the outlet (122) of the hollow quartz outer tube (123) to transport the heat energy where it is needed; and in the heating tube (11) In the process, the medium [fluid] can be gradually introduced from the introduction port (121) of the hollow quartz outer tube (123). Please refer to the fourth and fifth figures of the present invention as a cross-sectional view of the fourth and fifth embodiments of the catheter body device of the present invention, which is a hollow quartz outer tube of the catheter body device (1). 123) The introduction and the outlets (121) and (122) are arranged in more than one set according to the heat demand of the user; and the heating element (I11) in the heating tube (11) The thermal energy generated by itself and the radiation conduction of light and heat 'allow its light and heat energy to be effectively conducted in the heat conduction space (A) between the inner and outer tubes (113) and (123) of the hollow quartz, so that the medium instantaneously reaches a boiling high temperature, 'The characteristics of the quartz tube material are not easy to adhere to any precipitates, so that when the heating tube (11) is placed in the fluid medium for a long time, no minerals are attached to the inner and outer tubes (113) and (123) of the quartz tube. , lime scale, to maintain the good heat conduction and light transmission efficiency of the heating tube (11) for a long time; thereby, the use of the quartz inner and outer tubes (113), (123) is established, so that the hollow quartz inner tube (113) The heat energy of the heated tube (11) can be made by hollow quartz (123) introduced into the guide outlet (121), (122) send the conduction of thermal energy to the wheel. Referring again to the sixth to ninth drawings, a cross-sectional view and an operation diagram of a sixth and seventh embodiment of a catheter body device coated with a heating tube according to the present invention, the catheter body device (1) comprising: a heating tube (11), the inner heating element (111) is wound with high I1 and anti-4 (112) ', and the outer sleeve is provided with a hollow quartz inner tube (113), and the heating element (111) corresponds to the electrode rod (丨14). The outer tube group (12) is provided with a hollow quartz outer tube (123) having a tube wall with an introduction and an outlet (121) and (122) corresponding to the outer portion of the heating tube (11). There is a heat conducting space (A) between the inner and outer tubes (113) and (123) of quartz, and the insulating member (124) is combined at the open end of the two tubes, and the electrode rod (114) of the heating tube (11) is used. The end protruding from the insulating member (124) is connected to the power source; an outer cover body (13) correspondingly disposed outside the hollow quartz outer tube (123) covered by the outer tube group (I?), and the hollow quartz A heat flow space (B) is formed between the outer tubes (123), and both ends of the outer cover body (13) are correspondingly coupled to the insulating member (124), and the inlet and the outlet are provided on the cover wall. (131), (132) In the above-described embodiment, the electrode rod (114) of the heating element (111) is energized as in the above embodiment, and the heating tube (11) starts to generate heating, and heat is generated by heating. The heat energy and light heat generated by the body (111) are dissipated through the wall of the hollow quartz inner tube (113). When the heat and the light are heated, the inner tube (113) and the hollow quartz outer tube (123) of the transparent medium are placed. Radiation conduction, the whole medium together with the medium of the heat conduction space (A) has a high temperature or a vapor state, and when the inlet (131) of the outer cover body (13) is further introduced into the medium [fluid], the medium flows into the outer cover body (13), The heat flow space (B) between the hollow quartz outer tube (123) and the hollow quartz inner tube (113) and the heat conduction space (a) allow a plurality of introduction and outlets (121) of the hollow quartz outer tube (123). (122) forming a heat transfer in a swirling cycle formed by the introduction of the outer cover body (13), allowing the introduced medium to fuse with the original heat energy medium, and simultaneously generating the heat generating body (111) itself in the heating tube (11). The thermal energy and the radiation of light and heat, so that the medium can quickly rush to reach high temperature or After the gas state is maintained, the temperature of the heating element (111) is continuously heated, and the outer casing (13) is introduced into the medium successively. Similarly, the inlet and outlet streams are formed by a plurality of introduction and outlets (121) and (122). The heat conduction of the vortex cycle is such that the high temperature and the vapor of the original medium are fused, and the convection is introduced into the medium, and the temperature is rapidly reached. The present invention is not intended to limit the scope of the invention, and the scope of the invention is not limited by the scope of the invention. 1323766 By the above, the composition of the component and the implementation description show that the present invention has many advantages compared with the prior art, and the details thereof are as follows: 1. The catheter body coated on the heating tube of the present invention The device, which uses the heat energy and the light heat dissipated by the temperature of the heating pipe, can provide a conduction heating function to the medium, so that the medium can complete the effect of temperature heat conduction. 2. The catheter body device coated on the heating tube, the quartz tube has good thermal conductivity and transparency, so that when the heat generating body generates a heat source, the heat can be effectively transmitted to the heat conduction space between the inner and outer tubes of the quartz and Light and heat can be radiated through a transparent quartz tube, and rapidly generate high-temperature heat or steam. 3. The catheter body device coated on the heating tube, the heat energy radiated by the temperature of the heating tube and the heat radiation transmitted by the light, can pass through the heat conduction space between the outer tube of the quartz or the heat flow space of the outer cover body. The medium is rapidly heated to achieve the effect of instantaneous temperature heat conduction. 4. The catheter body device coated on the heating tube of the present invention utilizes a high temperature medium stored in the tube to convect the convection with the low temperature medium to achieve rapid thermal convection. 5. The invention relates to a conduit body device coated on a heating pipe, which utilizes steam, high temperature medium and pressure change formed by high temperature in the pipe to accelerate the conduction of heat energy, and to conduct convection in a vortex manner to achieve rapid heat conduction. 6. The catheter body device coated on the heating tube, the heat energy generated by the heating body itself in the heating tube and the radiation conduction of the light and heat, combined with the introduction of the plurality of introduction and the outlet of the hollow quartz outer tube and the introduction of the outer cover body The heat conduction of the vortex circulation formed by the medium allows the introduced medium to fuse with the original thermal energy medium, and at the same time, the heat generated by the heating element itself in the heating tube cs 10 1323766 can be transmitted with the light and heat radiation, so that the medium rapidly tumbling High temperature or vapor state. 7. The catheter body device coated with the heating tube of the present invention can save the cost of filling the insulating material and the processing procedure, and the production cost can be greatly reduced. - 8. The catheter body device coated on the heating tube is characterized in that the quartz tube is not easy to adhere to any precipitate, so that the mineral tube does not adhere to any mineral or lime scale on the surface of the quartz tube when the heating tube is placed in water for a long time. In the second stage, the heat conduction and light transmission efficiency of the heating tube are maintained, and the heat energy generated by the tube Z can be effectively transferred to the water. The heating tube is excessively accumulated due to thermal energy, and the quartz tube is broken due to overheating. In case of large leakage; according to this, the service life of the heating pipe can be made 9: The conduit body device coated with the heating pipe in the next month is assisted to increase the heating element by the high-resistance wire wrapped around the heating element. Heat effect. In the above, the embodiment of the present invention can achieve the expected use of the work, and the specific structure disclosed therein has not only been seen in similar products, and has been disclosed before the application. With the application of the invention patent in accordance with the law, please submit a review and give $|profit 1 real feelings. 11 >;s > 1323766 [Simplified illustration of the drawings] FIG. 1 is a cross-sectional view showing a first embodiment of the present invention. FIG. 2 is a cross-sectional view showing a second embodiment of the present invention. FIG. 4 is a cross-sectional view showing a fourth embodiment of the present invention. FIG. 5 is a cross-sectional view showing a fifth embodiment of the present invention. FIG. Figure 6 is a schematic view showing a sixth embodiment of the present invention. Fig. 9 is a cross-sectional view showing a sixth embodiment of the present invention. Fig. 9 is a schematic view showing the operation of the sixth embodiment of the present invention. DESCRIPTION OF SYMBOLS <Invention> (1) Catheter device (11) Heating tube (111) Heating element (112) High-resistance wire (113) Quartz inner tube (114) Electrode rod (12) Outer tube group (121 Guide inlet (122) outlet (123) quartz outer tube (124) insulation (13) outer cover (131) inlet port (132) inlet and outlet (A) heat transfer space (B) heat flow space > (3) Heating tube (31) Metal tube (32) Heating element (33) Electrode rod (34) Insulating soil (35) Resin 12