TWI571235B - Magnetic coupling device - Google Patents

Description

磁路轉接裝置 Magnetic circuit switching device

本發明是有關於一種磁路轉接裝置，特別是指一種可使感磁熱療系統之激磁裝置做多種不同型式組合、擴充之磁路轉接裝置。 The invention relates to a magnetic circuit switching device, in particular to a magnetic circuit switching device which can make a plurality of different types of combination and expansion of an excitation device of a magnetic heating and heat treatment system.

現有腫瘤治療方式舉凡微波熱療、射頻消融消融熱療等，藉以消融造成局部腫瘤組織的壞死，從而達到對腫瘤治療的目的。然而消融傳統腫瘤治療所需費用高，甚至會造成病人較大痛楚，使得多數病患尚無法接受腫瘤治療。 The existing tumor treatment methods include microwave hyperthermia, radiofrequency ablation ablation hyperthermia, etc., thereby ablation of local tumor tissue necrosis, thereby achieving the purpose of tumor treatment. However, the cost of ablation of traditional cancer treatment is high, and even the patient is more painful, making most patients still unable to receive cancer treatment.

隨著今日醫療水平提升，遂發展出另一適用於腫瘤治療之磁熱腫瘤消融技術，該技術主要是利用交變磁場作用於一感磁針上，使感磁針產生渦電流而轉換成熱，進而消融腫瘤組織，這種方式係可大幅降低治療費用及病人痛苦。惟，如何控制其作用感磁場乃是決定治療品質的重要關鍵，故仍須仰賴研發技術不斷改良之。 With the improvement of medical level today, 磁 developed another magnetocaloric tumor ablation technique suitable for tumor treatment, which mainly uses an alternating magnetic field to act on a magnetic susceptor to convert the susceptor to eddy current and convert it into heat. Ablation of tumor tissue can significantly reduce treatment costs and patient suffering. However, how to control the magnetic field of action is an important key to determine the quality of treatment, so it still depends on the continuous improvement of research and development technology.

如圖1所示為一種現有的感磁熱療設備，其主要包含一機台11、一安裝於該機台11之感磁控制裝置12、一與該感磁控制裝置12電連接之線圈13、一安裝於 該機台11且連通於該感磁控制裝置12之冷卻水循環裝置14，及一電連接該感磁控制裝置12與該冷卻水循環裝置14之中控裝置15。以淺層的感磁熱療來說，是將該線圈13置於病患身體上，並利用一感磁針穿過該單一線圈13通電後所產生的高頻磁場，誘使感磁針感磁發熱，從而進行消融腫瘤組織。若是要進行深層的感磁熱療的話，則需備置二台感磁熱療設備，且將兩台感磁熱療設備之各線圈13分別伸置於病患待治療部位之上方、下方位置處，透過該等磁控制裝置通電驅使該等線圈13產生高頻磁場，從而誘使感磁針感磁發熱並能進行消融深層腫瘤組織。 As shown in FIG. 1 , a conventional magnetic sensation heat treatment device mainly includes a machine table 11 , a magnetic susceptibility control device 12 mounted on the machine table 11 , and a coil 13 electrically connected to the dynamometer control device 12 . Installed on The machine 11 is connected to the cooling water circulation device 14 of the magnetic sensitive control device 12, and is electrically connected to the magnetic sensitive control device 12 and the cooling water circulation device 14 control device 15. In the case of shallow magnetic heating therapy, the coil 13 is placed on the patient's body, and a magnetic field generated by a magnetically sensitive needle passing through the single coil 13 is used to induce magnetic heating of the magnetic sensitive needle. To ablate tumor tissue. If deep magnetic heating therapy is to be performed, two magneto-sensitive thermotherapy devices should be provided, and the coils 13 of the two magnetic-sensitive thermotherapy devices should be respectively placed above and below the patient's site to be treated. The magnetic control device is energized to drive the coils 13 to generate a high-frequency magnetic field, thereby inducing the magnetic sensitive heat of the magnetic sensitive needle and ablating the deep tumor tissue.

但目前感磁熱療設備的線圈13定位結構使用上相當不方便，都僅能以人工方式手動調整其高度與兩者間距，且通常不具有調整水平角度的功能，所以無法準確控制線圈13與感磁針之間的間距，難以根據治療需求調整線圈13位置與相對感磁針之磁場作用角度。 However, the positioning structure of the coil 13 of the magnetic heat treatment device is quite inconvenient to use, and the height and the distance between the two can only be manually adjusted manually, and generally does not have the function of adjusting the horizontal angle, so the coil 13 cannot be accurately controlled. The spacing between the magnetic sensitive needles makes it difficult to adjust the magnetic field action angle of the coil 13 and the relative magnetic needle according to the treatment demand.

另外，目前感磁熱療設備需要使用冷卻水循環裝置14，體積龐大，推運不便。此外，目前感磁熱療設備的電線、水管繞線多，會妨礙療程進行時的便利性。再者，兩台感磁熱療設備之各線圈13於同步應用治療時，磁場不易匹配。 In addition, the current magnetic heat treatment device requires the use of the cooling water circulation device 14, which is bulky and inconvenient to push. In addition, the current wire and water pipes of the magnetic heat treatment equipment are often wound, which may hinder the convenience of the treatment. Furthermore, when the coils 13 of the two magnetic hyperthermia devices are simultaneously applied for treatment, the magnetic field is not easily matched.

因此，本發明之一目的，即在提供一種可使一感磁熱療系統之激磁裝置做多種不同型式組合、擴充延伸，以供更多應用之磁路轉接裝置。 Accordingly, it is an object of the present invention to provide a magnetic circuit switching device that can be used in a variety of different types of excitation devices to expand and extend the excitation device of a magnetic hyperthermia system for more applications.

於是，本發明磁路轉接裝置，用於接合至少一激磁裝置，該磁路轉接裝置包含一絕緣殼體、一聚磁單元、至少一鎖合元件，以及一活動接頭。 Thus, the magnetic circuit switching device of the present invention is configured to engage at least one excitation device, the magnetic circuit switching device comprising an insulative housing, a magnetism collecting unit, at least one locking member, and a movable joint.

該絕緣殼體具有多數分別朝不同方向延伸之接合部。 The insulative housing has a plurality of joints that extend in different directions, respectively.

該聚磁單元設置於該絕緣殼體內，該聚磁單元具有多數定位槽，該等定位槽分別與該絕緣殼體之該等接合部相對應，藉此用以供該激磁裝置可選擇插置於該絕緣殼體之任一接合部並伸入於相對應之該定位槽。 The concentrating unit is disposed in the insulative housing, and the concentrating unit has a plurality of locating slots respectively corresponding to the engaging portions of the insulating housing, thereby for selectively inserting the oscillating device At any joint of the insulating housing and extending into the corresponding positioning groove.

該鎖合元件是用以鎖接於該激磁裝置與相連接之該接合部間。 The locking element is for locking between the excitation device and the joint portion connected thereto.

該活動接頭一端連接該絕緣殼體之任一接合部與相對應之該定位槽。 One end of the movable joint is connected to any joint of the insulating shell and the corresponding positioning groove.

本發明之功效在於藉由該磁路轉接裝置之每一接合部及相對應之定位槽均可供插接一激磁裝置，如此在治療使用上，可視所需而適當地增加或減少所述激磁裝置的使用數量，並透過一個或多數個磁路轉接裝置而作不同型式的組合、擴充延伸，以供不同治療應用。此外，所述磁路轉接裝置可使用模組化生產，因此可用較低的成本及較為簡易的方式，即可開發出更多應用。 The utility model has the advantages that each of the joint portions of the magnetic circuit switching device and the corresponding positioning groove can be inserted into an excitation device, so that the therapeutic use can be appropriately increased or decreased as needed. The number of excitation devices used, combined with different types of magnetic circuit adapters, extended extensions for different therapeutic applications. In addition, the magnetic circuit switching device can be modularly produced, so that more applications can be developed at a lower cost and in a simpler manner.

2‧‧‧磁路轉接裝置 2‧‧‧ Magnetic circuit adapter

21‧‧‧絕緣殼體 21‧‧‧Insulated housing

211‧‧‧接合部 211‧‧‧ joints

212‧‧‧電性插接埠 212‧‧‧Electrical plug-in埠

213‧‧‧陽螺紋 213‧‧‧Female thread

214‧‧‧貫孔 214‧‧‧through holes

22‧‧‧聚磁單元 22‧‧‧Gear unit

221‧‧‧定位槽 221‧‧‧ positioning slot

23‧‧‧鎖合元件 23‧‧‧Locking components

231‧‧‧內螺紋 231‧‧‧ internal thread

24‧‧‧活動接頭 24‧‧‧Active joints

25‧‧‧蓋體 25‧‧‧ cover

26‧‧‧磁棒 26‧‧‧Magnetic rod

3‧‧‧感磁熱療系統 3‧‧‧Magnetic heat therapy system

31‧‧‧承載單元 31‧‧‧ Carrying unit

311‧‧‧本體 311‧‧‧ Ontology

312、313‧‧‧滾輪 312, 313‧‧‧ Wheels

32‧‧‧萬向轉動單元 32‧‧‧ universal rotating unit

33‧‧‧懸臂單元 33‧‧‧cantilever unit

34‧‧‧激磁裝置 34‧‧‧Exciting device

341‧‧‧聚磁體 341‧‧‧Poly Magnet

342‧‧‧線圈 342‧‧‧ coil

343‧‧‧絕緣外殼 343‧‧‧Insulated casing

344‧‧‧感磁端 344‧‧‧Magnetic end

345‧‧‧連接端 345‧‧‧Connected end

346‧‧‧插接部 346‧‧‧ Sockets

347‧‧‧外螺紋部 347‧‧‧External thread

35‧‧‧控制單元 35‧‧‧Control unit

36‧‧‧輸入單元 36‧‧‧Input unit

本發明之其他的特徵及功效，將於參照圖式的實施方式中清楚地呈現，其中：圖1是一示意圖，說明一種現有的感磁熱療設備； 圖2是一分解示意圖，說明本發明磁路轉接裝置之第一實施例；圖3是一組合剖面示意圖，輔助說明圖2；圖4是一使用示意圖，說明該第一實施例之該磁路轉接裝置應用於一感磁熱療系統的態樣；圖5、6是一連續組合動作示意圖，輔助說明圖4；圖7是一組合剖視示意圖，輔助說明圖4；圖8是一示意圖，說明該第一實施例之該磁路轉接裝置採懸吊設置而應用於該感磁熱療系統；圖9是一使用示意圖，說明本發明激磁裝置之第二實施例的使用態樣；圖10是一示意圖，輔助說明圖9，圖中顯示兩相鄰磁路轉接裝置可藉一磁棒並聯組合成一體；以及圖11是一並聯線路示意圖，輔助說明圖10。 Other features and effects of the present invention will be apparent from the following description of the drawings, wherein: FIG. 1 is a schematic diagram illustrating a conventional magnetic heat treatment device; 2 is an exploded perspective view showing a first embodiment of the magnetic circuit switching device of the present invention; FIG. 3 is a schematic cross-sectional view, and FIG. 2 is a schematic view showing the magnetic body of the first embodiment; The road switching device is applied to a magnetic sensation heat treatment system; FIG. 5 and FIG. 6 are schematic diagrams of a continuous combined operation, and FIG. 7 is a supplementary sectional view; FIG. 7 is a schematic sectional view, and FIG. FIG. 9 is a schematic view showing the use mode of the second embodiment of the excitation device of the present invention, illustrating the magnetic circuit switching device of the first embodiment applied to the magnetic heating system; FIG. 10 is a schematic view, which is an explanatory view of FIG. 9. The two adjacent magnetic circuit switching devices can be combined in parallel by a magnetic bar; and FIG. 11 is a schematic diagram of a parallel circuit, and FIG.

在本發明被詳細描述前，要注意的是，在以下的說明內容中，類似的元件是以相同的編號來表示。 Before the present invention is described in detail, it is noted that in the following description, similar elements are denoted by the same reference numerals.

參閱圖2、3，為本發明磁路轉接裝置2之第一實施例，該磁路轉接裝置2包含一絕緣殼體21、一聚磁單元22、多數鎖合元件23，以及一活動接頭24。 Referring to Figures 2 and 3, a first embodiment of a magnetic circuit switching device 2 of the present invention includes an insulative housing 21, a magnetism collecting unit 22, a plurality of latching members 23, and an activity. Connector 24.

該絕緣殼體21是由不導磁之材料所製成。且該絕緣殼體21並具有多數分別朝不同方向延伸之接合部211，以及多數電性插接埠212，且該等電性插接埠212是兩兩配置於各該接合部211鄰側處。在本實施例中，該絕 緣殼體21是以矩形體做說明，但不以此為限，該等接合部211是凸設於該絕緣殼體21的各外表面。每一接合部211具有一形成於外表面之陽螺紋213，以及一可使外界與內部相通之貫孔214。 The insulating housing 21 is made of a material that is not magnetically permeable. The insulating housing 21 has a plurality of joint portions 211 extending in different directions, and a plurality of electrical plugs 212, and the electrical plugs 212 are disposed at the adjacent sides of the joint portions 211. . In this embodiment, the absolute The edge case 21 is described as a rectangular body. However, the joint portion 211 is protruded from each outer surface of the insulating case 21 . Each of the engaging portions 211 has a male thread 213 formed on the outer surface, and a through hole 214 through which the outside can communicate with the inside.

該聚磁單元22是由高導磁之單晶材料或多晶材料所製成，且設置於該絕緣殼體21內，該聚磁單元22具有多數定位槽221，該等定位槽221分別與該絕緣殼體21之該等接合部211的貫孔214相對應。 The concentrating unit 22 is made of a highly magnetic single crystal material or a polycrystalline material, and is disposed in the insulating housing 21. The concentrating unit 22 has a plurality of positioning slots 221, and the positioning slots 221 are respectively The through holes 214 of the joint portions 211 of the insulating housing 21 correspond to each other.

該等鎖合元件23均為具有一內螺紋231之滑環態樣。而該活動接頭24具有二相反端，其中一端貫穿該絕緣殼體21並與該聚磁單元22之其中一定位槽221相連接。 The locking elements 23 are all in the form of a slip ring having an internal thread 231. The movable joint 24 has two opposite ends, one end of which extends through the insulating housing 21 and is connected to one of the positioning grooves 221 of the collecting unit 22 .

另外，該磁路轉接裝置2還包含一設置於該絕緣殼體21內之控制電路(圖未示)，以及多數蓋體25。該控制電路與該等電性插接埠212電連接，且該控制電路具有一延伸於該絕緣殼體21外而用以與一外界控制系統電連接之電路連接部(圖未示)，在本實施例中該外界控制系統是以感磁熱療系統3(見於圖4)做說明，容後詳述。各該蓋體25是用以與各該接合部211相螺接而能封閉各該貫孔214。 In addition, the magnetic circuit switching device 2 further includes a control circuit (not shown) disposed in the insulative housing 21, and a plurality of covers 25. The control circuit is electrically connected to the electrical plug connector 212, and the control circuit has a circuit connecting portion (not shown) extending outside the insulating housing 21 for electrically connecting to an external control system. In the present embodiment, the external control system is described by the magnetic heat treatment system 3 (see FIG. 4), which will be described in detail later. Each of the lids 25 is configured to be screwed to each of the joint portions 211 to close the through holes 214.

參閱圖4、5、6，該磁路轉接裝置2在使用上，可應用於一感磁熱療系統3，亦即藉由該磁路轉接裝置2之控制電路的電路連接部與該感磁熱療系統3電連接。該感磁熱療系統3包括一承載單元31、一萬向轉動單元32、一懸臂單元33、至少一激磁裝置34、一控制單元35，以及一輸入單元36。該承載單元31包括一本體311，以及多數 設於該本體311底部之滾輪312、313。該萬向轉動單元32樞設於該承載單元31上且能相對該承載單元31進行0-360度旋轉。該懸臂單元33樞設於該萬向轉動單元32且能相對該萬向轉動單元32進行樞轉。另外，在本實施例中，激磁裝置34的數量是以二個做說明，但不以此為限，例如可為一個或更多個。每一激磁裝置34具有一聚磁體341、一線圈342，以及一由不導磁且不屏磁並耐高溫之材料所製成而用以包覆於該聚磁體341與該線圈342外部之絕緣外殼343。該聚磁體341是由高導磁之單晶材料、多晶材料或鐵基材料所製成，且可呈C型體狀，或ㄇ型體狀，或U型體狀或L型體狀，在本實施例中是以呈L型體狀做說明。該聚磁體341具有一感磁端344，以及一連接端345，該連接端345具有一用以伸入該絕緣殼體21之任一接合部211內的插接部346，以及一位於該插接部346鄰側之外螺紋部347。其中，該插接部346亦是由高導磁之單晶材料、多晶材料或鐵基材料所製成。該線圈342是繞設於該聚磁體341之感磁端344上，且該線圈342具有二接電部(圖未示)，用以插設於其中一接合部211旁側的該等電性插接埠212(見於圖2)。至於線圈342的繞設方式可為一層密繞、均等繞、多層密繞、任意繞、整列密繞、完整整列密繞、定位繞線或並繞。再者，該控制單元35是設置於該承載單元31內部，使用者可透過該輸入單元36進行輸入控制指令，即可使該控制單元35控制該萬向轉動單元32旋轉。 Referring to Figures 4, 5 and 6, the magnetic circuit switching device 2 can be applied to a magnetic heat treatment system 3, that is, a circuit connection portion of a control circuit of the magnetic circuit switching device 2, and the like. The magnetic hyperthermia system 3 is electrically connected. The magnetic hyperthermia system 3 includes a carrying unit 31, a universal rotating unit 32, a cantilever unit 33, at least one excitation device 34, a control unit 35, and an input unit 36. The carrying unit 31 includes a body 311, and a majority Rollers 312, 313 disposed at the bottom of the body 311. The universal rotating unit 32 is pivotally mounted on the carrying unit 31 and can be rotated by 0-360 degrees with respect to the carrying unit 31. The cantilever unit 33 is pivotally mounted to the universal rotating unit 32 and is pivotable relative to the universal rotating unit 32. In addition, in the present embodiment, the number of the excitation devices 34 is described by two, but is not limited thereto, and may be, for example, one or more. Each of the excitation devices 34 has a polymagnet 341, a coil 342, and a material made of a non-magnetic, non-magnetic and high temperature resistant material for covering the polymagnet 341 and the outside of the coil 342. Housing 343. The polymagnet 341 is made of a highly magnetic single crystal material, a polycrystalline material or an iron-based material, and may be in the form of a C-shaped body, or a ㄇ-shaped body, or a U-shaped body or an L-shaped body. In the present embodiment, the description is made in the form of an L-shaped body. The polymagnet 341 has a magnetic sensing end 344 and a connecting end 345 having a plug portion 346 for extending into any of the engaging portions 211 of the insulative housing 21, and a plugging portion 346 The joint portion 346 is adjacent to the outer thread portion 347. The plug portion 346 is also made of a highly magnetic single crystal material, a polycrystalline material or an iron-based material. The coil 342 is wound around the magnetic sensing end 344 of the polymagnet 341, and the coil 342 has two electrical connecting portions (not shown) for inserting the electrical properties on the side of one of the engaging portions 211. Plug 埠 212 (see Figure 2). As for the winding mode of the coil 342, it may be a layer of tight winding, equal winding, multiple layers of tight winding, arbitrary winding, integral winding, complete winding, positioning winding or winding. Furthermore, the control unit 35 is disposed inside the carrying unit 31, and the user can control the rotation of the universal rotating unit 32 by inputting a control command through the input unit 36.

至於該磁路轉接裝置2之活動接頭24另一端則 如圖4所示與該感磁熱療系統3之懸臂單元33相連接。 As for the other end of the movable joint 24 of the magnetic circuit switching device 2 Connected to the cantilever unit 33 of the magnetic hyperthermia system 3 as shown in FIG.

參閱圖5、6、7，各該激磁裝置34是利用各該聚磁體341之連接端345的插接部346經由該絕緣殼體21之該等接合部211的貫孔214***各該定位槽221中，搭配各該鎖合元件23之內螺紋231與各該接合部211之陽螺紋213和各該聚磁體341之連接端345的外螺紋部347相螺接，而組合定位於該磁路轉接裝置2上。各該激磁裝置34之線圈342的該等接電部再予以插設於相對應之各接合部211旁側的該等電性插接埠212(見於圖2)，進而透過該磁路轉接裝置2之控制電路導入所需電力而能產生交流磁場。 Referring to FIGS. 5, 6, and 7, each of the excitation devices 34 is inserted into each of the positioning slots through the through holes 214 of the engaging portions 211 of the insulating housing 21 by the insertion portions 346 of the connecting ends 345 of the respective polyposing magnets 341. 221, the internal thread 231 of each of the locking elements 23 is screwed with the male thread 213 of each of the engaging portions 211 and the external thread portion 347 of the connecting end 345 of each of the collecting magnets 341, and is combined and positioned on the magnetic circuit. On the adapter device 2. The power receiving portions of the coils 342 of the excitation device 34 are further inserted into the electrical plugs 212 (see FIG. 2) on the side of the corresponding joint portions 211, and then transferred through the magnetic circuit. The control circuit of device 2 introduces the required power to generate an alternating magnetic field.

參閱圖4，藉此使用者可透過該輸入單元36進行輸入控制指令，即可使該控制單元35控制該萬向轉動單元32旋轉，並連動該懸臂單元33帶動該磁路轉接裝置2位移，進而使得該等激磁裝置34變位，藉此能便於後續熱消融治療之進行。 Referring to FIG. 4, the user can control the rotation of the universal rotation unit 32 by the input control unit 36, and the displacement of the magnetic circuit adapter 2 by the cantilever unit 33. In turn, the excitation devices 34 are displaced, thereby facilitating subsequent thermal ablation treatment.

特別說明的是，藉由該等蓋體25之配置，而能封蓋於該磁路轉接裝置2閒置不用的接合部211上，以封閉相對應之貫孔214，避免灰塵侵入並蓄積。 In particular, by the arrangement of the lids 25, the joint portion 211 of the magnetic circuit adapter 2 that is not used can be closed to close the corresponding through hole 214 to prevent dust from entering and accumulating.

值得一提的是，藉由該磁路轉接裝置2之設置，讓治療者可依熱消融治療之需求，如上述之操作般在該磁路轉接裝置2上安裝適當數量的激磁裝置34，且藉由位於適當位置之接合部211的選擇，可輕易地組裝並擴充激磁裝置34，進而可提高治療操作之便利性及治療效果。 It is worth mentioning that, by the arrangement of the magnetic circuit switching device 2, the therapist can install an appropriate number of excitation devices 34 on the magnetic circuit switching device 2 as required by the above-described operation. Moreover, the excitation device 34 can be easily assembled and expanded by the selection of the joint portion 211 at an appropriate position, thereby improving the convenience of the treatment operation and the therapeutic effect.

參閱圖8，該磁路轉接裝置2也可隨著所應用之感磁熱療系統的構造設計不同而採懸吊設置，如本圖所示之感磁熱療系統省略承載單元31，而將萬向轉動單元32直接鎖設於天花板上，使得該磁路轉接裝置2隨之懸吊於天花板下方，至於該感磁熱療系統之控制單元則可另外放置於旁側之一承載面上。藉此提供另一種應用態樣。 Referring to FIG. 8, the magnetic circuit switching device 2 can also be suspended according to the structural design of the applied magnetic hyperthermia system. As shown in the figure, the magnetic thermal therapy system omits the carrying unit 31, and The universal rotating unit 32 is directly locked to the ceiling, so that the magnetic circuit switching device 2 is suspended under the ceiling, and the control unit of the magnetic thermal therapy system can be additionally placed on one of the side bearing surfaces. on. This provides another application.

參閱圖2、9、10，為本發明磁路轉接裝置2之第二實施例，本實施例與第一實施例大致相同，不同的地方僅在於還包含多數磁棒26，藉由將每一磁棒26的二端分別經由任兩相鄰磁路轉接裝置2之兩相對應之接合部211的貫孔214，***各該相對應的定位槽221中，利用該等鎖合元件23螺接該等磁路轉接裝置2相對應的該等接合部211，即可使多數磁路轉接裝置2並聯組合成一體，藉此亦能在適當位置之接合部211安裝激磁裝置34，所安裝的多數激磁裝置34之各線圈342的該等接電部插設於該等電性插接埠212後，該等電性插接埠212可如圖11之並聯線路連接，進而亦能與感磁熱療系統3所供應之電源電連接，並導入所需電力而產生交流磁場，如此，使得該感磁熱療系統3之激磁裝置34可作不同型式的組合、擴充延伸，以供不同治療應用。 Referring to Figures 2, 9, and 10, a second embodiment of the magnetic circuit switching device 2 of the present invention is substantially the same as the first embodiment. The only difference is that it further includes a plurality of magnetic bars 26, by The two ends of a magnetic bar 26 are respectively inserted into the corresponding positioning slots 221 through the through holes 214 of the two corresponding joint portions 211 of the two adjacent magnetic circuit adapters 2, and the locking elements 23 are utilized by the locking members 23 By screwing the joint portions 211 corresponding to the magnetic circuit switching devices 2, the plurality of magnetic circuit switching devices 2 can be combined in parallel, whereby the excitation device 34 can be mounted at the joint portion 211 at an appropriate position. After the electrical connection portions of the coils 342 of the plurality of excitation devices 34 are inserted into the electrical plugs 212, the electrical plugs 212 can be connected in parallel with each other as shown in FIG. The electric power supply is connected to the power supply supplied by the magnetic heat treatment system 3, and the required electric power is introduced to generate an alternating magnetic field, so that the excitation device 34 of the magnetic thermal therapy system 3 can be combined and expanded for different types. Different therapeutic applications.

綜上所述，本發明磁路轉接裝置2藉由上述構造設計，每一接合部211均可供插接一激磁裝置34，另外，不同的磁路轉接裝置2也可藉由一磁棒26穿置於兩兩相鄰之磁路轉接裝置2的各該定位槽221內，並透過該等 鎖合元件23之鎖合固定，而呈並聯組合，如此在治療使用上，可使該感磁熱療系統3作不同型式的組合、擴充延伸，以供不同治療應用。此外，該磁路轉接裝置2可使用模組化生產，因此可用較低的成本及較為簡易的方式，即可開發出更多應用。故確實能達成本發明之目的。 In summary, the magnetic circuit switching device 2 of the present invention has the above configuration, each of the joint portions 211 can be inserted into an excitation device 34, and the different magnetic circuit switching devices 2 can also be separated by a magnetic device. The rods 26 are placed in the positioning grooves 221 of the two adjacent magnetic circuit switching devices 2, and are transmitted through the positioning grooves 221 The locking elements 23 are locked and fixed in parallel, so that in the therapeutic use, the magnetic hyperthermia system 3 can be combined and expanded in different types for different therapeutic applications. In addition, the magnetic circuit switching device 2 can be modularly produced, so that more applications can be developed at a lower cost and in a simpler manner. Therefore, the object of the present invention can be achieved.

惟以上所述者，僅為本發明之較佳實施例而已，當不能以此限定本發明實施之範圍，即大凡依本發明申請專利範圍及專利說明書內容所作之簡單的等效變化與修飾，皆仍屬本發明專利涵蓋之範圍內。 The above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto, that is, the simple equivalent changes and modifications made by the patent application scope and patent specification content of the present invention, All remain within the scope of the invention patent.

2‧‧‧磁路轉接裝置 2‧‧‧ Magnetic circuit adapter

21‧‧‧絕緣殼體 21‧‧‧Insulated housing

211‧‧‧接合部 211‧‧‧ joints

212‧‧‧電性插接埠 212‧‧‧Electrical plug-in埠

213‧‧‧陽螺紋 213‧‧‧Female thread

214‧‧‧貫孔 214‧‧‧through holes

23‧‧‧鎖合元件 23‧‧‧Locking components

231‧‧‧內螺紋 231‧‧‧ internal thread

Claims (8)

一種磁路轉接裝置，用於接合至少一激磁裝置，該磁路轉接裝置包含：一絕緣殼體，具有多數分別朝不同方向延伸之接合部；一聚磁單元，設置於該絕緣殼體內，該聚磁單元具有多數定位槽，該等定位槽分別與該絕緣殼體之該等接合部相對應，藉此用以供該激磁裝置可選擇插置於該絕緣殼體之任一接合部並伸入於相對應之該定位槽；至少一鎖合元件，用以鎖接於該激磁裝置與相連接之該接合部間；以及一活動接頭，該活動接頭一端連接該絕緣殼體之任一接合部與相對應之該定位槽。 A magnetic circuit switching device for engaging at least one excitation device, the magnetic circuit switching device comprising: an insulating housing having a plurality of joint portions extending in different directions; a magnetic collecting unit disposed in the insulating housing The concentrating unit has a plurality of locating slots respectively corresponding to the engaging portions of the insulating housing, whereby the exciting device can be selectively inserted into any of the engaging portions of the insulating housing And extending into the corresponding positioning groove; at least one locking component for locking between the excitation device and the connected joint portion; and a movable joint, one end of the movable joint connecting the insulating shell A joint portion corresponds to the positioning groove. 如請求項1所述之磁路轉接裝置，還包含一設置於該絕緣殼體內之控制電路，該控制電路具有一延伸於該絕緣殼體外而用以與一外界控制系統電連接之電路連接部。 The magnetic circuit switching device of claim 1, further comprising a control circuit disposed in the insulative housing, the control circuit having a circuit connection extending outside the insulative housing for electrically connecting to an external control system unit. 如請求項2所述之磁路轉接裝置，所接合之該激磁裝置具有一聚磁體，以及一線圈，該聚磁體具有一感磁端，該線圈是繞設於該聚磁體之該感磁端上，且該線圈具有二接電部，其中，該磁路轉接裝置之該絕緣殼體還具有多數與該控制電路電連接之電性插接埠，且該等電性插接埠是兩兩配置於各該接合部鄰側處，該 激磁裝置之該線圈的該等接電部是插設於任一接合部旁側的該等電性插接埠。 The magnetic circuit switching device of claim 2, wherein the excitation device has a polymagnet and a coil, the polymagnet has a magnetic sensing end, and the coil is magnetically wound around the polymagnet The insulative housing of the magnetic circuit switching device further has a plurality of electrical plugs electrically connected to the control circuit, and the electrical plugs are Two pairs are disposed at adjacent sides of each joint portion, The power receiving portions of the coil of the excitation device are the electrical plugs that are inserted on the side of either of the joints. 如請求項1至3中任一項所述之磁路轉接裝置，還包含至少一磁棒，及多數鎖合元件，該磁棒的二端分別插置於二磁路轉接裝置之各一定位槽，藉由該等鎖合元件螺接該等磁路轉接裝置相對應的該等接合部，使得二磁路轉接裝置並聯組合成一體。 The magnetic circuit switching device according to any one of claims 1 to 3, further comprising at least one magnetic bar, and a plurality of locking components, wherein the two ends of the magnetic bar are respectively inserted in the two magnetic circuit switching devices And a positioning slot, wherein the two magnetic circuit switching devices are combined in parallel by the screwing of the connecting portions corresponding to the magnetic circuit switching devices. 如請求項3所述之磁路轉接裝置，其中，該絕緣殼體之各該接合部具有一形成於外表面之陽螺紋，以及一可使外界與內部相通之貫孔，所述鎖合元件為具有一內螺紋之滑環，該內螺紋與該陽螺紋並能相嚙合螺接。 The magnetic circuit switching device of claim 3, wherein each of the joint portions of the insulating housing has a male thread formed on the outer surface, and a through hole that allows the outside to communicate with the inner portion. The component is a slip ring having an internal thread that is engageable and threaded with the male thread. 如請求項5所述之磁路轉接裝置，所接合之該激磁裝置之該聚磁體還具有一連接端，該連接端具有一插接部，以及一位於該插接部鄰側之外螺紋部，其中，該激磁裝置是藉由該聚磁體之該插接部伸入該絕緣殼體之任一接合部內，並利用該磁路轉接裝置之該鎖合元件的該內螺紋與相對應之該接合部的該陽螺紋和該聚磁體之該連接端的該外螺紋部相螺接，而組合定位於該磁路轉接裝置上。 The magnetic circuit switching device of claim 5, wherein the polymagnet of the exciting device has a connecting end, the connecting end has a plug portion, and a thread outside the adjacent side of the plug portion The excitation device extends through the insertion portion of the polymagnet into any of the joint portions of the insulating housing, and the internal thread of the locking member of the magnetic circuit adapter device corresponds to the internal thread The male thread of the joint portion and the male thread portion of the connecting end of the polymagnet are screwed together and are combined and positioned on the magnetic circuit adapter. 如請求項1或6所述之磁路轉接裝置，其中，該聚磁單元是由高導磁之單晶材料、多晶材料或鐵基材料所製成，該絕緣殼體是由不導磁之材料所製成。 The magnetic circuit switching device according to claim 1 or 6, wherein the magnetism collecting unit is made of a highly magnetic single crystal material, a polycrystalline material or an iron-based material, and the insulating housing is not guided. Made of magnetic material. 如請求項5所述之磁路轉接裝置，還包含多數能用以與各該接合部相螺接而能封閉各該貫孔之蓋體。 The magnetic circuit switching device according to claim 5, further comprising a cover body that can be screwed to each of the joint portions to close the through holes.