TW202337513A - Hydrocephalus shunt pressure adjustable device - Google Patents

Hydrocephalus shunt pressure adjustable device Download PDF

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TW202337513A
TW202337513A TW111110067A TW111110067A TW202337513A TW 202337513 A TW202337513 A TW 202337513A TW 111110067 A TW111110067 A TW 111110067A TW 111110067 A TW111110067 A TW 111110067A TW 202337513 A TW202337513 A TW 202337513A
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ring
magnetic
adjusting
covering
edge
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TW111110067A
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TWI828084B (en
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郭凡慶
楊淑惠
郭怡貞
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郭凡慶
楊淑惠
郭怡貞
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Abstract

A hydrocephalus drainage adjustment device, which includes: a body device, including a seat body, the seat body has an accommodating chamber; a valve body device, which is arranged in the accommodating chamber, and the valve body device includes a regulating The adjusting piece has an upper adjusting support and a lower resisting space, the sphere is arranged at the socket and groove connection hole, and the elastic element is arranged at the In the resisting space, and abutting between the adjusting member and the sphere, the magnetic abutting ring is sleeved on the adjusting support, and at least one magnetic member is arranged in the magnetic abutting ring. The magnetic abutting ring The upper part is provided with a protruding abutting ring edge, the lower edge of the abutting ring edge is provided with a ladder-shaped bottom edge, the top cover is fixed on the seat body, and the adjusting elastic element is sleeved on the outside of the resisting space of the adjusting piece , and abuts between the adjusting piece and the bottom edge of the accommodating chamber, and makes the magnetic abutting ring piece against the top cover by elastic force; a covering device includes at least one upper part which is a flexible elastic body Covering body; thereby, the flow rate can be adjusted when a large siphon effect occurs in the ventricle drainage tube and the abdominal cavity drainage tube, avoiding excessive drainage, and actively having the convenience and safety of adjustment and control.

Description

腦積水分流壓力可調節裝置Hydrocephalus shunt pressure adjustable device

本發明有關於一種腦積水分流壓力裝置,特別是涉及一種腦積水分流壓力可調節裝置,具有調節控制上之便利性與安全性。The present invention relates to a hydrocephalus shunt pressure device, and in particular to an adjustable hydrocephalus shunt pressure device, which has the convenience and safety of adjustment and control.

按,人體一般正常健康狀態下,腦室每天會產生一定量的腦脊髓液(CSF),並可自動將腦室所產生的腦脊髓液吸收、排除,使避免屯積於腦室中。但當人因病變、撞擊、受傷等因素,而導致腦部受損時,人腦便無法完全將所產生的水份排出,而造成腦積水;或腦脊髓液的循環通路有阻塞,腦脊髓液之吸收與分泌未能達到平衡,造成過量的腦脊髓液未被人體吸收而積存於腦室,也會造成腦積水現象。According to the human body, under normal and healthy conditions, the ventricles of the brain produce a certain amount of cerebrospinal fluid (CSF) every day, and can automatically absorb and eliminate the cerebrospinal fluid produced by the ventricles to avoid accumulation in the ventricles. However, when a person's brain is damaged due to disease, impact, injury, etc., the human brain cannot completely discharge the water produced, resulting in hydrocephalus; or the circulation pathway of cerebrospinal fluid is blocked, and the cerebrospinal fluid becomes blocked. The absorption and secretion of fluid cannot reach a balance, resulting in excess cerebrospinal fluid not being absorbed by the body and accumulating in the ventricles, which can also cause hydrocephalus.

目前醫界為解決腦積水現象,通常皆採用腦室腹腔分流手術,將一腦積水引流裝置(單向儲水閥)設於腦積水患者之頭顱骨與頭皮之間,並配合腦室引流管、腹腔引流管分別連接腦室與腹腔,把腦室累積的腦脊髓液分流到腹腔而疏導排除,如此醫療處理可以達到讓病患獲得較佳的改善效果。At present, in order to solve the phenomenon of hydrocephalus, the medical community usually uses ventriculoperitoneal shunt surgery. A hydrocephalus drainage device (one-way water storage valve) is placed between the skull and scalp of the patient with hydrocephalus, and is used in conjunction with the ventricular drainage tube and abdominal cavity. Drainage tubes connect the ventricles and abdominal cavity respectively, shunting the cerebrospinal fluid accumulated in the ventricles to the abdominal cavity for drainage. This medical treatment can achieve better improvement results for patients.

然,由於設置該腦積水引流裝置之病患,其於躺著、坐著或站著時,都會於腦室引流管、腹腔引流管中產生不同虹吸作用之負壓,尤其病患由躺臥姿勢轉換為坐著或站著的姿勢時,該等腦室引流管、腹腔引流管中就會產生較大虹吸作用,由於該腦積水引流裝置不具隨時調整之功能,將可能產生過度引流情形,有其控制上之危險性。However, when a patient equipped with this hydrocephalus drainage device is lying, sitting or standing, negative pressures with different siphon effects will be generated in the ventricular drainage tube and abdominal drainage tube, especially when the patient moves from a lying position. When switching to a sitting or standing position, a greater siphon effect will occur in the ventricular drainage tube and abdominal drainage tube. Since the hydrocephalus drainage device does not have the function of being adjusted at any time, excessive drainage may occur, which may cause The dangers of control.

習知相關腦積水引流裝置(單向儲水閥)技術有M460631號專利案,其係提供一種腦室儲水閥之結構改良,其包含一具有容置區之座體,該座體之兩側係分別設有與容置區連通之輸入管及輸出管;一與座體活動結合且分別連通容置區及輸入管之上蓋,而該上蓋係設有至少二磁性體;以及一設於容置區與上蓋連通處之閥體。藉此,可將座體設於腦積水患者之頭顱骨與頭皮之間,並以輸入管配合導管連接側腦室,而輸出管則配合導管連接至腹腔,以作為腦積水之排除,且使用時係可旋轉上蓋進行閥體之調節,以配合腦內壓力作適當之流量控制,而達到可調整、不需拆換以及穩定度高之功效。The related hydrocephalus drainage device (one-way water storage valve) technology is known in the patent case No. M460631, which provides a structural improvement of the ventricular water storage valve, which includes a seat with a receiving area, and two sides of the seat. There are input pipes and output pipes connected to the accommodation area respectively; an upper cover is movably combined with the base and connected to the accommodation area and the input pipe respectively, and the upper cover is equipped with at least two magnetic bodies; and a cover is provided in the accommodation area. The valve body is connected to the upper cover. With this, the base can be placed between the skull and scalp of a patient with hydrocephalus, and the input tube is connected to the lateral ventricle with the catheter, and the output tube is connected to the abdominal cavity with the catheter to eliminate hydrocephalus, and when used The upper cover can be rotated to adjust the valve body to achieve appropriate flow control in accordance with the pressure in the brain, achieving the effects of being adjustable, not requiring replacement, and having high stability.

前述該習知腦室儲水閥(M460631)技術,其雖可旋轉上蓋來進行閥體之調節以控制流量,但直接旋轉上蓋極易使座體及相連之管道產生位移之缺失存在;且也不具隨時因應虹吸現象而自動調整,以避免過度引流之功能。The above-mentioned conventional ventricular water storage valve (M460631) technology has the disadvantage that although the upper cover can be rotated to adjust the valve body to control the flow rate, directly rotating the upper cover can easily cause displacement of the seat body and the connected pipes; and it does not have the disadvantage of It can automatically adjust according to the siphon phenomenon at any time to avoid excessive drainage.

又如M485699號專利案,其係提供一種腦積水引流管之抗虹吸裝置,包括:一腦室引流管、一腹腔引流管、一單向控制閥及一抗虹吸裝置;其中該抗虹吸裝置設一導引管,該導引管設於該單向控制閥、該腹腔引流管之間,該導引管設一流入管,流入管與一環狀管相通,該環狀管與二中通管相通,該二中通管與一流出管相通;又,該導引管上設一上蓋覆體及一下蓋覆體,該上、下蓋覆體恰上、下蓋覆該導引管表面並壓迫於環狀管上、下方,藉以壓迫方式減緩腦脊髓液之流速;如此,透過該上、下蓋覆體之壓迫減緩流速,即防止因該病患坐起或站起而於該腦積水引流管中產生較大虹吸作用,避免過度抽吸腦積水。Another example is the patent case No. M485699, which provides an anti-siphon device for hydrocephalus drainage tubes, including: a ventricular drainage tube, an abdominal drainage tube, a one-way control valve and an anti-siphon device; wherein the anti-siphon device is provided with a A guide tube is provided between the one-way control valve and the abdominal drainage tube. The guide tube is provided with an inflow tube. The inflow tube is connected to an annular tube. The annular tube is connected to the two central tubes. , the two middle passage pipes are connected with the first outlet pipe; and the guide pipe is provided with an upper covering body and a lower covering body, and the upper and lower covering bodies just cover the surface of the guide pipe and compress it Use compression to slow down the flow rate of cerebrospinal fluid above and below the annular tube. In this way, the flow rate is slowed down through the compression of the upper and lower coverings, which prevents the hydrocephalus from being drained when the patient sits or stands up. A large siphon effect is produced in the tube to avoid excessive suction of hydrocephalus.

前述該習知腦積水引流管之抗虹吸裝置(M485699)技術,加上其用以從頭顱體外可調整顱內壓力用之裝置(24)是設於該腹腔引流管(22)與單向控制閥(23)之間,即其抗虹吸裝置(24)為獨立設於該單向控制閥(23)組合,兩者成整體之構成,使得該習知技術之,將同時組成設想之創作。The aforementioned anti-siphon device (M485699) technology of the conventional hydrocephalus drainage tube, plus the device (24) used to adjust the intracranial pressure from outside the skull, is located on the abdominal drainage tube (22) and the one-way control Between the valve (23), that is, the anti-siphon device (24) is independently provided in combination with the one-way control valve (23), and the two are integrally formed, so that the conventional technology will simultaneously form an imaginary creation.

緣此,本發明人有鑑於現有腦積水引流裝置(單向儲水閥)於使用上之缺失及其結構設計上未臻理想之事實,本案發明人即著手研發其解決方案,希望能開發出一種更具有分流可調顱內不同壓力之醫材產品,且同時兼顧安全性及構成精簡性之腦積水分流可調節裝置,以服務社會及促進此業之發展,遂經多時之構思而有本發明之產生。For this reason, in view of the shortcomings in the use of the existing hydrocephalus drainage device (one-way water storage valve) and the fact that the structural design is not ideal, the inventor of the present case started to develop a solution, hoping to develop a solution. A medical product that has the ability to shunt and adjust different intracranial pressures, and which takes into account both safety and simplicity of composition, is a hydrocephalus shunt adjustable device that serves the society and promotes the development of this industry. It was conceived after a long period of time. The emergence of the invention.

本發明的一個目的在於提供一種腦積水分流壓力可調節裝置,其能使腦室引流管、腹腔引流管於體內分流時得以有效、安全地進行調節,避免產生過度引流情形,或阻塞沒有引流,而積極具有調節控制上之便利性與安全性。An object of the present invention is to provide a hydrocephalus shunt pressure-adjustable device that can effectively and safely adjust the ventricular drainage tube and the abdominal drainage tube when shunting in the body, to avoid excessive drainage, or obstruction without drainage, and It has the convenience and safety of adjustment and control.

本發明的一個目的在於提供一種腦積水分流壓力可調節裝置,其能在既有的腦積水引流裝置上進行構成設計,使增加引流不穩定狀態之可調節功能,且無需增加設備而能精簡整體醫療設施構成,具有使用上之極佳經濟效益及醫療使用之便利性者。An object of the present invention is to provide a hydrocephalus shunt pressure-adjustable device that can be designed on an existing hydrocephalus drainage device to increase the adjustable function of unstable drainage conditions without adding equipment and simplifying the overall structure. Medical facilities that have excellent economic benefits in use and convenience in medical use.

本發明為達上述目的所採用之技術手段,包括:一座體裝置,包括有一座體,該座體具有一容置腔室,該座體於該容置腔室之底緣設有一底窩槽,該底窩槽底緣設有一貫通之窩槽接孔;一閥體裝置,設於該容置腔室內,該閥體裝置包括有一調節件、球體、彈性元件、磁抵環件、調節彈性元件及頂蓋,該調節件具有上方一調節支體及下方一抵制空間,該球體設於該窩槽接孔處,該彈性元件設於該抵制空間內,並抵頂於該調節件與該球體之間,該磁抵環件套設於該調節支體上,該磁抵環件內設有至少一磁性件,該磁抵環件上方設有一凸伸出之抵環邊,該抵環邊之下緣設有梯狀底緣,該頂蓋固結於該座體,並被該調節支體所穿設,該調節彈性元件套設於該調節件之該抵制空間外側,並抵頂於該調節件與該容置腔室底緣之間,且使該磁抵環件受彈力而抵靠於該頂蓋;一覆蓋裝置,包括有為撓彈性體之至少一上覆蓋體,該上覆蓋體設於該座體上,並被該調節支體所抵頂。The technical means adopted by the present invention to achieve the above object include: a base device, which includes a base having a receiving chamber, and the base is provided with a bottom groove at the bottom edge of the receiving chamber. , the bottom edge of the bottom groove is provided with a through-hole socket connection hole; a valve body device is located in the accommodation chamber. The valve body device includes an adjustment member, a ball, an elastic element, a magnetic ring member, and an adjustment elastic member. The adjusting member has an upper adjusting support and a lower resisting space. The ball is disposed at the slot connection hole. The elastic element is disposed in the resisting space and resists the adjusting member and the resisting space. Between the spheres, the magnetic butt ring is sleeved on the adjusting support. There is at least one magnetic piece inside the magnetic butt ring. There is a protruding butt ring edge above the magnetic butt ring. The lower edge of the edge is provided with a ladder-like bottom edge. The top cover is fixed to the base and penetrated by the adjustment support. The adjustment elastic element is sleeved on the outside of the resistance space of the adjustment member and pushes against the top. Between the adjusting member and the bottom edge of the accommodation chamber, the magnetic ring member is elastically pressed against the top cover; a covering device includes at least one upper covering body that is a flexible elastic body, the The upper covering body is arranged on the base body and is supported by the adjusting support body.

在本實施例中,其中該磁抵環件中央部位具有一供該調節支體穿設之抵環通孔,該磁抵環件於該抵環通孔之周圍分別設有兩側呈對應之至少一用以設置該磁性件之凹槽。In this embodiment, the central part of the magnetic backing ring has a backing through hole for the adjustment support to pass through, and the magnetic backing ring is provided with corresponding two sides around the backing through hole. At least one groove for disposing the magnetic component.

在本實施例中,其中該梯狀底緣由複數呈不同厚度/高度所逐一連接形成之階梯狀凸環邊,使該梯狀底緣具呈逐漸升高或下降之構成。In this embodiment, the ladder-shaped bottom edge is formed by a plurality of stepped convex ring edges connected one by one with different thicknesses/heights, so that the ladder-shaped bottom edge is gradually raised or lowered.

在本實施例中,其中該底窩槽連接有複數緩衝槽,該窩槽接孔向下連接一腦室導接管,該座體一側連接有一腹腔導接管。In this embodiment, the bottom socket is connected to a plurality of buffer grooves, the socket connection hole is downwardly connected to a ventricular catheter, and one side of the base body is connected to an abdominal catheter.

在本實施例中,其中該調節支體呈一柱體狀,該調節支體底緣部位設有一凸環體,該調節支體於該凸環體下方延伸出有一用以形成該抵制空間之抵管柱。In this embodiment, the adjusting support body is in the shape of a cylinder, and a convex ring body is provided at the bottom edge of the adjusting support body. A convex ring body extends below the adjusting support body to form the resistance space. Against the pipe string.

在本實施例中,其中該座體於該容置腔室之頂緣設有一內螺紋,而該頂蓋周緣設有外螺紋,用以螺結於該內螺紋。In this embodiment, the base body is provided with an internal thread on the top edge of the accommodation chamber, and the top cover is provided with external threads on its periphery for screwing into the internal thread.

在本實施例中,其中該上覆蓋體包括有一體成形之一上覆體及位於該上覆體周緣之一上周環體,該上覆體內部具有一操作空間,該上覆體對應該調節支體之內面設有操作抵面,該操作抵面提供與該調節支體之相互抵頂,該上周環體相對該腹腔導接管之一面設有一上管接槽。In this embodiment, the upper covering body includes an integrally formed upper body and an annular ring body located on the periphery of the upper covering body. There is an operating space inside the upper covering body, and the upper covering body corresponds to the The inner surface of the adjusting support body is provided with an operating abutment surface, which provides mutual abutment with the adjusting support body. The circumferential ring body is provided with an upper tube receiving groove on a surface relative to the abdominal cavity catheter.

在本實施例中,其中該覆蓋裝置進一步包括有套設於該座體底部之一下覆套體,該上覆蓋體及該下覆套體為生醫用矽膠材質之撓彈性體。In this embodiment, the covering device further includes a lower covering body that is sleeved on the bottom of the base body. The upper covering body and the lower covering body are flexible elastomers made of biomedical silicone.

在本實施例中,其中該下覆套體包括有一體成形之一下覆體及位於該下覆體周緣之一下周環體,該下覆體內部具有一套覆空間,該下覆體於該套覆空間之底部設有一穿孔,該下周環體相對該腹腔導接管之一面設有一下管接槽。In this embodiment, the lower covering body includes an integrally formed lower covering body and a peripheral ring body located at the periphery of the lower covering body. The lower covering body has a covering space inside, and the lower covering body is located in the lower covering body. The bottom of the covering space is provided with a perforation, and the peripheral ring body is provided with a lower pipe connection groove on a surface opposite to the abdominal cavity guide pipe.

在本實施例中,其中該上周環體與該下周環體相固結,該上管接槽及該下管接槽合套住該腹腔導接管。In this embodiment, the upper ring body and the lower ring body are fixed, and the upper tube connecting groove and the lower tube connecting groove cover the abdominal catheter.

在本實施例中,其中該腦室導接管連接一腦室引流管,該腹腔導接管連接一腹腔引流管。In this embodiment, the ventricular catheter is connected to a ventricular drainage tube, and the abdominal catheter is connected to an abdominal drainage tube.

在本實施例中,其中該球體為一紅寶石或其他生醫材料製成。In this embodiment, the sphere is made of ruby or other biomedical materials.

在本實施例中,其中該頂蓋之中央部位設有一供該調節支體穿設之軸通孔,該軸通孔之對應兩側分別設有至少一操作槽孔。In this embodiment, a central part of the top cover is provided with a shaft through hole for the adjustment support to pass through, and at least one operating slot is provided on the corresponding two sides of the shaft through hole.

茲為使 貴審查委員對本發明之技術特徵及所達成之功效更有進一步之瞭解與認識,謹佐以較佳之實施例圖及配合詳細之說明,說明如後:In order to enable your review committee to have a better understanding of the technical features and effects achieved by the present invention, we would like to provide you with a diagram of the preferred embodiment and a detailed description, as follows:

請參閱圖1、2及3,用以說明本發明腦積水分流壓力可調節裝置之構成實施例,本實施例所揭示之腦積水分流壓力可調節裝置1包括有一座體10、一閥體裝置20及覆蓋裝置30;其中,該座體裝置10包括有一座體11,該座體11可為鈦金屬之材質,該座體11具有一容置腔室110,該座體11於容置腔室110之頂緣(方向依圖式所示之方向,下同)設有一內螺紋111,該座體11於容置腔室110之底緣(方向依圖式所示之方向,下同)設有一圓弧狀之底窩槽12及複數緩衝槽122,該底窩槽12之頂緣連接該緩衝槽122,該底窩槽12底緣並設有一貫通該座體11之窩槽接孔121,該座體裝置10底緣向下設有一腦室導接管14,該腦室導接管14連通該窩槽接孔121,使該容置腔室110與該腦室導接管14形成通路,而該腦室導接管14係可與該座體11一體成型或以螺接而相連結,該座體11之環壁一側設有一腹腔導接管13,該座體11相對該腹腔導接管13之環壁上設有一壁接孔131,該壁接孔131位於該座體11頂緣之下方,避免形成外溢現象,該壁接孔131連通該腹腔導接管13,使該容置腔室110與該腹腔導接管13形成通路,而該腹腔導接管13係可與該座體11一體成型或以螺接而相連結。Please refer to Figures 1, 2 and 3 to illustrate the structural embodiment of the adjustable hydrocephalus shunt pressure device of the present invention. The adjustable hydrocephalus shunt pressure device 1 disclosed in this embodiment includes a base 10 and a valve device. 20 and covering device 30; wherein, the base device 10 includes a base 11, which can be made of titanium metal. The base 11 has a receiving chamber 110, and the base 11 is in the receiving chamber. The top edge of the chamber 110 (the direction is in the direction shown in the figure, the same below) is provided with an internal thread 111, and the base 11 is at the bottom edge of the chamber 110 (the direction is in the direction shown in the diagram, the same below). An arc-shaped bottom groove 12 and a plurality of buffer grooves 122 are provided. The top edge of the bottom groove 12 is connected to the buffer groove 122. The bottom edge of the bottom groove 12 is also provided with a socket connection hole penetrating the base body 11. 121. A ventricular conduit 14 is provided downward from the bottom edge of the base device 10. The ventricular conduit 14 is connected to the socket connection hole 121, so that the accommodation chamber 110 and the ventricular conduit 14 form a passage, and the ventricle The guide tube 14 can be integrally formed with the seat 11 or connected by screws. An abdominal guide tube 13 is provided on one side of the ring wall of the seat 11. The seat 11 is opposite to the ring wall of the abdominal guide tube 13. A wall connection hole 131 is provided. The wall connection hole 131 is located below the top edge of the seat 11 to avoid overflow. The wall connection hole 131 is connected to the abdominal cavity catheter 13 so that the accommodation chamber 110 and the abdominal cavity catheter are connected. The pipe 13 forms a passage, and the abdominal cavity pipe 13 can be integrally formed with the seat 11 or connected by screws.

該閥體裝置20是設於該容置腔室110內,該閥體裝置20包括有一調節件21、球體22、彈性元件23、磁抵環件25、調節彈性元件24及頂蓋26,該調節件21具有一調節支體211,該調節支體211可呈一柱體狀,該調節支體211底緣部位設有一凸環體212,該調節件21/調節支體211於該凸環體212下方延伸出有一抵管柱213,該抵管柱213內設有一抵制空間214;該球體22係可為一紅寶石或其他生醫材料製成,該球體22設於該底窩槽12之窩槽接孔121處,該彈性元件23設於該抵制空間214內,且該彈性元件23並抵頂於該抵制空間214(調節件21)與該球體22之間。該調節彈性元件24是套設於該抵管柱213之外環部位,且該調節彈性元件24抵頂於該凸環體212與該容置腔室110底緣之間,該調節彈性元件24用以提供該調節件21運作上之彈性調節力。該磁抵環件25樞設套置於該調節支體211(調節件21)上,使該磁抵環件25位於該調節件21之上方,請一併參圖2A,該磁抵環件25中央部位具有貫穿之一抵環通孔250,該抵環通孔250供該調節支體211之穿設,該磁抵環件25包括有一環座體253與該環座體253上緣凸伸出之一抵環邊254,該環座體253接觸位於該凸環體212上,該磁抵環件25/環座體253下方位於該抵環通孔250之周圍分別設有兩側呈對應之至少一凹槽251,每一凹槽251內設有一磁性件252,亦即,該磁抵環件25對應兩側皆有磁性件252之設置,該抵環邊254之下緣設有梯狀底緣255,該梯狀底緣255由複數呈不同厚度/高度所逐一連接形成之階梯狀凸環邊,使該梯狀底緣255(階梯狀凸環邊)之主要區域呈逐漸升高或下降之構成;該頂蓋26周緣設有外螺紋260,藉該外螺紋260螺結於該座體11之內螺紋111,該頂蓋26之中央部位設有一軸通孔261,該軸通孔261之對應兩側分別設有至少一操作槽孔262,該操作槽孔262可為一穿孔或凹槽(本實施例以穿孔來設置),用以提供外部治具進行該頂蓋26螺固,該軸通孔261供該調節支體211(調節件21)之穿設定位,而該磁抵環件25受該調節彈性元件24(凸環體212)之向上推力而抵靠於該頂蓋26。The valve body device 20 is located in the accommodation chamber 110. The valve body device 20 includes an adjustment member 21, a ball 22, an elastic member 23, a magnetic ring member 25, an adjustment elastic member 24 and a top cover 26. The adjusting member 21 has an adjusting support body 211. The adjusting support body 211 can be in the shape of a cylinder. A convex ring body 212 is provided at the bottom edge of the adjusting support body 211. The adjusting member 21/adjusting support body 211 is located on the convex ring. A resisting column 213 extends below the body 212, and a resisting space 214 is provided in the resisting column 213; the sphere 22 can be made of ruby or other biomedical materials, and the sphere 22 is located in the bottom groove 12 At the socket connection hole 121 , the elastic element 23 is disposed in the resistance space 214 , and the elastic element 23 abuts between the resistance space 214 (adjusting member 21 ) and the ball 22 . The adjusting elastic element 24 is sleeved on the outer ring portion of the resisting column 213, and the adjusting elastic element 24 abuts between the convex ring body 212 and the bottom edge of the accommodation chamber 110. The adjusting elastic element 24 It is used to provide elastic adjustment force for the operation of the adjusting member 21 . The magnetic ring member 25 is pivotally mounted on the adjusting support 211 (adjusting member 21 ), so that the magnetic ring member 25 is located above the adjusting member 21 . Please refer to Figure 2A as well. The central part of 25 has a ring-butting through hole 250 that is used for the adjustment support 211 to pass through. The magnetic ring-butting member 25 includes a ring base 253 and an upper edge protrusion of the ring base 253. A protruding butt ring edge 254 contacts the convex ring body 212 with the ring base body 253. The magnetic backing ring member 25/ring base body 253 is provided with two sides respectively below the ring and the ring through hole 250. Corresponding to at least one groove 251, each groove 251 is provided with a magnetic component 252, that is, the magnetic abutment ring component 25 is provided with magnetic components 252 on both sides, and the lower edge of the abutment ring edge 254 is provided with The ladder-shaped bottom edge 255 is composed of a plurality of stepped convex ring edges connected one by one with different thicknesses/heights, so that the main area of the ladder-shaped bottom edge 255 (stepped convex ring edge) gradually rises. The top cover 26 has an external thread 260 on its periphery, and the external thread 260 is screwed to the internal thread 111 of the base body 11. A shaft through hole 261 is provided in the center of the top cover 26, and the shaft is Corresponding two sides of the through hole 261 are respectively provided with at least one operation slot 262. The operation slot 262 can be a perforation or a groove (this embodiment is provided with a perforation) to provide an external fixture for fixing the top cover 26 The shaft through hole 261 is used for the adjustment support 211 (adjusting member 21) to pass through and set, and the magnetic ring member 25 is pushed upward by the adjusting elastic member 24 (convex ring body 212) to resist the The top cover 26.

該覆蓋裝置30包括有一上覆蓋體31及下覆套體32,該上覆蓋體31及下覆套體32為生醫用矽膠材質之撓彈性體,該上覆蓋體31包括有一體成形之一上覆體311及位於該上覆體311周緣之上周環體312,該上覆體311內部具有一操作空間310,該上覆體311對應該調節件21(調節支體211)之內面設有操作抵面313,該操作抵面313提供與該調節支體211之相互抵頂,而該操作空間310則提供該調節支體211與操作抵面313間之相互抵頂的互動運作空間,該上周環體312相對該腹腔導接管13之一面設有一上管接槽314;該下覆套體32包括有一體成形之一下覆體321及位於該下覆體321周緣之一下周環體322,該下覆體321內部具有一套覆空間320,該下覆體321於該套覆空間320之底部設有一穿孔323,該套覆空間320與該座體11底緣具有相互搭配結合之構成形狀,該下周環體322相對該腹腔導接管13之一面設有一下管接槽324。The covering device 30 includes an upper covering body 31 and a lower covering body 32. The upper covering body 31 and the lower covering body 32 are flexible elastomers made of biomedical silicone. The upper covering body 31 includes an integrally formed The upper body 311 and the circumferential body 312 located on the periphery of the upper body 311 have an operating space 310 inside the upper body 311. The upper body 311 corresponds to the inner surface of the adjusting member 21 (adjusting support body 211). An operation surface 313 is provided. The operation surface 313 provides mutual resistance against the adjustment support 211 . The operation space 310 provides an interactive operation space between the adjustment support 211 and the operation resistance surface 313 . , the upper ring body 312 is provided with an upper tube receiving groove 314 on one side of the abdominal cavity catheter tube 13; the lower covering body 32 includes an integrally formed lower covering body 321 and a peripheral ring located on the periphery of the lower covering body 321 The body 322 has a covering space 320 inside the lower covering body 321. The lower covering body 321 is provided with a through hole 323 at the bottom of the covering space 320. The covering space 320 and the bottom edge of the base body 11 have mutual matching combinations. In such a configuration, the peripheral ring body 322 is provided with a lower pipe connecting groove 324 on one surface of the abdominal cavity catheter 13 .

本發明腦積水分流壓力可調節裝置之構成實施例組合時,該座體11之腦室導接管14通過該下覆體32之穿孔323,使該下覆體32套覆於該座體11底部,繼將該閥體裝置20依序組合設於該容置腔室110內,再將該上覆蓋體31組接於該下覆體32,即使該上周環體312、下周環體322相固結(如熱融或膠結),使該上覆蓋體31蓋覆於該座體11之頂緣,並被該調節支體211(調節件21)所抵頂。When the embodiments of the hydrocephalus shunt pressure-adjustable device of the present invention are combined, the ventricular conduit 14 of the base body 11 passes through the perforation 323 of the lower covering body 32, so that the lower covering body 32 covers the bottom of the base body 11. After the valve body device 20 is sequentially assembled and installed in the accommodation chamber 110, the upper cover body 31 is assembled to the lower cover body 32, so that the upper ring body 312 and the lower ring body 322 are connected to each other. Consolidation (such as heat melting or gluing) makes the upper covering body 31 cover the top edge of the base body 11 and be pushed up by the adjusting support body 211 (adjusting member 21).

此時,該調節支體211(調節件21)受該彈性元件23之彈力作用,而平衡位於該座體11之容置腔室110底緣與該上覆蓋體31(上覆體311)內面之操作抵面313下方,而該球體22則受該彈性元件23之抵頂而封住該窩槽接孔121,用以形成單向儲水閥構成;該磁抵環件25則受該調節彈性元件24之抵頂而貼靠於該頂蓋26。另,該上管接槽314及下管接槽324則合套住該腹腔導接管13,即完成該腦積水分流壓力可調節裝置1之組裝。At this time, the adjusting support body 211 (adjusting member 21) is affected by the elastic force of the elastic element 23, and is balanced between the bottom edge of the accommodation chamber 110 of the base body 11 and the upper covering body 31 (upper covering body 311). The operating surface 313 is pressed below, and the ball 22 is pushed by the elastic element 23 to seal the socket hole 121 to form a one-way water storage valve; the magnetic ring member 25 is supported by the The elastic element 24 is adjusted to abut against the top cover 26 . In addition, the upper tube connecting groove 314 and the lower tube connecting groove 324 cover the abdominal cavity catheter 13, thereby completing the assembly of the hydrocephalus shunt pressure adjustable device 1.

請一併圖4所示,本發明腦積水分流壓力可調節裝置設置應用時,該腦積水分流壓力可調節裝置1設置於患者之頭部100,並可被頭皮102所覆蓋;該腦室導接管14連接一腦室引流管16,該腦室引流管16延伸至頭部100之腦室區101,而該腹腔導接管13連接一腹腔引流管15,該腹腔引流管15延伸至患者之腹腔部位。As shown in Figure 4, when the hydrocephalus shunt pressure adjustable device of the present invention is installed and used, the hydrocephalus shunt pressure adjustable device 1 is installed on the patient's head 100 and can be covered by the scalp 102; the ventricular catheter 14 is connected to a ventricular drainage tube 16, which extends to the ventricular area 101 of the head 100, and the abdominal drainage tube 13 is connected to an abdominal drainage tube 15, which extends to the patient's abdominal cavity.

請一併參閱圖5、6,當本發明腦積水分流壓力可調節裝置設置進行使用時,患者之腦內積水可由該腦室引流管16、腦室導接管14而往該閥體裝置20方向流動流動,並進入該容置腔室110內,而配合該閥體裝置20利用其彈性元件23與球體22作為逆止閥(防止回流),而讓患者之腦內積水/腦脊髓液以適當之流速往該腹腔導接管13、腹腔引流管15之方向導流至患者之腹腔,以作為腦積水/腦脊髓液之排除。Please refer to Figures 5 and 6 together. When the hydrocephalus shunt pressure-adjustable device of the present invention is installed and used, the patient's hydrocephalus can flow in the direction of the valve device 20 through the ventricular drainage tube 16 and the ventricular conduit 14. , and enters the accommodation chamber 110, and cooperates with the valve device 20 to use its elastic element 23 and ball 22 as a check valve (to prevent backflow), so that the patient's hydrocephalus/cerebrospinal fluid can flow at an appropriate speed. The abdominal cavity catheter 13 and the abdominal drainage tube 15 are directed to the patient's abdominal cavity for drainage of hydrocephalus/cerebrospinal fluid.

當該病患因坐起或站起使該腦積水引流管中產生較大虹吸作用或其他現象導致該腹腔導接管13之流出量較大時,為避免過度抽吸腦積水,即可藉由一外部磁性工具200來進行對該閥體裝置20之調節,由於該磁性件252具有磁性件252之設置,因此該外部磁性工具200可磁吸連動該磁抵環件25使進行旋轉,如此即可藉該梯狀底緣255相對該壁接孔131呈不同厚度/高度位置之選擇設定,產生對該壁接孔131之不同遮擋狀態,用以調節該容置腔室110內之腦積水往該壁接孔131流出量之控制。由於本發明對該容置腔室110內之腦積水/腦脊髓液之排出流速調節度制,乃對該磁抵環件25來進行磁吸控制之旋轉操作,並不會對該頂蓋26之定位產生影響,因此也不會連動到該座體11及該腹腔導接管13、腦室導接管14,使得便利性及安全性大為提升。When the patient sits or stands up, causing a greater siphon effect in the hydrocephalus drainage tube or other phenomena that result in a greater outflow from the abdominal drainage tube 13, in order to avoid excessive suction of hydrocephalus, the patient can An external magnetic tool 200 is used to adjust the valve body device 20. Since the magnetic component 252 has a magnetic component 252, the external magnetic tool 200 can magnetically attract and link the magnetic ring component 25 to rotate, so that The ladder-shaped bottom edge 255 can be selectively set to different thicknesses/heights relative to the wall connection hole 131 to produce different blocking states of the wall connection hole 131 to adjust the direction of hydrocephalus in the accommodation chamber 110 The outflow volume of the wall connection hole 131 is controlled. Since the present invention regulates the discharge flow rate of hydrocephalus/cerebrospinal fluid in the accommodating chamber 110, it performs a magnetically controlled rotation operation on the magnetic ring 25 and does not control the top cover 26. The positioning is affected, so it will not be linked to the base 11 and the abdominal cavity catheter 13 and the ventricular catheter 14, so that the convenience and safety are greatly improved.

通過該閥體裝置20進入容置腔室110內之腦積水/腦脊髓液,會對該調節件21產液壓之推力作用,而由於該調節支體211之上升可抵頂於該上覆蓋體31(上覆體311),即該上覆蓋體31(上覆體311)可通過抵壓該調節支體211而使該閥體裝置20向下運作,也可藉以調節腦積水/腦脊髓液進入該容置腔室110之流量。The hydrocephalus/cerebrospinal fluid entering the accommodating chamber 110 through the valve body device 20 will exert a hydraulic thrust on the adjusting member 21, and due to the rise of the adjusting support 211, it can resist the upper covering body. 31 (overlying body 311), that is, the upper covering body 31 (overlying body 311) can make the valve body device 20 operate downward by pressing against the adjusting support 211, and can also regulate hydrocephalus/cerebrospinal fluid. The flow rate entering the accommodation chamber 110.

本發明腦積水分流壓力可調節裝置藉由上述構成,其能使腦室引流管、腹腔引流管中產生較大虹吸作用時得以有效、安全地進行調節,避免產生過度引流情形,而積極具有調節控制上之便利性與安全性;同時,本發明能在既有的腦積水引流裝置上進行構成設計,使增加引流不穩定狀態之可調節功能,且無需增加設備而能精簡整體醫療設施構成,具有使用上之極佳經濟效益及醫療使用之便利性。The hydrocephalus shunt pressure adjustable device of the present invention has the above composition, which can effectively and safely adjust the ventricular drainage tube and the abdominal drainage tube when a large siphon effect occurs, avoid excessive drainage, and actively have adjustment control At the same time, the present invention can be designed on the existing hydrocephalus drainage device to increase the adjustable function of unstable drainage status, and can streamline the overall medical facility structure without adding equipment. Excellent economic benefits in use and convenience in medical use.

本發明已通過上述較佳具體實施例進行更詳細說明,惟發明作並不限定於上述所舉例之實施例,凡在本發明揭示之技術思想範圍內,對該等結構作各種變化及修飾仍屬本發明之範圍。The present invention has been described in more detail through the above-mentioned preferred embodiments. However, the invention is not limited to the above-exemplified embodiments. Various changes and modifications to these structures can be made within the scope of the technical ideas disclosed in the present invention. scope of the invention.

1:腦積水分流壓力可調節裝置 10:座體 11:座體 110:容置腔室 111:內螺紋 12:底窩槽 121:窩槽接孔 122:緩衝槽 13:腹腔導接管 131:壁接孔 14:腦室導接管 15:腹腔引流管 16:腦室引流管 20:閥體裝置 21:調節件 211:調節支體 212:凸環體 213:抵管柱 214:抵制空間 22:球體 23:彈性元件 24:調節彈性元件 25:磁抵環件 250:抵環通孔 251:凹槽 252:磁性件 253:環座體 254:抵環邊 255:梯狀底緣 26:頂蓋 260:外螺紋 261:軸通孔 262:操作槽孔 30:覆蓋裝置 31:上覆蓋體 310:操作空間 311:上覆體 312:上周環體 313:操作抵面 314:上管接槽 32:下覆套體 320:套覆空間 321:下覆體 322:下周環體 323:穿孔 324:下管接槽 100:頭部 101:腦室區 102:頭皮 200:外部磁性工具 1: Hydrocephalus shunt pressure adjustable device 10: base body 11: base body 110: Accommodation chamber 111: Internal thread 12: Bottom groove 121: socket socket 122:Buffer tank 13: Abdominal catheter tube 131: Wall connection hole 14: Ventricular catheter connection 15: Abdominal drainage tube 16: Ventricular drainage tube 20: Valve body device 21:Adjusting parts 211:Adjusting support 212:convex ring body 213: against the pipe string 214: Resistance space 22:Sphere 23: Elastic element 24:Adjust elastic element 25: Magnetic ring 250: through hole of ring 251: Groove 252:Magnetic parts 253:Ring base body 254:Reach the edge of the ring 255: Ladder-shaped bottom edge 26:Top cover 260: External thread 261: Shaft through hole 262: Operation slot 30: Covering device 31: Upper covering body 310: Operation space 311: Overlying body 312: Last ring body 313: Operation against the surface 314:Top tube slot 32: Lower cover body 320: Covering space 321:Inferior covering body 322: Next week’s ring body 323:Perforation 324:Downtube slot 100:Head 101: Ventricular zone 102:Scalp 200:External magnetic tools

圖1為本發明之立體示意圖。Figure 1 is a schematic three-dimensional view of the present invention.

圖2為本發明之分解示意圖。Figure 2 is an exploded schematic diagram of the present invention.

圖2A為本發明磁抵環件之下方角度示意圖Figure 2A is a schematic diagram of the lower angle of the magnetic holding ring of the present invention.

圖3為本發明之剖視示意圖。Figure 3 is a schematic cross-sectional view of the present invention.

圖4為本發明之應用示意圖。Figure 4 is a schematic diagram of the application of the present invention.

圖5為本發明之引流調節示意圖一。Figure 5 is a schematic diagram 1 of the drainage adjustment according to the present invention.

圖6為本發明之引流調節示意圖二。Figure 6 is the second schematic diagram of drainage adjustment according to the present invention.

1:腦積水分流壓力可調節裝置 1: Hydrocephalus shunt pressure adjustable device

10:座體 10: base body

11:座體 11: base body

110:容置腔室 110: Accommodation chamber

13:腹腔導接管 13: Abdominal catheter tube

14:腦室導接管 14: Ventricular catheter connection

15:腹腔引流管 15: Abdominal drainage tube

16:腦室引流管 16: Ventricular drainage tube

20:閥體裝置 20: Valve body device

21:調節件 21:Adjusting parts

211:調節支體 211:Adjusting support

26:頂蓋 26:Top cover

30:覆蓋裝置 30: Covering device

31:上覆蓋體 31: Upper covering body

32:下覆套體 32: Lower cover body

Claims (10)

一種腦積水分流壓力可調節裝置,其包括有: 一座體裝置,包括有一座體,該座體具有一容置腔室,該座體於該容置腔室之底緣設有一底窩槽,該底窩槽底緣設有一貫通之窩槽接孔; 一閥體裝置,設於該容置腔室內,該閥體裝置包括有一調節件、球體、彈性元件、磁抵環件、調節彈性元件及頂蓋,該調節件具有上方一調節支體及下方一抵制空間,該球體設於該窩槽接孔處,該彈性元件設於該抵制空間內,並抵頂於該調節件與該球體之間,該磁抵環件套設於該調節支體上,該磁抵環件內設有至少一磁性件,該磁抵環件上方設有一凸伸出之抵環邊,該抵環邊之下緣設有梯狀底緣,該頂蓋固結於該座體,並被該調節支體所穿設,該調節彈性元件套設於該調節件之該抵制空間外側,並抵頂於該調節件與該容置腔室底緣之間,且使該磁抵環件受彈力而抵靠於該頂蓋; 一覆蓋裝置,包括有為撓彈性體之至少一上覆蓋體,該上覆蓋體設於該座體上,並被該調節支體所抵頂。 A hydrocephalus shunt pressure-adjustable device, which includes: A base device includes a base, which has a receiving chamber. The base is provided with a bottom groove at the bottom edge of the holding chamber. The bottom edge of the bottom groove is provided with a through-going socket connection. hole; A valve body device is located in the accommodation chamber. The valve body device includes an adjusting member, a ball, an elastic element, a magnetic ring, an adjusting elastic element and a top cover. The adjusting member has an upper adjusting support and a lower A resistance space, the ball is provided at the socket connection hole, the elastic element is provided in the resistance space, and is pressed between the adjustment member and the ball, and the magnetic resistance ring is sleeved on the adjustment support body There is at least one magnetic element inside the magnetic ring. There is a protruding ring edge above the magnetic ring. The lower edge of the ring edge is provided with a ladder-shaped bottom edge. The top cover is fixed On the base body and penetrated by the adjusting support body, the adjusting elastic element is sleeved on the outside of the resisting space of the adjusting member and butts between the adjusting member and the bottom edge of the accommodation chamber, and The magnetic ring member is elastically pressed against the top cover; A covering device includes at least one upper covering body which is a flexible elastic body. The upper covering body is arranged on the base body and is resisted by the adjusting support body. 如申請專利範圍第1項之腦積水分流壓力可調節裝置,其中該磁抵環件中央部位具有一供該調節支體穿設之抵環通孔,該磁抵環件於該抵環通孔之周圍分別設有兩側呈對應之至少一用以設置該磁性件之凹槽。For example, in the hydrocephalus shunt pressure adjustable device of item 1 of the patent application, the central part of the magnetic backing ring has a backing ring through hole for the adjustment support to pass through, and the magnetic backing ring is in the backing ring through hole. There are at least one corresponding groove on both sides for arranging the magnetic component. 如申請專利範圍第2項之腦積水分流壓力可調節裝置,其中該梯狀底緣由複數呈不同厚度/高度所逐一連接形成之階梯狀凸環邊,使該梯狀底緣具呈逐漸升高或下降之構成。For example, in the hydrocephalus shunt pressure adjustable device of item 2 of the patent application, the ladder-shaped bottom edge is formed by a plurality of stepped convex ring edges that are connected one by one with different thicknesses/heights, so that the ladder-shaped bottom edge gradually rises. or the composition of decline. 如申請專利範圍第1項之腦積水分流壓力可調節裝置,其中該底窩槽連接有複數緩衝槽,該窩槽接孔向下連接一腦室導接管,該座體一側連接有一腹腔導接管。For example, in the hydrocephalus shunt pressure adjustable device of item 1 of the patent application, the bottom socket is connected with a plurality of buffer grooves, the socket socket is connected downwardly to a ventricular catheter, and one side of the base is connected to an abdominal catheter . 如申請專利範圍第1項之腦積水分流壓力可調節裝置,其中該調節支體呈一柱體狀,該調節支體底緣部位設有一凸環體,該調節支體於該凸環體下方延伸出有一用以形成該抵制空間之抵管柱。For example, in the hydrocephalus shunt pressure adjustable device of item 1 of the patent application, the adjusting support body is in the shape of a cylinder, and a convex ring body is provided at the bottom edge of the adjusting support body, and the adjusting support body is below the convex ring body A resisting pipe column is extended to form the resisting space. 如申請專利範圍第1項之腦積水分流壓力可調節裝置,其中該座體於該容置腔室之頂緣設有一內螺紋,而該頂蓋周緣設有外螺紋,用以螺結於該內螺紋。For example, in the hydrocephalus shunt pressure adjustable device of item 1 of the patent application, the base body is provided with an internal thread on the top edge of the accommodation chamber, and the top cover is provided with external threads on the periphery for screwing to the Internal thread. 如申請專利範圍第6項之腦積水分流壓力可調節裝置,其中該上覆蓋體包括有一體成形之一上覆體及位於該上覆體周緣之一上周環體,該上覆體內部具有一操作空間,該上覆體對應該調節支體之內面設有操作抵面,該操作抵面提供與該調節支體之相互抵頂,該上周環體相對該腹腔導接管之一面設有一上管接槽。For example, in the hydrocephalus shunt pressure adjustable device of item 6 of the patent application, the upper covering body includes an integrally formed upper covering body and an upper annular body located at the periphery of the upper covering body, and the upper covering body has an internal An operating space, the upper body is provided with an operating abutment surface corresponding to the inner surface of the adjustment support body, the operation abutment surface provides mutual abutment with the adjustment support body, and the circumferential ring body is located relative to a surface of the abdominal cavity guide tube. There is an upper pipe connection slot. 如申請專利範圍第7項之腦積水分流壓力可調節裝置,其中該覆蓋裝置進一步包括有套設於該座體底部之一下覆套體,該上覆蓋體及該下覆套體為生醫用矽膠材質之撓彈性體。For example, in the hydrocephalus shunt pressure adjustable device of item 7 of the patent application, the covering device further includes a lower covering body set on the bottom of the base body, and the upper covering body and the lower covering body are for biomedical use. Flexible elastomer made of silicone. 如申請專利範圍第8項之腦積水分流壓力可調節裝置,其中該下覆套體包括有一體成形之一下覆體及位於該下覆體周緣之一下周環體,該下覆體內部具有一套覆空間,該下覆體於該套覆空間之底部設有一穿孔,該下周環體相對該腹腔導接管之一面設有一下管接槽。For example, in the hydrocephalus shunt pressure adjustable device of item 8 of the patent application, the lower covering body includes an integrally formed lower covering body and a peripheral annular body located at the periphery of the lower covering body, and the lower covering body has an internal Covering the space, the lower covering body is provided with a perforation at the bottom of the covering space, and the lower peripheral ring body is provided with a lower pipe connecting groove on a surface opposite to the abdominal cavity catheter. 如申請專利範圍第9項之腦積水分流壓力可調節裝置,其中該上周環體與該下周環體相固結,該上管接槽及該下管接槽合套住該腹腔導接管,該腦室導接管連接一腦室引流管,該腹腔導接管連接一腹腔引流管。For example, in the hydrocephalus shunt pressure adjustable device of Item 9 of the patent application, the upper ring body and the lower ring body are fixed, and the upper tube connecting groove and the lower tube connecting groove fit to cover the abdominal catheter. , the ventricular catheter is connected to a ventricular drainage tube, and the abdominal catheter is connected to an abdominal drainage tube.
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