M410609 五、新型說明: 【新型所屬之技術領域】 本創作是有關於一種利用抽氣壓差之生醫原料搜摔器結 構,尤指一種可避免生醫原料凝固後產生氣孔,而達到均質以 及避免氣泡於調製物固化後造成之材質弱化問題者。 * 【先前技術】 按,一般許多需要混合調製之生醫原料,如:硫酸飼、磷 • 酸鈣或骨水泥…等,以往都需要先將粉或顆粒狀醫療物質,放 置於一撥拌器皿中,之後再逐漸加入適量之調和溶液進行攪 拌’待調製物之黏稠度及溫度均調整到最適當之狀態時便可作 為後續之使用。 然’社述㈣之方拌Μ ’时造成有調製過程不 便、調製手續繁複、調製過程易遭受污染…等問題外,另外就 是會因調製触巾有氣泡混人,而使調祕之狀財均以及硬 化後之強度受影響’進而導致調製物固化後造成有材質弱化之 零 問題。 ' 【新型内容】 本創作之主要目的係在於,可將所需之生醫原料設於杯體 中,並於蓋體之接頭連接一抽氣設備,而於抽氣時,利用負壓 之壓差,氣體導引機構轉動,進而帶動授拌機構充分調和攪拌 抓生·#原料’且同時讓負壓經過抽氣歧管之配合抽取杯體内 工氣而防止氣泡渗入調和攪拌之過程,以避免生醫原料凝固 4 =2^^達到均質以及避免氣泡於調製物固化後造成之 攪拌本創作係—種彻抽氣壓差之生醫原料 連通。接二ί有杯體及蓋體之容器’而該蓋體上係 引機禮ϋ ’―設於蓋體之中氣體料機構;—端與氣體導 體==:=之攪拌機構⑽-與杯體及氣 墊圈 於本創作之-實施财,該杯體與蓋體之間係設有一氣密 穿孔。 導引之—實施射,體内頂面上係設有一與氣體 I機構―之固定孔,且該蓋體上係具有與減歧管連通之 “於本創作之一實施例中,該氣體導引機構至少包含有-與 盍體内頂面結合之殼體、—活動設於殼體中且具有心轴之扇 葉:一連通設於殼體-端之進氣管、及—連通設於殼體另端之 抽氣管。 於本創作之-實關巾’該殼體係包含有相互組接之上蓋 ^下I而5玄上蓋係具有與蓋體内頂面結合之固定部,且該下 蓋係具有與心軸對應之貫孔。 於本創作之-實施例中,賴拌機構至少包含有一設於芸 體内且位魏料引機構下方之氣密絲一設贼密底座: 且與抽氣歧官連通之抽氣通道、一穿過氣密底座與氣體導引機 構連接之傳動桿、-與傳動桿連接之内錄、—與内齒輪相互 嚙合之行星齒輪、一與行星齒輪結合且設於杯體中之攪拌棒。 於本創作之一實施例中,該氣密底座上係設有一可供傳動 桿穿設之·,而該·之職係環設有一墊圈。 於本創作之-實施财,該内齒輪之内面上係設有一供授 袢棒一端對接之插接部。 ,於本創作之-實施例巾’該抽氣歧管至少包含有一透過攪 拌機構與杯體連通之第—管體、—連通氣體導引機構與第—管 體=第二管體一設於第二管體中之閥體、及—帶動閥體且設 於蓋體外部之閥體開關。 【實施方式】 請參閱『第1、2、3及第4圖』所示,係分別為本創作 之外觀不意圖、本創作之分解示意圖、本創作氣體導引機構之 分解示意圖及本創作之使用狀態示意圖。如圖所示:本創作係 一種利用抽氣壓差之生醫原料攪拌器結構,其至少包含有—容 器1、一氣體導引機構2、一攪拌機構3以及一抽氣歧管4所 構成。 上述所k之谷器1係包含有' —杯體1 1、及一與杯體1 1 活動結合之蓋體1 2,該杯體1 1與蓋體1 2之間係設有一氣 密墊圈1 3,而該蓋體12上係連通有一接頭14,且於該蓋 體1 2内頂面上係設有一固定孔1 5,並於該蓋體1 2上具有 一穿孔16。 該氣體導引機構2係設於容器1之蓋體12中,其至少包 含有一與蓋體1 2結合之殼體2 1、一活動設於殼體2 1中且 具有心軸2 2之扇葉2 3、一連通設於殼體2 1 —端之進氣管 2 4、及一連通設於殼體21另端之抽氣管2 5,其中該殼體 M410609 21係包含有相互組接之上蓋211及下蓋212,而該上蓋 211係具有與蓋體12所設固定孔15結合之固定部21 3 ’且該下蓋212係具有與心軸2 2對應之貫孔214。 該攪拌機構3其一端係與氣體導引機構2連接,而另端係 延伸於容器1之杯體1 1中’而該攪拌機構3至少包含有一設 於蓋體12内且位於氣體導引機構2下方之氣密底座3丄、一 設於氣密底座3 1上之抽氣通道3 2、一穿過氣密底座3丄與 扇葉2 3所設之心軸2 2連接之傳動桿3 3、一與傳動桿3 3 連接之内齒輪3 4、一與内齒輪3 4相互嚙合之行星齒輪3 5、一與行星齒輪3 5結合且設於杯體1 1中之攪拌棒3 6, 其中該氣密底座31上係設有一可供傳動桿3 3穿設且與貫 孔2 1 4對應之開孔3 7,且該開孔3 7之周圍係環設有一墊 圈3 8,而該内齒輪3 4之内面上係設有一供攪拌棒3 6 —端 對接之插接部3 41。 ^該抽氣歧管4係與杯體11及氣體導引機構2連通,而該 抽氣歧管4至少包含有一透過抽氣通道3 2與杯體i i連通 之第一管體4 1、一連通抽氣管2 5與第一管體4丄之第二管 體4 2、-設於第二管體4 2中之閥體4 3、及一帶動間體: • +3且通過穿孔1 6設於蓋體1 2外部之閥體關4 4。如是, 藉由上述之結構構成一全新之利用抽氣壓差之生醫原料攪拌 器結構。 當本創作於使用時’係可將所需之生醫原料設於杯體工工 中,並以盍體12配合氣密墊圈13加以密封,且於蓋體工2 之接頭14連接-抽氣設備5 (如:手術房中之抽氣機,可省 卻手動或外接電動玉具之麻煩’並增加手術房操作時之方便 7 M410609 性),而於該抽氣設備5抽氣時,係藉由閥體開關4 4將閥體 4 3加以開啟,此時,該氣體導引機構2便可利用進氣管2 4 與抽氣管2 5之配合產生負壓,進而利用負壓壓差使扇葉2 3 轉動,且經由心轴2 2帶動傳動桿3 3而讓内齒輪3 4旋轉, 而可由内齒輪3 4帶動行星齒輪3 5及攪拌棒3 6進行行星 式轉動,進而充分調和攪拌生醫原料;而於調和攪拌之動作進 行時’係同時利用負壓由抽氣歧管4之第一管體4丄透過抽氣 通道3 2抽取杯體1 1内之空氣’使得於調和攪拌生醫原料時 可避免氣泡滲入,而讓調和完成之生醫原料於凝固後不會有氣 孔產生,使其質地較為堅固耐用,如此,即可使調和後生醫原 料達到均質以及避免氣泡於調製物固化後造成之材質弱化問 題。 綜上所述’本創作利用抽氣壓差之生醫原料攪拌器結構可 有效改善習用之種種缺點,可將所需之生醫原料設於杯體中, 並於蓋體之接頭連接一抽氣設備,而於抽氣時,利用負壓之壓 差使氣體導引機構轉動’進而帶動攪拌機構充分調和攪拌該些 生醬原料,且同時讓負壓經過抽氣歧管之配合抽取杯體内空 氣,而防止氣泡滲入調和攪拌之過程,以避免生醫原料凝固後 產生氣孔,而達到均質以及避免氣泡於調製物固化後造成之材 質弱化問題;進而使本創作之産生能更進步、更實用、更符合 消費者使用之所須,確已符合創作專利申請之要件,爰依法提 出專利申請。 ' 惟以上所述者,僅為本創作之較佳實施例而已,當不能以 此限定本創作實施之翻;故,凡依本創作申請專姆圍及新 型說明書内容所作之簡單的等效變化與修飾,f應仍屬本創作 8 M410609 專利涵蓋之範圍内。 【圖式簡單說明】 第1圖,係本創作之外觀示意圖。 第2圖,係本創作之分解示意圖。 . 第3圖,係本創作氣體導引機構之分解示意圖。 第4圖,係本創作之使用狀態示意圖 【主要元件符號說明】 $ 容器1 杯體1 1 蓋體1 2 氣密墊圈13 接頭1 4 固定孔1 5 穿孔1 6 氣體導引機構2 殼體2 1 ' 上蓋211 - 下蓋212 固定部213 貫孔2 1 4 心軸2 2 扇葉2 3 進氣管24 M410609 抽氣管2 5 攪拌機構3 氣密底座31 抽氣通道3 2 傳動桿3 3 内齒輪3 4 插接部3 41 行星齒輪3 5 • 攪拌棒3 6 開孔3 7 墊圈3 8 抽氣歧管4 第一管體41 第二管體4 2 閥體4 3 閥體開關4 4 鲁 抽氣設備5M410609 V. New description: [New technical field] This creation is about a structure of biomedical raw materials using the suction pressure difference, especially one that can prevent the production of pores after solidification of raw materials, and achieve homogenization and avoid The bubble is weakened by the material caused by the curing of the preparation. * [Prior Art] Press, generally many raw materials that need to be mixed and prepared, such as: sulfuric acid feed, phosphorus calcium phosphate or bone cement, etc., in the past, it is necessary to first place the powder or granular medical substance in a mixing container. In the middle, then gradually add an appropriate amount of the solution to stir the mixture. The viscosity and temperature of the preparation to be adjusted to the most appropriate state can be used as a follow-up. However, 'the body of the company (4) mixed with 'has caused inconvenient modulation process, complicated modulation procedures, the process is susceptible to pollution, etc., in addition, the other is the confusion of the modulation of the touch towel, and the secret of the secret Both the strength and the strength after hardening are affected, which in turn causes a problem of zero material weakening after the curing of the preparation. ' [New content] The main purpose of this creation is to set the required biomedical materials in the cup body and connect a suction device to the joint of the cover body, and use the pressure of negative pressure during pumping. Poor, the gas guiding mechanism rotates, and then drives the feeding mechanism to fully adjust the stirring and catching the #material, and at the same time let the negative pressure pass through the suction manifold to extract the gas in the cup body to prevent the bubble from infiltrating into the process of mixing and stirring. Avoid the coagulation of biomedical raw materials 4 = 2 ^ ^ to achieve homogenization and to avoid the agitation caused by the condensation of bubbles in the preparation of the creative system - a kind of raw materials connected to the pumping pressure difference. The container with the cup body and the lid body is attached to the lid body of the lid body and the gas material mechanism is disposed in the lid body; the stirring mechanism (10) with the gas conductor ==:= The body and air gasket are in the creation of the present invention, and a tight perforation is provided between the cup body and the cover body. Guided-acting, the top surface of the body is provided with a fixing hole with a gas I mechanism, and the cover body is connected with the sub-manifold tube. In one embodiment of the present invention, the gas guide The guiding mechanism comprises at least a casing combined with a top surface of the crucible body, and a fan blade having a mandrel disposed in the casing: an air inlet pipe connected to the casing end, and a communication device The suction pipe at the other end of the casing. In the present invention, the casing is provided with a cover that is connected to each other, and the upper cover has a fixing portion that is combined with the top surface of the cover body, and the lower portion The cap system has a through hole corresponding to the mandrel. In the embodiment of the present invention, the applicator mechanism comprises at least one airtight wire disposed under the body and below the bit material guiding mechanism: a pumping passage connecting the air-extracting officer, a transmission rod connected to the gas guiding mechanism through the airtight base, a recording gear connected to the transmission rod, a planetary gear meshing with the internal gear, and a planetary gear And a stirring rod disposed in the cup body. In an embodiment of the present invention, the airtight base is fastened There is a plug for the drive rod, and the grade ring of the grade is provided with a washer. In the creation of the present invention, the inner surface of the inner gear is provided with a plug-in portion for the end of the transfer rod. In the present invention, the pumping manifold includes at least a first pipe body communicating with the cup body through a stirring mechanism, a communicating gas guiding mechanism, and a pipe body = a second pipe body. The valve body in the second pipe body and the valve body switch that drives the valve body and is disposed outside the cover body. [Embodiment] Please refer to the "1st, 2nd, 3rd, and 4th drawings", which are respectively The appearance is not intended, the decomposition diagram of the creation, the decomposition diagram of the creation gas guiding mechanism and the state of use of the creation. As shown in the figure: the creation is a biomedical raw material agitator structure utilizing the suction pressure difference, The invention comprises at least a container 1, a gas guiding mechanism 2, a stirring mechanism 3 and an exhausting manifold 4. The above-mentioned k-bar 1 includes a cup body 1 and a cup body. 1 1 The movable cover 1 2 is connected between the cup 1 1 and the cover 1 2 An airtight gasket 13 is provided, and a joint 14 is connected to the cover body 12, and a fixing hole 15 is formed on the top surface of the cover body 12, and a through hole 16 is formed on the cover body 12. The gas guiding mechanism 2 is disposed in the cover 12 of the container 1 and includes at least a housing 2 1 coupled to the cover 12 and a fan disposed in the housing 21 and having a spindle 2 2 . The leaf 2 is connected to the intake pipe 24 at the end of the casing 2, and the exhaust pipe 25 is connected to the other end of the casing 21. The casing M410609 21 is connected to each other. The upper cover 211 and the lower cover 212 have a fixing portion 21 3 ' coupled to the fixing hole 15 provided in the cover 12, and the lower cover 212 has a through hole 214 corresponding to the spindle 2 2 . 3 is connected to the gas guiding mechanism 2 at one end and extends in the cup 1 1 of the container 1 at the other end, and the stirring mechanism 3 includes at least one disposed in the cover 12 and located under the gas guiding mechanism 2 a gas-tight base 3丄, an air suction passage 3 provided on the airtight base 31, a transmission rod 3 connected to the mandrel 22 provided by the fan blade 23 through the airtight base 3丄, An inner gear 3 4 connected to the transmission rod 3 3 , a planetary gear 35 meshing with the internal gear 34 , a stirring rod 3 6 combined with the planetary gear 35 and disposed in the cup 1 1 , wherein the gas The inner base 3 is provided with an opening 3 7 through which the transmission rod 3 3 is disposed and corresponding to the through hole 2 1 4 , and a ring 3 8 is provided around the opening of the opening 3 7 and the internal gear 3 is provided The inner surface of the 4 is provided with a plug portion 3 41 for the abutting of the stirring rod 36. The exhaust manifold 4 is in communication with the cup body 11 and the gas guiding mechanism 2, and the pumping manifold 4 includes at least one first tube body 41 connected to the cup body ii through the pumping passage 32. The second pipe body 4 2 of the first pipe body 4 is connected to the first pipe body 4, the valve body 4 3 disposed in the second pipe body 4 2, and a driving body: • +3 and through the perforation 16 The valve body disposed outside the cover body 1 2 is closed. If so, a new structure of the biomedical material agitator utilizing the suction pressure difference is constructed by the above structure. When the present invention is used, the required biomedical materials can be placed in the cup body, and the carcass 12 is sealed with the airtight gasket 13 and connected to the joint 14 of the cover body 2 - pumping Equipment 5 (such as: the aspirator in the operating room, can save the trouble of manual or external electric jade 'and increase the convenience of the operation of the operating room 7 M410609), and when the pumping equipment 5 pumping, borrow The valve body 4 3 is opened by the valve body switch 44. At this time, the gas guiding mechanism 2 can generate a negative pressure by using the intake pipe 24 and the exhaust pipe 25, and then use the negative pressure difference to make the fan. The leaf 2 3 rotates, and the internal gear 34 rotates by driving the transmission rod 3 3 via the mandrel 2 2 , and the planetary gear 3 5 and the stirring rod 36 can be driven by the internal gear 34 to perform planetary rotation, thereby fully coping and stirring. When the action of blending and stirring is carried out, the air in the cup body 1 1 is extracted from the first tube body 4 of the suction manifold 4 through the suction passage 3 2 by the negative pressure, so that the mixture is stirred and mixed. When the raw materials are used, the bubbles can be prevented from infiltrating, and the raw materials for the reconciliation are not qi after solidification. Generating, so that the texture is more durable, thus, to make the harmonic epigenetic Medical feedstock material to homogeneity and to avoid air bubbles caused by the modulation is cured after weakening problem. In summary, the creation of the biomedical material agitator structure using the suction pressure difference can effectively improve the various disadvantages of the conventional use, and the desired biomedical raw materials can be placed in the cup body, and a joint is connected to the joint of the cover body. The device, when pumping, uses the pressure difference of the negative pressure to rotate the gas guiding mechanism', and then drives the stirring mechanism to fully mix and stir the raw sauce raw materials, and at the same time allows the negative pressure to be extracted through the suction manifold Air, to prevent bubbles from infiltrating into the process of mixing and agitation, to avoid the formation of pores after the solidification of raw materials, to achieve homogenization and to avoid the problem of weakening of the material caused by the curing of the bubbles; thus making the creation of this creation more progressive and practical It is more in line with the needs of consumers, and it has indeed met the requirements for the creation of a patent application, and has filed a patent application in accordance with the law. 'The above is only the preferred embodiment of this creation. It is not possible to limit the implementation of this creation; therefore, the simple equivalent change made by the application for the special and the new manual. And the modification, f should still be within the scope of this creation 8 M410609 patent. [Simple description of the diagram] Figure 1 is a schematic diagram of the appearance of the creation. Figure 2 is an exploded view of the creation. Figure 3 is an exploded view of the gas guiding mechanism of the present invention. Figure 4 is a schematic diagram of the state of use of this creation [Description of main components] $ Container 1 Cup 1 1 Cover 1 2 Gas-tight gasket 13 Connector 1 4 Fixing hole 1 5 Perforation 1 6 Gas guiding mechanism 2 Housing 2 1 ' Upper cover 211 - Lower cover 212 Fixing part 213 Through hole 2 1 4 Mandrel 2 2 Fan blade 2 3 Intake pipe 24 M410609 Exhaust pipe 2 5 Stirring mechanism 3 Airtight base 31 Air extraction passage 3 2 Transmission rod 3 3 Gear 3 4 Plug 3 41 Planetary gear 3 5 • Stirring rod 3 6 Opening 3 7 Washer 3 8 Exhaust manifold 4 First tube 41 Second tube 4 2 Body 4 3 Body switch 4 4 Lu Pumping equipment 5