201231156 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明涉及一種真空脫泡授拌機,特別是涉及一種具 有防塵功能的真空脫泡攪拌機。 [先前技術3 [0002] 真空攪拌脫泡機屬於液體脫泡裝置。有些脫泡裝置只 採用抽真空以將容器液體内的氣體分子抽離。當液體的 黏稠度較低’ K抽真Μ可能抽走所有液體^氣體分 子,當液體祕喊提高,抽真空就Μ帶走液體表廣 的氣泡’因此必須採用螺旋曲線設計的授拌棒以授拌 動作產生下層流體流動到上廣液·面效果,,以利下層氣泡 被帶到上層而被抽離。 現有的真空脫泡攪拌機是以攪拌棒旋轉,帶動容器内 液體形成渦旋回轉,液體由容器底部通過回轉上升。上 升過程中液體中的氣泡就通過抽真空帶到機台外面。現 有設計的攪拌方式是旋轉設置于容器上方“搅拌棒來攪 0 掉谷器内的液體。.當授掉棒旋轉.時,帶動授摔棒旋轉的 螺杆會與轴套磨擦而產生粉塵,粉塵會掉落到下方的容 器内而污染了容器内液體。 【發明内容】 [0003] 本發明的目的在於提供一種真空脫泡授拌機,其旋轉 承載盤來帶動設置於承載盤上的容器轉動,從而與容器 内的授拌棒產生授拌作用,並且在承載盤與轉軸的連接 處設置防塵套,以收集轉轴帶動承載盤轉動時所產生的 粉塵。 100106158 表單編號Α0101 第3頁/共14頁 1002010501-0 201231156 基於上述目的,本發明提供—種具有防塵功能的真空 脫泡搜拌機,包括_真空腔體、―練、一挽拌棒… 轉軸承載盤以及一第—防塵套。所述螺杆設置於所 述真空腔體的頂部。所述攪拌棒設置於所述真空腔體中 且連接於所述螺杆的—端,所述螺杆㈣帶動所述授拌 棒於所述真空腔體中上下移動。所述轉軸設置於所述真 空腔體的底部。所述承_設置於所述真空腔體中且速 接於所述轉轴的—㈣ %’所述轉軸用以帶動所述承載盤於 :述真空腔體中轉動。所述第-防塵套設置於所述轉軸 '1^載盤的接合處,所_一防塵套用以收集所述 =動所述承栽盤轉動時所產生的粉塵。所述真空脫 述機可另包括一第二防塵套,設置於所述螺杆與所 ㈣Γ體的接合處,所述第二防塵套用以收集所述螺 =销拌棒上下移動時所產生的粉塵。所述真空 所述位於所述真空腔體的底部…容器設置於 述容器_ ’所述真⑽_減_高度不高於所 抽真空裝:口的兩度。所述真空脫泡攪拌機可另包括- 脫泡攪拌機可==述真謂體的出氣口。所述真空 進氣口。 I 過濾器,設置於所述真空腔體的 拌方式由有益效果:本發明的真空脫泡鮮機的授 做搜拌棒上下=料錢料《,只結器取放時 轉時,帶 動作,可避免現有技術中的攪拌棒旋 100106158 此外,本拌棒旋轉的螺样與軸套磨擦而產生粉塵。 表單編號A〇l〇1月在承載盤與轉料的接合處設置防塵套,以 第4頁/共14頁 201231156 收集轉軸帶動承載盤轉動時所產生的粉塵,並且在螺杆 與真空腔體的接合處也可設置防塵套,以收集螺杆帶動 攪拌棒上下移動時所產生的粉塵。再者,本發明可在破 真空進氣口設置過濾器,以防止破真空時引進粉塵。本 發明的抽真空出氣口設在中空腔體的底部,除了不會造 成粉塵飛揚,還可通過氣流抽出時帶走粉塵。201231156 VI. Description of the Invention: [Technical Field] [0001] The present invention relates to a vacuum defoaming mixer, and more particularly to a vacuum defoaming mixer having a dustproof function. [Prior Art 3 [0002] The vacuum stirring deaerator is a liquid defoaming device. Some defoaming devices use only vacuum to draw gas molecules from the vessel liquid. When the viscosity of the liquid is low, 'K pumping the cockroaches may take away all the liquids and gas molecules. When the liquid secret is raised, the vacuum will take away the bubbles of the liquid surface. Therefore, it is necessary to use a spiral-shaped design of the mixing rod. The mixing action produces the effect of the lower layer fluid flowing to the upper liquid and surface, so that the lower layer bubbles are taken to the upper layer and are separated. The existing vacuum defoaming mixer rotates with a stirring rod to drive the liquid in the container to form a swirling rotation, and the liquid rises from the bottom of the container by turning. During the ascent, the bubbles in the liquid are brought to the outside of the machine by vacuuming. The stirring method of the existing design is to rotate and set on the top of the container. The stirring rod is used to stir the liquid in the barn. When the rod is rotated, the screw that drives the rotating rod to rotate will rub against the sleeve to generate dust and dust. It will fall into the container below and pollute the liquid in the container. [0003] The object of the present invention is to provide a vacuum defoaming and mixing machine, which rotates the carrier tray to drive the container disposed on the carrier tray to rotate. Therefore, a mixing effect is generated with the mixing rod in the container, and a dust jacket is arranged at the connection between the carrier tray and the rotating shaft to collect the dust generated when the rotating shaft drives the carrying tray to rotate. 100106158 Form No. Α0101 Page 3 / Total 14 pages 1002010501-0 201231156 Based on the above purpose, the present invention provides a vacuum defoaming and mixing machine with dustproof function, including a vacuum chamber, a training, a mixing rod, a rotating shaft carrier and a first dust jacket. The screw is disposed at the top of the vacuum chamber. The stirring rod is disposed in the vacuum chamber and is connected to the end of the screw, and the screw (4) drives the said The rod moves up and down in the vacuum chamber. The rotating shaft is disposed at the bottom of the vacuum chamber. The bearing is disposed in the vacuum chamber and is fast-connected to the rotating shaft - (4) %' The rotating shaft is used to drive the carrier tray to rotate in the vacuum chamber: the first dust jacket is disposed at the joint of the rotating shaft '1^ carrier tray, and a dust jacket is used to collect the Describe the dust generated when the tray is rotated. The vacuum stripping machine may further include a second dust jacket disposed at a joint of the screw and the (four) body, the second dust jacket for collecting the screw = dust generated when the pin mixing rod moves up and down. The vacuum is located at the bottom of the vacuum chamber... the container is disposed in the container _ 'the true (10)_minus_height is not higher than the vacuumed: mouth The vacuum defoaming mixer may further comprise a defoaming mixer, which may be a gas outlet of the true body. The vacuum inlet is a filter, and the mixing method is arranged in the vacuum chamber. Advantageous Effects: The vacuum defoaming fresh machine of the present invention is taught to be mixed with the top and bottom of the bar. When the knot is transferred, the belt is moved to avoid the stirring rod of the prior art. 100106158 In addition, the screw of the rotating rod and the sleeve are rubbed to generate dust. Form No. A〇l〇1 in the carrier plate and A dust jacket is arranged at the joint of the material transfer, and the dust generated by the rotation of the carrier plate is collected by the rotating shaft at the fourth page/total 14 pages 201231156, and a dust jacket can also be arranged at the joint of the screw and the vacuum chamber to collect the screw. The dust generated by the stirring rod moving up and down. Furthermore, the present invention can provide a filter at the vacuum inlet to prevent dust from being introduced when the vacuum is broken. The vacuum outlet of the present invention is disposed at the bottom of the hollow body, except It will not cause dust to fly, and it can also take away dust when it is extracted by airflow.
[0004] ❹ 100106158 上述說明僅是本發明技術方案的概述,為了能夠更清 楚地瞭解本發明的技術手段,而可依照說明書的内容予 以實施,並且為了讓本發明的上述和其他目的、特徵和 優點能夠更明顯易懂,以下特舉多個實施例,並配合附 圖,詳細說明如下。 【實施*方式】 請參考圖1至圖4,圖1是根據本發明一實施例的真空脫 泡攪拌機1的示意圖,圖2是圖1中的攪拌棒14向下移動至 容器3内的示意圖,圖3是圖1中的真空腔體10、螺杆12以 及第二防塵套22的俯視圖,圖4是圖1中的轉軸16、承載 盤18以及第一防塵套20的俯視圖。 如圖1所示,真空脫泡攪拌機1包括真空腔體10、螺杆 12、攪拌棒14、轉軸16、承載盤18、第一防塵套20、第 二防塵套22、過濾器24及抽真空裝置26。螺杆12設置於 真空腔體10的頂部。一般而言,在螺杆12與真空腔體10 的接合處會設有用以與螺杆12組配的軸套(未顯示)。 攪拌棒14設置於真空腔體10中且連接於螺杆12的一端。 螺杆12用以帶動攪拌棒14於真空腔體10中上下移動。轉 軸16設置於真空腔體10的底部。承載盤18設置於真空腔 體10中且連接於轉軸16的一端。轉軸16用以帶動承載盤 表單編號A0101 第5頁/共14頁 1002010501-0 201231156 :’、ι㈣1G中轉動。第-防塵套2G設置於轉軸16與 ^载盤18的接合處。第—防塵套2㈣以收集_16帶動 :载盤18轉動時所產生的粉塵。第二防塵套22設置於螺 φΐ· 1 0 命亩 wv* 二”二腔體10的接合處。第二防塵套22用以收集螺 < ▼動If拌棒14上下移動時所產生的粉塵。過濾器以 ★置於真上腔體1()的進氣口⑽。過渡器24用以防正破真 工時引進粉塵。抽真空裝置26連接於真空腔體10的出氣 口 102 〇 真空脫泡攪拌機1的操作方式如下。操作員可先操作螺 杆12帶動攪拌棒14向上移動至屢丨所示的位置再將裝盛 有欲進行脫泡作業的液體的容器3設置於承載盤18上。接 著’操作員操作螺杆12帶動挽拌棒14向下移動至圖2所示 的位置’也就是使攪拌棒14向下移動至容器3内》接著, 操作員就可以啟動轉軸16帶動承載盤18轉動,從而帶動 設置於承載盤18上的容器3轉動。此時,位於容器3内的 攪拌棒14就會與轉動的容器;3產生授拌_用,從而帶動容 器3内的液體形成渦旋回轉,使得狭體由容器3底部通過 回轉上升。上升過程中液邊中的氣泡就會通過抽真空裝 置26經由出氣口 102帶到真空脫泡攪拌機1的外面。在脫 泡作業完成後,操作員先操作螺杆12帶動攪拌棒14向上 移動至圖1所示的位置,再將容器3移離承載盤18。 換句話說,真空脫泡攪拌機1的攪拌方式是以轉軸16帶動 承载盤18轉動,只在容器3取放時才以螺杆12帶動攪拌棒 14上下調整動作。由於承載盤18是位於容器3的下方,即 使承载盤18在轉動㈣與_16摩擦喊生粉塵,粉塵 也不會掉落至容器3内。此外’如圖1、圖2與圖4所示, 100106158 * „ ^ e 窗/於 14 頁 100201050卜0 201231156 =本Γ=盤18與轉軸16的接合處設置第-防塵 〇可以收集轉軸16帶動承載盤18轉動 時所產生的粉塵,以陕Λ m 賤1 散的問題。再者,如承栽盤18轉動而發生逸 圖1圖2與圖3所示,本發明在嫘杆 與真空腔體10的接合處也 本發月在螺一 P方塵套22可以收集螺& -防塵套22’第- 决射、鹿p、、2帶動授拌棒14上下移動時所產 即使通過螺杆12調整搜拌棒14上下移動時會The above description is only an overview of the technical solutions of the present invention, and the technical means of the present invention can be more clearly understood, and can be implemented in accordance with the contents of the specification, and in order to make the above and other objects, features and features of the present invention The advantages can be more clearly understood, and various embodiments are described below in detail with reference to the accompanying drawings. [Embodiment *] Referring to Figures 1 to 4, Figure 1 is a schematic view of a vacuum defoaming mixer 1 according to an embodiment of the present invention, and Figure 2 is a schematic view of the stirring rod 14 of Figure 1 moving downward into the container 3. 3 is a plan view of the vacuum chamber 10, the screw 12, and the second boot 22 of FIG. 1, and FIG. 4 is a plan view of the rotating shaft 16, the carrier 18, and the first boot 20 of FIG. As shown in FIG. 1, the vacuum defoaming mixer 1 includes a vacuum chamber 10, a screw 12, a stirring rod 14, a rotating shaft 16, a carrier tray 18, a first dust jacket 20, a second dust jacket 22, a filter 24, and a vacuuming device. 26. The screw 12 is disposed at the top of the vacuum chamber 10. In general, a bushing (not shown) for mating with the screw 12 is provided at the junction of the screw 12 and the vacuum chamber 10. The stirring rod 14 is disposed in the vacuum chamber 10 and connected to one end of the screw 12. The screw 12 is used to drive the stirring rod 14 to move up and down in the vacuum chamber 10. The shaft 16 is disposed at the bottom of the vacuum chamber 10. The carrier disk 18 is disposed in the vacuum chamber 10 and is coupled to one end of the rotating shaft 16. The rotating shaft 16 is used to drive the carrying tray. Form No. A0101 Page 5 of 14 1002010501-0 201231156 : ', ι (4) 1G rotation. The first dust jacket 2G is disposed at a joint of the rotating shaft 16 and the loading tray 18. The first - the dust jacket 2 (four) is driven by the collection _16: the dust generated when the carrier 18 is rotated. The second dust jacket 22 is disposed at the joint of the screw φΐ·1 0 life wv* two” two chambers 10. The second dust jacket 22 is used to collect the dust generated by the movement of the snail < The filter is placed in the air inlet (10) of the upper cavity 1 (). The transition device 24 is used to prevent dust from being introduced during the actual working time. The vacuuming device 26 is connected to the air outlet 102 of the vacuum chamber 10 The operation mode of the defoaming mixer 1 is as follows. The operator can first operate the screw 12 to drive the stirring rod 14 to move up to the position shown in the figure, and then set the container 3 containing the liquid to be defoamed to the carrier tray 18. Then, the operator operates the screw 12 to move the drawbar 14 downward to the position shown in FIG. 2, that is, the stir bar 14 is moved downward into the container 3. Then, the operator can start the spindle 16 to drive the carrier. 18 rotates to drive the container 3 disposed on the carrier tray 18 to rotate. At this time, the stirring rod 14 located in the container 3 and the rotating container 3 are used for mixing, thereby causing the liquid in the container 3 to form a vortex. Rotating so that the narrow body rises by the bottom of the container 3 During the ascending process, the air bubbles in the liquid edge are brought to the outside of the vacuum defoaming mixer 1 through the air outlet port 102. After the defoaming operation is completed, the operator first operates the screw 12 to drive the stirring rod 14 to move up to In the position shown in Fig. 1, the container 3 is moved away from the carrier tray 18. In other words, the stirring mode of the vacuum defoaming mixer 1 is to rotate the carrier tray 18 by the rotating shaft 16, and only the screw 12 is used when the container 3 is taken and placed. The stirring rod 14 is driven up and down. Since the carrier tray 18 is located below the container 3, even if the carrier tray 18 rubs dust in the rotation (four) and _16, the dust does not fall into the container 3. Further, as shown in Fig. 1 As shown in Fig. 2 and Fig. 4, 100106158 * „ ^ e window / on page 14 100201050 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 The dust produced is a problem with the scattered 贱1 Λ1. Furthermore, if the bearing tray 18 rotates and occurs as shown in FIG. 2 and FIG. 3, the joint of the mast and the vacuum chamber 10 of the present invention can also collect the snail in the snail-P dust cover 22 of the month. & -The boot 22' is the first shot, the deer p, and the 2 are driven when the stir bar 14 is moved up and down, even if the screw 14 is adjusted to move up and down by the screw 12
:現而產生些微的粉塵,粉塵將會被限制在第二防 塵套22内部’而不會逸散到容器3内。: A slight amount of dust is now generated, and the dust will be confined inside the second dust jacket 22 without escaping into the container 3.
如果仍然還有私塵存在於真空腔體1〇内粉塵會因重 力效應而沉積於真空腔體_底部。當抽真空裝置财 操作而對真空腔_進行抽真空時’由於真空腔體_ 出氣口 1G2位於真空腔體1()的底部,除了不會造成粉慶飛 揚’還可通過氣流經由出氣口1咖崎帶走粉塵 。換句 話說,本發明可確保在抽真空時不會帶動氣流往上擾動 而造成粉錢。最好是絲空腔體10的 出氣口 102的高度不高於設置於承載盤18上的容器3的開 口的局度。此外,為了防止破真空時經由進氣口 1〇〇引進 粉塵’本發明在進氣σ1〇〇還設置有過濾器24。 根據上述技術方案,本發明的真空脫泡攪拌機至少具有 下列優點及有益效果:本發明的真空脫泡攪拌機的攪拌 方式由旋轉攪拌棒改成旋轉承載盤,只在容器取放時做 攪拌棒上下調整動作,可避免現有技術中的攪拌棒旋轉 時,帶動授拌棒旋轉的螺杆與轴套磨擦而產生粉塵。此 外,本發明在承載盤與轉軸的接合處設置防塵套,以收 集轉軸帶動承載盤轉動時所產生的粉塵,並且在螺杆與 100106158 1002010501-0 表單編號Α0101 第7頁/共14頁 201231156 真空腔體的接合處也可設置防塵套,以收集螺杆帶動攪 拌棒上下移動時所產生的粉塵。再者,本發明可在破真 空進氣口設置過濾器,以防止破真空時引進粉塵。本發 明的抽真空出氣口設在中空腔體的底部,除了不會造成 粉塵飛揚,還可通過氣流抽出時帶走粉塵。 以上所述僅為本發明的優選實施例,凡是依本發明權 利要求所做的均等變化與修飾,皆應屬本發明的涵蓋範 圍。 【圖式簡單說明】 [0005] 圖1是根據本發明一實施例的真空脫泡攪拌機的示意圖。 圖2是圖1中的攪拌棒向下移動至容器内的示意圖。 圖3是圖1中的真空腔體、螺杆及第二防塵套的俯視圖。 圖4是圖1中的轉軸、承載盤以及第一防塵套的俯視圖。 【主要元件符號說明】 [0006] 1 真空脫泡攪拌機 3 容器 10 真空腔體 12 螺杆 14 攪拌棒 16 轉軸 18 承載盤 20 第一防塵套 22 第二防塵套 24 過遽器 26 抽真空裝置 表單編號A0101 第8頁/共14頁 100106158 1002010501-0 201231156 100 102 進氣口 出氣口If there is still private dust present in the vacuum chamber, the dust will deposit on the bottom of the vacuum chamber due to the gravity effect. When the vacuum chamber is operated and the vacuum chamber is evacuated, 'Because the vacuum chamber _ outlet 1G2 is located at the bottom of the vacuum chamber 1 (), in addition to not causing the powder to fly, 'the air can also pass through the air outlet 1 Kaki took away the dust. In other words, the present invention ensures that the air flow is not disturbed when vacuuming, resulting in powder money. Preferably, the height of the air outlet 102 of the wire cavity 10 is not higher than the degree of opening of the container 3 provided on the carrier tray 18. Further, in order to prevent dust from being introduced through the intake port 1 when the vacuum is broken, the present invention further provides a filter 24 at the intake σ1〇〇. According to the above technical solution, the vacuum defoaming mixer of the present invention has at least the following advantages and beneficial effects: the stirring mode of the vacuum defoaming mixer of the present invention is changed from a rotating stirring rod to a rotating carrier, and the stirring rod is only used when the container is taken and placed. The adjustment action can avoid the friction between the screw and the sleeve which rotates the mixing rod when the stirring rod in the prior art rotates to generate dust. In addition, the present invention provides a dust jacket at the joint of the carrier plate and the rotating shaft to collect the dust generated when the rotating shaft drives the carrier disk to rotate, and in the screw and 100106158 1002010501-0 Form No. 1010101 Page 7 / 14 pages 201231156 Vacuum chamber A dust jacket can also be provided at the joint of the body to collect the dust generated when the screw rod drives the stirring rod up and down. Further, the present invention can provide a filter at the vacuum air inlet to prevent dust from being introduced when the vacuum is broken. The vacuum outlet of the present invention is provided at the bottom of the hollow cavity, and in addition to not causing dust flying, the dust can be taken away by the airflow. The above are only the preferred embodiments of the present invention, and all changes and modifications made in accordance with the scope of the present invention are intended to cover the scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS [0005] FIG. 1 is a schematic view of a vacuum defoaming mixer according to an embodiment of the present invention. Figure 2 is a schematic illustration of the stir bar of Figure 1 moving downwardly into the container. 3 is a top plan view of the vacuum chamber, the screw, and the second boot of FIG. 1. 4 is a top plan view of the rotating shaft, the carrier tray, and the first boot of FIG. 1. [Main component symbol description] [0006] 1 Vacuum defoaming mixer 3 Container 10 Vacuum chamber 12 Screw 14 Stirring rod 16 Rotary shaft 18 Carrier tray 20 First dust jacket 22 Second dust jacket 24 Transmitter 26 Vacuum device form number A0101 Page 8 of 14 100106158 1002010501-0 201231156 100 102 Inlet air outlet
100106158 表單編號A0101 第9頁/共14頁 1002010501-0100106158 Form No. A0101 Page 9 of 14 1002010501-0