M410065 五、新型說明: 【新型所屬之技術領域】 本案一種圓網式紙漿成型機之風壓強迫脫水器,係在 圓網式紙漿成型機的圓網轉筒表面一小段距離位置裝設一 吹風器’其中吹風器的出風口係呈尖錐狀;如此使圓網轉 .筒在快速轉動時所沾著紙漿槽的紙漿時往上帶動至吹風器 鲁時’以為將圓網轉筒表面上的紙漿中之水份做強迫去除作 動下,如此使除水後紙漿表面不再有細小破洞發生,俾以 達到提昇製產量及兼顧到生產的原紙品質功效。 【先前技術】 按一般有關原紙製作,係以圓網轉筒A所將位在紙漿槽 B中、以為利用在旋轉時的由表面來接觸到紙漿槽B的紙漿 _ (:時,遂而將紙漿C因而附貼在圓網轉筒A表面上緣故而隨 #圓網轉筒A的轉動而往上帶動,由於此時的紙漿C含有大量 的水份W隨之被帶上,首先即是先予去除水份,然後再予 烘乾處理,而目前對於以圓網轉筒A製紙的去水方式,即在 圓網轉筒A内部裝設有一呈不同吸力程度的吸水裝置D(如 第一圖),以為圓網轉筒A在藉由表面來接觸到紙漿槽B的 紙漿C時,遂而將紙漿C附貼在圓網轉筒A表面上並隨圓網 轉筒A轉動而往上帶動,之後再則由吸水裝置D以數段不同 3 M410065 吸力程度的吸附作用而將水份w給脫離於被帶動的紙漿 C ’之後再由位在圓網轉筒a外的一大面積皮帶e來帶動紙 漿C進人下一製程;由於這樣的購置吸水裝置經費龐大, 維修成本高,對製紙規模不是屬大型企業者的負擔實在沉 重;因此便有一種是在圓網轉筒A外安裝一超大型的風扇裝 置F (如第二圖),以為圓網轉筒A在藉由表面來接觸到紙· 漿槽B的紙漿C時,遂而將紙漿c附貼在圓網轉筒a表面上並鲁 隨圓網轉筒A轉動而往上帶動時,則由該風扇裝置F所呈強 大的風力對著附著在圓網轉筒A上的紙漿C吹著,以為去除 水份W處理,再由位在圓網轉筒a外的大面積皮帶E來帶動 紙漿C進入下一製程;然而風扇裝置F上的風力是分散地對 著位在圓網轉筒A上的紙漿C吹著時,而圓網轉筒A還是快 速地做轉動、而會造成甩拋的離心力產生,以致在位在最-上方的紙漿C雖然受到風扇裝置F的風力作用而使水份…給 脫離了、卻因為圓網轉筒A的甩拋離心力因素下’而將殘餘 的水滴給又噴回到S處理好去水的紙發C上’因此造成紙獎 C表面上形成細小的穿洞;即目前的風扇裝置F所以大面積 式的吹送做法,由於考量到圓網轉的轉速所產生的甩拋 離心力會影響到製紙品質’是唯有降低轉速來配合’但這 樣便隨之降低了製紙產量;相對地’當圓網轉筒A的轉速愈 4 M410065 快的話,則生產出來的製紙品質愈差,即原紙上的細小穿 洞愈多。 【新型内容】 因此,申請人遂開發出本創作內容,並提出申請。其 中 本創作之目的,在於提供一種圓網式紙漿成型機之風 β壓強迫脫水器,係在圓網式紙漿成型機的圓網轉筒表面一 小段距離位置裝設一吹風器,其中吹風器的出風□係呈尖 錐狀;如此使圓網轉筒表面接觸到紙漿槽中的紙漿、以為 紙漿遂附貼在圓網轉筒表面上往上帶動至吹風器時,藉由 吹風器以強大的風壓直接且集中地吹向圓網轉筒的一處, 遂將紙漿内所含之水份給強迫脫離開作動下,且不會使水 I份受到圓網轉筒的快速轉動所產生的甩拋離心力再次接觸 到Ε除水的紙漿’如此以為可在提昇圓網轉筒的轉速來增 加產量同時,亦兼顧到生產的原紙品質功效。 【實施方式】 首先’敬請配合參閱第三、四圖之詳細創作說明所示 ‘本案一種圓網式紙漿成型機之風壓強迫脫水器,係在圓 網式紙漿成型機的圓網轉筒丨表面一小段距離位置裝設一 Da風器2 ’其中吹風器2的出風口 21係呈尖錐狀,以為其後 5 M410065 由一鼓風設備來輸送風量;如此地使圓網轉筒1位在紙漿槽 3中後’當圓網轉筒1係以快速轉動的利用其表面來接觸到 紙漿槽3的紙漿4時、以為將紙獎4因而附貼在圓網轉筒1表 面上往上帶動至吹風器2時,藉由吹風器2以強大的風壓2A 直接且集中地吹向圓網轉筒丨的一處,以致貼附在圓網轉筒 1表面的紙漿4内所含之水份…在受到強勁風壓2A緣故、遂. 將其水份W給脫離紙漿(如第五圖),之後再由位在圓網# 轉筒1外的大面積皮帶E來帶動紙漿4進人下一製程;如此藉 由吹風器2將紙漿4內所含的水份W而予做去除後’並使去除 後的水份W不會受到呈快速轉動的圓網轉筒1所產生的甩拋 離心力因素而再次地接觸到已除水的紙漿4 ’這樣即能保持 除水後紙漿4表面不再有細小破洞發生;如此一來’藉由本 創作在提昇圓網轉筒1的轉速來增加產量同時’亦能兼顧到0 生產的原紙品質。 進且,若認為還有需要時則在圓網轉筒1表面一小段距 離位置再加裝設吹風器2 (如第六、七圖)’以為強化去水 作用。 綜上所陳,本創作確實具有以上所述的功效發揮’當 符合新型專利第九十三條之成立要件,懇請鈞局明鑒’ 惠予授准合法之專利權成立,至感德便。 6 M410065 【圖式簡單說明】 第一圖:為昔式者之圖示(一)。 第二圖:為昔式者之圖示(二)。 第二圖:係本創作之圖不。 第四圖:係本創作於組合時之圖示。 • 第五圖:係本創作之實施例圖。 Φ 第六圖:係本創作另一組裝形態之示意圖(一)。 第七圖·係本創作另一'組裝形態之不意圖(一·)。 【主要元件符號說明】 1圓網轉筒 2吹風器 21出風口 2A風壓 3紙漿槽 .4紙漿 • A圓網轉筒 B紙漿槽 C紙漿 D吸水裝置 E皮帶 F風扇裝置 W水份M410065 V. New description: 【New technical field of the invention】 In this case, a wind pressure forced dewatering device for a rotary screen pulp forming machine is equipped with a blower at a small distance from the surface of the rotary drum of the rotary screen pulp molding machine. The air outlet of the blower is in the shape of a pointed cone; thus the rotary net is turned. When the pulp is smeared with the pulp of the pulp tank during rapid rotation, the drum is driven upwards to the blower, which is considered to be on the surface of the rotary drum. The water in the pulp is forced to be removed, so that there is no longer any small holes in the surface of the pulp after the water is removed, so as to achieve the improvement of the production yield and the quality of the raw paper produced. [Prior Art] It is made in the general base paper, and the rotary cylinder A is placed in the pulp tank B, so that the pulp which is in contact with the pulp tank B by the surface during the rotation is used. The pulp C is thus attached to the surface of the rotary drum A and is driven upward by the rotation of the #圆网转A. Since the pulp C at this time contains a large amount of water W, it is carried, firstly The water is removed first, and then dried. However, at present, the water-removing device D with different suction levels is installed in the water-removing mode of the rotary drum A paper, that is, in the rotary drum A (such as the first A picture), that is, when the rotary cylinder A contacts the pulp C of the pulp tank B by the surface, the pulp C is attached to the surface of the rotary drum A and rotates with the rotary cylinder A. After being driven up, the water absorption device D is separated from the driven pulp C' by a certain amount of adsorption of 3 M410065 suction degree, and then a large area outside the rotary cylinder a Belt e to drive the pulp C into the next process; due to the huge cost of purchasing such a water absorbing device, The cost is high, and the burden on the papermaking scale is not heavy for large enterprises; therefore, there is a kind of super large fan device F (such as the second figure) installed outside the rotary drum A, thinking that the rotary drum A is When the surface is brought into contact with the pulp C of the paper/slot tank B, the pulp c is attached to the surface of the cylinder reel a and is rotated upwards with the rotary cylinder A, and then the fan is driven. The powerful wind of the device F is blown against the pulp C attached to the rotary drum A, so as to remove the moisture W, and then the pulp C enters by the large-area belt E located outside the rotary drum a. The next process; however, the wind on the fan unit F is dispersedly blown against the pulp C positioned on the rotary drum A, and the rotary cylinder A is still rotating rapidly, causing centrifugal force of the throwing Produced so that the pulp C in the uppermost position is subjected to the wind force of the fan unit F, so that the water is removed, but the residual water droplets are given due to the centrifugal force of the rotary cylinder A. Spray back to S to process the paper on the water C. This results in a small surface on the paper C. Through the hole; that is, the current fan device F, so the large-area blowing method, because the centrifugal force generated by the rotation speed of the rotary screen will affect the paper quality 'is only reduce the speed to match 'but this will follow The paper production is reduced; relatively, when the rotational speed of the rotary drum A is 4 M410065, the quality of the produced paper is worse, that is, the smaller the fine holes in the base paper. [New content] Therefore, the applicant 遂Developed the content of this creation and applied for it. The purpose of this creation is to provide a wind-pressure forced dewatering device for a rotary-type pulp forming machine, which is a short distance from the surface of the rotary drum of a rotary-type pulp forming machine. A blower is arranged at the position, wherein the air outlet of the blower is tapered; the surface of the rotary drum is brought into contact with the pulp in the pulp tank, so that the pulp is attached to the surface of the rotary drum and driven upward. When it is blown to the hair dryer, it is directly and intensively blown to one side of the rotary drum by a strong wind pressure by a hair dryer, and the water contained in the pulp is forcibly released and does not make the water I Share The centrifugal force generated by the rapid rotation of the rotary drum is again contacted with the pulp which removes water. Thus, it is thought that the rotation speed of the rotary drum can be increased to increase the output, and the quality of the raw paper produced can also be considered. [Embodiment] First of all, please refer to the detailed creation instructions of the third and fourth figures. 'The wind pressure forced dewatering device of a rotary net pulp forming machine in this case is a rotary drum of a rotary net pulp forming machine. A Da winder 2 is installed at a small distance from the surface of the crucible. The air outlet 21 of the blower 2 is tapered, so that the air volume is transmitted by a blower device for the rear 5 M410065; thus the rotary drum 1 is made After being placed in the pulp tank 3, when the rotary drum 1 is fast-rotating with its surface to contact the pulp 4 of the pulp tank 3, it is considered that the paper prize 4 is attached to the surface of the rotary drum 1 When it is driven up to the blower 2, it is directly and intensively blown to a portion of the rotary drum by a strong wind pressure 2A by the blower 2, so that it is contained in the pulp 4 attached to the surface of the rotary drum 1 The water... is subjected to strong wind pressure 2A, 遂. The water W is separated from the pulp (as shown in the fifth figure), and then the pulp is driven by a large belt E located outside the rotary disk #1. Entering the next process; thus, the water W contained in the pulp 4 is removed by the blower 2, and then The removed water W is not exposed to the dewatered pulp 4' caused by the centrifugal force generated by the rapidly rotating rotary drum 1 so that the surface of the pulp 4 is no longer retained after the water is removed. Small holes occur; this way, 'this production can increase the output speed while increasing the rotation speed of the rotary drum 1 while also taking into account the quality of the base paper produced by 0. Further, if it is considered necessary, a blower 2 (e.g., sixth and seventh figures) is added to a small distance from the surface of the rotary drum 1 to enhance the dewatering action. To sum up, this creation does have the above-mentioned effects. When it meets the requirements for the establishment of the new patent, Article 93, please ask the Bureau to make a legal right to grant legal rights. 6 M410065 [Simple description of the diagram] The first picture: the illustration of the former (1). The second picture: the illustration of the former (2). The second picture: the picture of this creation is not. The fourth picture: the illustration of the creation of the combination. • Figure 5: A diagram of an embodiment of this creation. Φ Figure 6: A schematic diagram of another assembly form of this creation (1). The seventh picture is the intention of another 'assembly form of this creation (1). [Description of main components] 1 rotary drum 2 blower 21 air outlet 2A air pressure 3 pulp tank .4 pulp • A rotary drum B pulp tank C pulp D water suction device E belt F fan unit W moisture