JPS6099087A - Pressure type papermaking composite screen - Google Patents
Pressure type papermaking composite screenInfo
- Publication number
- JPS6099087A JPS6099087A JP20548683A JP20548683A JPS6099087A JP S6099087 A JPS6099087 A JP S6099087A JP 20548683 A JP20548683 A JP 20548683A JP 20548683 A JP20548683 A JP 20548683A JP S6099087 A JPS6099087 A JP S6099087A
- Authority
- JP
- Japan
- Prior art keywords
- foreign matter
- raw material
- screen member
- chamber
- screen
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Paper (AREA)
Abstract
(57)【要約】本公報は電子出願前の出願データであるた
め要約のデータは記録されません。(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.
Description
【発明の詳細な説明】
リーン。詳しくは、新聞,に;誌等の故紙を離解した場
合、原料中に多数混入する異物(金属片。DETAILED DESCRIPTION OF THE INVENTION Lean. For more information, please see the following: When waste paper such as newspapers and magazines is disintegrated, a large number of foreign objects (metal fragments) are mixed into the raw material.
石,プラスチック片,−スチロール片,ビニール片)を
紙料用繊維と分離し、後処理室へ人らない様にして、二
次スクリーン部材の損傷をIIキ減すると共に、M度の
良い精選を行わせて、従来のスクリーンの処理濃度より
高い3〜4%での精選処理を特徴とする特開11F45
6’ 9(4984号の追加発明に関する。Stones, plastic pieces, styrofoam pieces, vinyl pieces) are separated from the paper stock fibers to prevent people from entering the post-processing room, reducing damage to the secondary screen member by 2 times, and selecting a material with a good M degree. JP-A-11F45 is characterized by selective processing at a concentration of 3 to 4%, which is higher than that of conventional screens.
6'9 (relating to the additional invention of No. 4984).
従来、筒状のスクリーン部材内へ組附解原料を導入して
、攪拌棒部片を備えるロータの作用で前記筒状のスクリ
ーン部材を通し、精選処理を行う圧力式スクリーンが公
知であり、このものは筒状のスクリーン部材の4lh方
向の各部断面が同一であり、且つ、攪拌俸部片の作用も
平均に行われるから、全スクリーン面を活用した効率の
高いスクリーニングが出来たが、筒状のスクリーン部材
は原料の流動方向に対して一定の面長を有し、このため
金属片1石、プラスチック片、その他の異物が混入した
場合、之等がスクリーン部材とロータとの間に停滞し、
スクリーン部側と攪拌棒部片とによる異物の咬込み。Conventionally, a pressure screen is known in which assembled and disintegrated raw materials are introduced into a cylindrical screen member and subjected to a selective treatment by being passed through the cylindrical screen member by the action of a rotor equipped with a stirring rod piece. Since the cross section of each part of the cylindrical screen member in the 4lh direction is the same, and the action of the stirring bar is evenly distributed, highly efficient screening was possible using the entire screen surface. The screen member has a fixed surface length in the flow direction of the raw material, so if a single piece of metal, plastic piece, or other foreign matter gets mixed in, it will stagnate between the screen member and the rotor. ,
Foreign matter gets caught between the screen part side and the stirring rod part.
圧延、転勤等を生じてスクリーン部材を破損させたり、
その選別穴を変形させて、寸法、形状を不揃いにしてM
M精度を低下したり、又、混入異物が発泡スチロール片
や、ビニール、ポリエチレン等のソート片、ひも、或は
雑誌を綴るホットメルト等のガム状物であるときは、之
等がスクリーン部材の選別穴を閉塞して精選能力を著し
く低下さセたすする欠点があつ馳。Damage to screen members due to rolling, transfer, etc.
By deforming the sorting hole and making the size and shape irregular, M
If the M accuracy is reduced, or if the mixed foreign matter is a piece of Styrofoam, a sorting piece of vinyl or polyethylene, string, or a gum-like material such as hot melt that binds magazines, etc. There are drawbacks that block the holes and significantly reduce the selection ability.
そこ′で前記した原発間は、公知の圧力式スクリーン(
該発明における後処理室)と、イ〃ペワの作用で原料中
の異物を分離し、紙料を一次スクリーン部材を通して送
り出す01■処理室とを、紙料の送出部と導入部との接
合により一連化し、後処理室内へ筒状の二次スクリーン
部材の損傷や精選能力の低下原因となる異物を浸入させ
ない製紙用圧力式複合スクリーンを提供し、異物よりス
クリーンを保護して、精選能力を向上させることに成功
している。There, a well-known pressure screen (
The post-processing chamber in the invention) and the processing chamber, which separates foreign matter in the raw material by the action of the paper feeder and sends the paper stock through the primary screen member, are connected to the paper stock delivery section and the introduction section. We provide a pressure-type composite screen for paper manufacturing that prevents foreign matter from entering the post-processing chamber that would damage the cylindrical secondary screen member or reduce the sorting ability, and protect the screen from foreign matter and improve the sorting ability. succeeded in improving.
しかし、このものは、前処理室において爪1貸異物の強
制的初出が行われないため、該異物が前処理室内に旋回
滞留する時間が長くなり、異物の混合率が上テ1する結
果、前処理室の内壁を摩耗させる傾向が見られるので、
本発明はこの傾向を解消する様に改良したものである。However, in this case, since the foreign matter is not forcibly brought out in the pretreatment chamber for the first time, the time for which the foreign matter swirls and stays in the pretreatment chamber increases, and as a result, the mixing ratio of foreign matter increases. Since there is a tendency to wear out the inner wall of the pretreatment chamber,
The present invention has been improved to eliminate this tendency.
次に本発明の実施例を図面にノ、(いて説明する。Next, embodiments of the present invention will be described with reference to the drawings.
図中tU後処理室で、取イ゛1脚2によりベース3の1
一部−11111でINN13、その一端を蓋4により
密閉し、1[口端に精選紙料の心入部21を設けである
。6け1):j記した後処理室1の内側に設けた筒状の
二次スクリーン部IIで、後処理室1の取付環7へ後記
する1)11処理室+1111からねじ■めし、他端を
後処理室1へ当1安し、前記した筒状のニ次スクリーン
部416の周りに精選紙来1室8を設けである。9は後
処理室1の隣りにこの室1と中・Uを合すて設けた軸受
筐で、取イー1脚10によりベース3へ固定しである。In the figure, in the tU post-processing chamber, one of the bases 3 is
One end of the INN 13 is sealed with a lid 4, and a core 21 for the selected stock is provided at the end. 6 1): Using the cylindrical secondary screen part II provided inside the post-processing chamber 1 marked j, screw the screws from the 1) 11 processing chamber + 1111 described later to the mounting ring 7 of the post-processing chamber 1, etc. The end is passed into the post-processing chamber 1, and a selected paper chamber 8 is provided around the cylindrical secondary screen section 416 described above. Reference numeral 9 denotes a bearing case which is provided next to the post-processing chamber 1 and includes the chamber 1 and the inner U, and is fixed to the base 3 by a handle 1 leg 10.
、1lid前記軸受箭9に支1.1「六せた1:、軸で
、七の先端を1〕11記蓋4の軸封部12を涌して1)
11記1:11状の二次スクリーン部材6のrl+ 、
9部に挿入し、後端r原動機13から受動する受動輪1
4をルイ1けである。151d l)!I記した筒状の
二次スクリーン部材6内に之と同心状に設けたロータで
、前記主軸11へ後記する前処理阜側から嵌合キー16
止めしである。17は前記したロータ15の外周面に取
イ1けた複数個の(!シ拌棒部片で、前記した筒状の二
次スクリーン部材6の内面を拭う様に回転して原料の脈
動圧を起させるものであり、その形状や取付方法は、処
理される紙料の性質に適合する様に様々に変化、変形さ
せ得るもので、これらについての図解は省略する。, 1lid support 1.1" on the bearing housing 9; 1) with the shaft, place the tip of 7 on 1] 11.
11 1:rl+ of the 11-shaped secondary screen member 6,
Passive wheel 1 inserted into part 9 and driven by rear end r prime mover 13
Louis is 1 digit for 4. 151d l)! A rotor is provided concentrically within the cylindrical secondary screen member 6 shown in FIG.
It's a stop. Reference numeral 17 denotes a plurality of one-digit stirring rod pieces on the outer circumferential surface of the rotor 15, which rotate to wipe the inner surface of the cylindrical secondary screen member 6 to generate the pulsating pressure of the raw material. The shape and attachment method can be changed and modified in various ways to suit the properties of the paper stock to be processed, and illustrations thereof will be omitted.
18は前記した筒状の二次スクリーン部イ′A’ 6に
設けた選別穴で、細かい円孔か狭いスリットを選択使用
する。19は前記した後処理室]における精選紙料の導
入部aに精選紙料の送出部すを接合して設けた前処理室
で、9ノしくは後処理室1よりも断面積を大きく、長さ
を長くして必2 mの原料を容入し、この原料に充分な
1et) ’a時間が与えられる様に容量を定める。2
0は前記した前処理室19の精選紙料送出部aに対して
上流側に設けた一次スクリーン部材で、対象物を遠心方
向へ投射し易い平面か傘面、漏斗面等に形成する。22
は前記した一次スクリーン部材20に接近させて前処理
室19内に設けたインペラで、前記板状の一次スクリー
ン20にあけた孔から前記ロータ15に固着し、ロータ
15と共に回転させて、前処理室19内の原料のyjr
解と、旋回流及び遠心力による重ffl異物の外周への
分離と、旋回流の渦心への軽量異物の集中等の作用を行
わせる。Reference numeral 18 denotes a screening hole provided in the cylindrical secondary screen portion A'A' 6, and either a fine circular hole or a narrow slit is selectively used. Reference numeral 19 denotes a pre-treatment chamber in which a selected paper stock delivery section is joined to the selected paper stock introduction section a in the above-mentioned post-processing chamber; The length is increased to accommodate 2 m of raw material, and the capacity is determined so that sufficient time is given to this raw material. 2
Reference numeral 0 denotes a primary screen member provided on the upstream side of the selected stock delivery section a of the pretreatment chamber 19, and is formed into a flat surface, an umbrella surface, a funnel surface, etc., so that objects can be easily projected in the centrifugal direction. 22
is an impeller installed in the pretreatment chamber 19 close to the primary screen member 20 described above, which is fixed to the rotor 15 through a hole drilled in the plate-shaped primary screen 20 and rotated together with the rotor 15 to perform the pretreatment. YJR of raw materials in chamber 19
In addition, effects such as separation of heavy ffl foreign matter to the outer periphery by swirling flow and centrifugal force, and concentration of light foreign matter at the vortex center of the swirling flow are performed.
23は前処理室19の開口端へ着脱する2:i5の中心
に前記インペラ22に対応させて取付けた軽量異物の出
口管で、弁24を装備させ、この弁別を開いて軽量異物
をυト出させる。25は前処理室19のインペラ22に
近い方の周面に接線状に接続した原料の入口管で、前記
インペラ22による原料の旋回流に合せて前処理室19
へ原料を送込ませる。Reference numeral 23 denotes an outlet pipe for lightweight foreign matter attached to and removed from the open end of the pretreatment chamber 19, which is attached to the center of 2:i5 corresponding to the impeller 22, and is equipped with a valve 24, which is opened to remove light foreign matter from the Let it come out. 25 is a raw material inlet pipe connected tangentially to the circumferential surface of the pretreatment chamber 19 near the impeller 22;
Send raw materials to.
26は前処理室19の蓋5に接近する周面に接続した重
量異物の出口管で、弁nを装備させ、この弁nを開いて
重量異物を排出させる。28は後処理室1における精選
紙料室8に接続した二次精選紙料の出口管で、二次精選
された紙料を送り出す。29は前記した後処理室1の一
端を塞ぐ蓋4と前記ロータ15との間に形成される後室
で、筒状の二次スクリーン部材6を通れない異物を受け
、蓋4に接続した異物出口管30から外部へ排出させる
様にしたものである。Reference numeral 26 denotes an outlet pipe for heavy foreign matter that is connected to the peripheral surface of the pretreatment chamber 19 approaching the lid 5, and is equipped with a valve n, which is opened to discharge the heavy foreign matter. Reference numeral 28 denotes a secondary selected stock outlet pipe connected to the selected stock chamber 8 in the post-processing chamber 1, through which the second selected stock is sent out. Reference numeral 29 denotes a rear chamber formed between the lid 4 that closes one end of the post-processing chamber 1 and the rotor 15, which receives foreign matter that cannot pass through the cylindrical secondary screen member 6, and receives foreign matter connected to the lid 4. It is designed to be discharged to the outside from an outlet pipe 30.
31は前記した前処理室19の内壁面に設けた重量異物
のks =ff条で、原料流の方向に沿わせたスパイラ
ル状に設けることが好しくは、その数ハ図面第 図に示
す様に原料の入口管25の下/(L側を起点とし、重量
異物の出口管26の上流側を終点とする様に7条設ける
か、或は原料の入口管25の下流側と重量異物の出口管
26の上流側との間に図面第1図に示す様に2条若しく
岐3条設けるものであって、この誘導条31は図面第S
図に示す様に内壁から突出する凸条でも、図面第を図及
び第7図に示す様に内壁から凹入する四条でも良く、凸
条の場合、その高さけ1)iJ処理室の内壁の円周h°
向に沿って生ずる原料の旋回流動を阻害することなぐ、
重量異物を捕集して誘導さするために5〜25fiの範
囲内に定めるものとし、又、四条の場合には、その深さ
を前記した目的のために3〜/夕■の範囲内に定めるも
のとするものである。Reference numeral 31 denotes a heavy foreign object ks = ff provided on the inner wall surface of the pretreatment chamber 19, which is preferably provided in a spiral shape along the direction of the raw material flow, as shown in Fig. 7 strips are provided below the raw material inlet pipe 25/(L side) and end at the upstream side of the outlet pipe 26 for heavy foreign matter, or between the downstream side of the raw material inlet pipe 25 and the heavy foreign matter. As shown in FIG. 1 of the drawing, two or three branched strips are provided between the upstream side of the outlet pipe 26, and this guide strip 31 is provided as shown in FIG.
It may be a convex strip that protrudes from the inner wall as shown in the figure, or it may be four strips that are recessed from the inner wall as shown in Figure No. 1 and Figure 7. In the case of a protruding strip, the height 1) of the inner wall of the iJ processing chamber Circumference h°
without interfering with the swirling flow of raw materials that occurs along the direction.
In order to collect and guide heavy foreign objects, the depth shall be set within the range of 5 to 25 fi, and in the case of four strips, the depth shall be set within the range of 3 to 25 fi for the above-mentioned purpose. The following shall be established.
又、この製紙用圧力式複合スクリーンにおいては前処理
室19に対する原料の送入を、前記実施例及び図面に示
す入1」管25からはイ1わず、軽量異物の出口管23
の位置を入口管とり、てイjうこともできるもので、こ
の場合、軽は異物を含む不通過原料は重量異物と共に誘
導排除されるが、後処理室の紙料に対して影響を与える
ものではなく、操作上何等支障がないものである。In addition, in this pressure-type composite screen for papermaking, raw materials are not fed into the pretreatment chamber 19 from the inlet pipe 25 shown in the embodiments and drawings, but from the outlet pipe 23 for light foreign matter.
In this case, the non-passable material containing light foreign matter is guided away along with the heavy foreign matter, but it does not affect the stock in the post-processing chamber. It is not a product, and there is no problem in operation.
本発明に関する製紙用圧力式複合スクリーンの実施の一
例は、+iiJ記の様に構成されているから原料の入口
管25に精選原料の出1」管28の調整ノ「(何れも図
面には示してない)を相対調整し、入口側と出口i側と
の原料の差圧力を一定させれば、原料の通過量(入口管
を通る量)が定まるから、この状B +tcおいて一般
の圧力スクリーンに比べてl−5倍程度濃度を1会、〈
(3〜ゲ頭絶乾以上)した原料を前処理室19へ接線状
に吹込めば、原料は吹込力と前処理室19内において回
転するインペラ22の回転とにより旋回力を与えられて
、1)11処理室19内を高速旋回し、効果的にINI
J IQ?されつ\、遠心力の作用で混入する金塚片石
、プラスチック片、ビニール等のシート片。An example of the implementation of the pressure-type composite screen for paper manufacturing according to the present invention is constructed as shown in +iiJ. If the differential pressure of the raw material between the inlet side and the outlet i side is made constant, the amount of raw material passing through (the amount passing through the inlet pipe) is determined, so in this state B The concentration is about 1-5 times that of the screen,
When the raw material that has been dried (3 to 100% dry) is tangentially blown into the pretreatment chamber 19, the raw material is given a swirling force by the blowing force and the rotation of the impeller 22 rotating in the pretreatment chamber 19. 1) High-speed rotation inside the 11 processing chamber 19 to effectively perform INI
JIQ? Pieces of Kanazuka stone, plastic pieces, vinyl sheet pieces, etc. that get mixed in due to the action of centrifugal force.
木片等の重量異物は外周へ排除され、これら重「↓異物
は旋回に伴い誘導条31へ入り込み、誘導条31により
重量異物の出口管26へ向う移動を強制されて脱出や反
流を起さず出口管26へ集められ、軽量異物、例えば発
泡スチロール、ビニール、ポリエチレン等のシート片、
ひも等は、インペラ22の回転により前処理室19内に
図面第1図に示す様に外陣に沿って左進した原料が中央
部を右進する対流を生じ、前処理室19の中心部に渦柱
を生ずるため、渦柱に捕集されて軒hI異物の出口管2
3へ向って流れ、出口管23に集められるから、随時に
出口管26と23とに装(’i+j L/た弁n、24
を開けば、重量異物と軽量異物とは外部へ排出される。Heavy foreign objects such as pieces of wood are expelled to the outer periphery, and these heavy foreign objects enter the guide strip 31 as they rotate, and are forced by the guide strip 31 to move toward the outlet pipe 26 of the heavy foreign objects, causing escape or counterflow. The liquid is collected in the outlet pipe 26, and light foreign matter, such as sheet pieces of styrofoam, vinyl, polyethylene, etc.
The rotation of the impeller 22 causes convection in the pretreatment chamber 19 in which the raw material, which has moved leftward along the outer ring, moves to the right in the center, as shown in FIG. Since a vortex column is generated, the foreign matter is collected by the vortex column and exits the eave hI outlet pipe 2.
3 and is collected in the outlet pipe 23, so the outlet pipes 26 and 23 are equipped with ('i+j L/valve n, 24
When opened, heavy foreign objects and light foreign objects are discharged to the outside.
一方、−次スクリーン部材20を通り、その選別穴21
を通れない残留異物や粗原料を除かれ、送出部すへ流出
した原料は、導入部aから筒状の二次スクリーン部材6
とロータ15との間へ導入されて、筒状の二次スクリー
ン部材6による選別を行われるもので、この際原料中に
M)状の二次スクリーン部材6の損傷原因となる大きな
異物が全く存在しないため、攪拌棒部片17が異物の障
害を受けることも、又、筒状の二次スクリーン部材6の
損傷や目詰りによる能力低下を来すこともなく、精度の
良い選別を行うこと力(できる。On the other hand, it passes through the -next screen member 20 and its screening hole 21
The remaining foreign matter and crude materials that cannot pass through are removed, and the raw material that flows out to the delivery section is passed from the introduction section a to the cylindrical secondary screen member 6.
and the rotor 15 to be sorted by the cylindrical secondary screen member 6. At this time, there are no large foreign substances in the raw material that could cause damage to the M)-shaped secondary screen member 6. Since there is no such thing, the stirring bar piece 17 is not interfered with by foreign matter, and the cylindrical secondary screen member 6 is not damaged or clogged, thereby reducing its ability, and it is possible to perform accurate sorting. power (can be done)
又、例え、−次スクリーン部材を通って、筒状の二次ス
クリーン部材6とロータ15との間へ入れても、筒状の
二次スクリーン部材6を通れない細異物や未離解原料は
、二次スクリーン部材6に沿って後室29側へ流動し、
後室29に達すると出口管30から外部へ排出されるも
のである。Further, even if the fine particles and undisintegrated raw materials cannot pass through the cylindrical secondary screen member 6, even if they pass through the cylindrical secondary screen member 6 and enter between the cylindrical secondary screen member 6 and the rotor 15, Flows along the secondary screen member 6 toward the rear chamber 29,
When it reaches the rear chamber 29, it is discharged to the outside through an outlet pipe 30.
本発明に関する製紙用圧力式複合スクリーンは、異物に
よる筒状二次スクリーン部材の損傷を無くすため、該ス
クリーン部材の精進紙料流に対して上流側に、インペラ
により原料の旋回流を生じさせて原料中の異物を分離し
、紙料だけを一次スクリーン部材を通して送り出すfr
i+処理室を設け、これにより一次精選された紙料だけ
を後処理室へ送らせる様にしたから、金属片。In order to eliminate damage to the cylindrical secondary screen member caused by foreign matter, the pressure-type composite screen for paper manufacturing according to the present invention uses an impeller to generate a swirling flow of the raw material on the upstream side of the screen member relative to the refined paper stock flow. A fr system that separates foreign substances from raw materials and sends only the paper stock through the primary screen member.
An i+ processing chamber was set up so that only the primary selected paper stock was sent to the post-processing chamber, so metal pieces were removed.
石、プラスチック片、その他の瓜足異物はインペラの回
転により前処理室内に起される渦流と旋回運動と遠心力
により紙料から分Kfされると共に、−次スクリーン部
材による精選で異物が筒状二次スクリーン部材へ侵入す
ることを阻止されるから、後処理室への異物侵入に起因
する各種の弊害が防止されるものであり、又、前処理室
には、−次スクリーン部材に接近させてインペラを設け
たから、このインペラの回転により紙料の離解が効果的
に行われると共に、原料が回転方向の旋回、渦流を与え
られ、之に伴って生ずる遠心力により原料中の重量異物
は前へ≦の外周壁へ飛ばされ、その周壁を旋回しながら
出口管に落ち、出口管より原料の一部と共に排除され、
軽量異物(紙料より軽いもの)は前処理室内の旋回、渦
流、遠心力によって室の中央部に生ずる渦中の作用によ
り中央部に群東し、前処理室の蓋の中央部に設けた軽量
異物出口管を開くとき、外部へ排除されるため原料中の
異物の大半は前処理室において除去される。Stones, plastic pieces, and other foreign substances are separated from the paper stock by the vortex, swirling motion, and centrifugal force generated in the pretreatment chamber by the rotation of the impeller, and the foreign substances are separated into cylindrical shapes by screening using a screen member. Since foreign matter is prevented from entering the secondary screen member, various harmful effects caused by foreign matter entering the post-processing chamber are prevented. Since the impeller is installed at the same time, the rotation of this impeller effectively disintegrates the paper stock, and the raw material is swirled in the direction of rotation and given a vortex, and the centrifugal force generated by this causes heavy foreign substances in the raw material to be removed from the front. The material is blown to the outer peripheral wall of
Light-weight foreign matter (lighter than paper stock) is transported to the center by the action of the vortex generated in the center of the chamber due to swirling, whirlpools, and centrifugal force in the pre-treatment chamber, and is transported to the center of the pre-treatment chamber using a lightweight foreign material placed in the center of the lid of the pre-treatment chamber. When the foreign matter outlet pipe is opened, most of the foreign matter in the raw material is removed in the pretreatment chamber because it is expelled to the outside.
又、−次スクリーン部材を通過出来る程度の小さい異物
は、例え筒状の二次スクリーン部材内に停N:I して
も、このスクリーン部材の損傷。Furthermore, even if a foreign object that is small enough to pass through the secondary screen member stops within the cylindrical secondary screen member, this screen member may be damaged.
変形を生じさせるおそれはなく、ローフ周面の撹拌棒部
片により後室へ送られ、異物出口管より排出されるため
、筒状の二次スクリーン面のrtj瀉を無くシ、処理濃
度3〜4%の高濃度で精度の良いスクリーニングを可能
とし得る。There is no risk of deformation, and the foreign matter is sent to the rear chamber by the stirring rod piece on the circumference of the loaf and discharged from the outlet pipe, eliminating the need for rtj on the cylindrical secondary screen surface and allowing processing concentrations of 3 to 30%. Accurate screening may be possible at a high concentration of 4%.
更にこのスクリーンにおける前処理室は、その内壁に原
料流の旋回方向に沿わせた誘導条があり、この誘導条が
遠心力で内壁に寄せられたju :1に異物を捕捉し、
これを強制的に重量異物の出口管へ42いて、爪h1異
物による内壁の摺擦を極力少くするため、内壁の摩耗が
大1丁に軽減される。Furthermore, the pretreatment chamber in this screen has a guiding strip along the swirling direction of the raw material flow on its inner wall, and this guiding strip traps foreign matter on the ju:1 that is brought to the inner wall by centrifugal force.
This is forced into the outlet pipe 42 of the heavy foreign matter to minimize the rubbing of the inner wall by the claw h1 foreign matter, thereby reducing the wear on the inner wall to just one.
などの特有の効果が奏されるものである。It produces unique effects such as:
4追加の関係
本発明は特開昭56−96984号の追加発明に関する
もので、インペラの回転により原イ′トの旋回流を生じ
させて原料中の異物を分店し、紙料をインペラに対応す
る一部スクリーン部材を通して一次精選し、送出部へ送
り出す前処理室と、前記−次精選紙料を導入部より筒状
の二次スクリーン部祠内へ導入し、撹拌棒部片を備える
ロータの作用で前記筒状の二次スクリーン部材を通して
二次精選する後処理室とを、前記精選紙rトの送入部と
導入部とを接合して一連化することにより、徒処理室へ
筒状スクリーン部材の損傷や精選能力の低下の原因とな
る異物を浸入させない様にしてスクリーン部材の保シと
精選能力の向上を謂る点において先願の権利を使用し、
前処理室の内壁に原料流の方向に沿ゎせた重量異物の誘
導条を設け、この誘導条により重量異物の強制排除を行
わせて、JiJ処理室の糸耗を減少させた点において更
に原発明の効果を助長したものである。4 Additional Relationships The present invention relates to an additional invention disclosed in Japanese Patent Application Laid-Open No. 56-96984, in which a swirling flow is generated in the raw material by the rotation of an impeller, foreign matter in the raw material is separated, and the paper stock is adjusted to the impeller. A pre-treatment chamber which performs primary selection through a partial screen member and sends it to a delivery section, and a rotor which introduces the above-mentioned second selection paper stock from an introduction section into a cylindrical secondary screen section and is equipped with a stirring rod section. The post-processing chamber where secondary screening is carried out through the cylindrical secondary screen member is connected to the inlet section and the introduction section of the selected paper to form a series, so that the cylindrical post-processing chamber is Using the right of the prior application, the patent claims to protect the screen members and improve the screening ability by preventing the infiltration of foreign substances that may cause damage to the screen members or reduce the screening ability.
A further advantage is that a guide line for heavy foreign matter is provided on the inner wall of the pre-treatment chamber along the direction of the raw material flow, and this guide line forcibly removes the heavy foreign matter, thereby reducing yarn wear in the JiJ processing chamber. This enhances the effect of the original invention.
図面は本発明に係る圧力スクリーンの一実施例を示すも
ので、第1図は縦断正面図。第2図は中央室で縦断した
側面図。第3図は前室で縦断した側面図。第4図は誘導
条の取付状態を示す他実施例の一部わt断正面図。第5
〜第7図は誘導条の形状を示す各実1%例の説明図であ
る。
尚、図中1は後処理室、aは精選紙料導入部、6は筒状
の二次スクリーン部材、15はロータ、17は1?工拌
棒部片、19は前処理室、bは精″選紙料第
7
謂The drawings show one embodiment of the pressure screen according to the present invention, and FIG. 1 is a longitudinal sectional front view. Figure 2 is a longitudinal side view of the central chamber. Figure 3 is a longitudinal side view of the front chamber. FIG. 4 is a partially cutaway front view of another embodiment showing how the guide strips are attached. Fifth
~Figure 7 is an explanatory diagram of each 1% example showing the shape of the guide strip. In the figure, 1 is a post-processing chamber, a is a selected stock introduction section, 6 is a cylindrical secondary screen member, 15 is a rotor, and 17 is 1? 19 is the pretreatment chamber, b is the fine paper separation material No. 7, so-called
Claims (1)
て原料中の異物を分離し、紙料をインペラに対応する一
次スクリーン部材を通して一次精選し、送出部へ送り出
す前処理室と、前記−次精選紙料を尋人部より筒状の二
次スクリーン部材内へ導入し、攪拌外部片を備えるロー
タの作用で前記筒状の二次スクリーン部材を通して二次
′41q選する後処理室とを、前記精選紙料の送入部と
尊大部とを接合して一連化した製紙用圧力式腹合スクリ
ーンにおいて、前記前処理室の内壁に原料の旋回流の方
向に沿わせた重「1異物の誘心条を1条若しくは複数条
設けたことを特徴とする肋紙用圧力式N合スクリーン。(1) A pretreatment chamber in which a swirling flow of the raw material is generated by the rotation of the impeller to separate foreign matter in the raw material, and the paper stock is first sorted through a primary screen member corresponding to the impeller and sent to the delivery section; a post-processing chamber in which the selected paper stock is introduced into a cylindrical secondary screen member from the processing section, and is subjected to secondary selection through the cylindrical secondary screen member by the action of a rotor equipped with an external agitating piece; In the pressure-type venting screen for paper manufacturing in which the inlet part and the bulk part of the selected paper stock are joined together and made into a series, heavy foreign matter is placed on the inner wall of the pretreatment chamber along the direction of the swirling flow of the raw material. A pressure-type N-coupling screen for wall paper, characterized by having one or more diagonal strips.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP20548683A JPS6099087A (en) | 1983-11-01 | 1983-11-01 | Pressure type papermaking composite screen |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP20548683A JPS6099087A (en) | 1983-11-01 | 1983-11-01 | Pressure type papermaking composite screen |
Publications (1)
Publication Number | Publication Date |
---|---|
JPS6099087A true JPS6099087A (en) | 1985-06-01 |
Family
ID=16507647
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP20548683A Pending JPS6099087A (en) | 1983-11-01 | 1983-11-01 | Pressure type papermaking composite screen |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS6099087A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS62191591A (en) * | 1986-02-18 | 1987-08-21 | ヨツト エム フオイト ゲ−エムベ−ハ− | Apparatus for selecting fiber suspension |
-
1983
- 1983-11-01 JP JP20548683A patent/JPS6099087A/en active Pending
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS62191591A (en) * | 1986-02-18 | 1987-08-21 | ヨツト エム フオイト ゲ−エムベ−ハ− | Apparatus for selecting fiber suspension |
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