JPS5959907A - Counter current washing device - Google Patents
Counter current washing deviceInfo
- Publication number
- JPS5959907A JPS5959907A JP16968582A JP16968582A JPS5959907A JP S5959907 A JPS5959907 A JP S5959907A JP 16968582 A JP16968582 A JP 16968582A JP 16968582 A JP16968582 A JP 16968582A JP S5959907 A JPS5959907 A JP S5959907A
- Authority
- JP
- Japan
- Prior art keywords
- partition plate
- partition plates
- upper partition
- cleaning
- lower partition
- 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.)
- Granted
Links
Landscapes
- Treatment Of Fiber Materials (AREA)
- Spinning Methods And Devices For Manufacturing Artificial Fibers (AREA)
Abstract
Description
【発明の詳細な説明】
本発明は向流洗浄装置に関する。更に詳しくは合成繊維
の紡糸工程において、繊維束の洗浄効果を可及的に増大
させ、且つ繊井11束の直線形態を安定に保つ向流洗浄
装置に関するものである。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a countercurrent cleaning device. More specifically, the present invention relates to a countercurrent cleaning device that increases the cleaning effect of fiber bundles as much as possible in a synthetic fiber spinning process and maintains the linear form of the 11 fiber bundles stably.
従来、繊維束を連続的に洗浄する装(hとしてはバック
台ウオッシャ一式があるが、これは被洗浄物を洗浄槽に
浸漬し、マングルで絞るという工程の組合せからなるも
のである。そのため、洗浄効率が低く、しかもマングル
を通る回数に)1;倒して繊維束の形態が乱れるという
欠点があった。しかも、1槽尚りの洗浄効果が低い為に
必要な洗r/+効果を得るに&J1多槽化しなりれはな
らず、マングルによる絞り回数の増加により、t、f・
c til1束の旧線的形態の乱れ及び外的損傷を受り
る危険性が増加し、繊維製品の品質斑の原因の1つとな
っていた。また、洗浄効果の高い連続洗浄装置として、
バイブロ・ウオッシャ−がある。これは、洗浄効果が高
い反面、繊維束のi′14.純性が大きく損われ、これ
らの洗浄装置では、繊糺束に斜交、父絡、ループ形成等
が生じ、後工程で延伸処理等を施す場合は糸切れ発生や
不均一な延伸状態となり、糸品質(繊度、物理的性質等
)の斑を銹発する。さらには、繊維束の開繊を必要とす
る場合など、交絡によって開繊性が悪化するため、この
洗浄装置の最大の欠点とされていた。また、繊維束の直
線性を正視した連続洗浄装置として、洗浄槽内を通過す
る繊維束の下方あるいkl、上方と下方1対の仕切板を
用い、上下1対の仕切板の場合はその仕切板間隔が繊維
束の集束J!pみと等しいか、それよりも若干広いスリ
ット状に設置し、洗浄液を繊維束の進行方向に対して自
流とすることにより、繊維束を連続的に洗浄するべ(口
1・」′がある。しかし、この装置は、繊維束の通j6
”目iが増加すると、洗浄効果は減少し、さらには4哉
に41束にtJ随して発生する随伴流により、抗01水
を繊維束の進行方向へと逆流させてしまい、rs゛、?
J)槽内でのk< 8束と洗浄液の接触効率が低下し、
洗浄効果は極端に悪化してくる。Conventionally, there has been a system for continuously washing fiber bundles (h), which includes a set of back stand washers, which consists of a combination of steps in which the object to be washed is immersed in a washing tank and squeezed with a mangle. The cleaning efficiency was low, and the number of times the fiber bundle passed through the mangle was low. Moreover, since the cleaning effect of one tank or more is low, in order to obtain the necessary washing r/+ effect, it is necessary to increase the number of tanks of &J1, and due to the increase in the number of squeezes due to the mangle, t, f,
This increases the risk of disturbance of the old linear form of c til1 bundles and external damage, and is one of the causes of quality unevenness in textile products. In addition, as a continuous cleaning device with high cleaning effect,
There is a vibro washer. Although this has a high cleaning effect, the i′14. Purity is greatly impaired, and these cleaning devices cause cross-crossing, tangling, loop formation, etc. in the fiber bundles, and when stretching is performed in the subsequent process, thread breakage occurs and uneven stretching occurs. Removes irregularities in yarn quality (fineness, physical properties, etc.). Furthermore, when fiber bundles need to be opened, entanglement deteriorates the opening performance, which is considered to be the biggest drawback of this cleaning device. In addition, as a continuous cleaning device that takes straight into consideration the linearity of the fiber bundle, we use a pair of partition plates below or kl, above and below the fiber bundle passing through the cleaning tank. The distance between the partition plates is J for convergence of fiber bundles! The fiber bundle should be continuously washed by installing the slit in the shape of a slit that is equal to or slightly wider than the width of the fiber bundle and allowing the cleaning liquid to flow in its own direction in the traveling direction of the fiber bundle. However, this device does not allow the fiber bundle to pass through.
``As the number i increases, the cleaning effect decreases, and furthermore, due to the accompanying flow generated along with tJ to the 41 bundle, the anti-01 water flows backward in the traveling direction of the fiber bundle, and rs゛, ?
J) The contact efficiency between the k<8 bundle and the cleaning solution in the tank decreases,
The cleaning effect will be extremely deteriorated.
本発明の目的は、かかる従来装置の欠点を解消した洗浄
装置を提供することにある。An object of the present invention is to provide a cleaning device that eliminates the drawbacks of such conventional devices.
仕切板と、該下部仕切板の上方に被洗浄物が通過し得る
間隔をもって上部仕切板とを該洗浄槽内に設けた向流洗
浄装置において、上部仕切板の下端部を下部仕切板の上
端部よりも被洗浄物の入口側に位置させ、かつ核上部仕
切板を該下部仕切板に対して前記被洗浄物の出「1側に
顛余1させることを特徴とする向流洗浄装置にある。In a countercurrent cleaning device in which a partition plate and an upper partition plate are provided in the cleaning tank with a space above the lower partition plate that allows the object to be cleaned to pass, the lower end of the upper partition plate is connected to the upper end of the lower partition plate. A countercurrent cleaning device characterized in that the upper partition plate is located on the inlet side of the object to be cleaned than the lower partition plate, and the upper partition plate is positioned more often than the lower partition plate on the side where the object to be cleaned is out. be.
以下、本発明の向流洗浄装置の一実施例を昭1面により
詳細に説明する。Hereinafter, one embodiment of the countercurrent cleaning device of the present invention will be described in detail from the 1st page of the Showa era.
第1図は本発明の向流洗浄装置の側面図である。FIG. 1 is a side view of the countercurrent cleaning device of the present invention.
傾斜した洗浄槽lの傾斜角LL t、を被洗浄物、例え
ば繊維束の太さ、あるいd、幅、その走行速度、洗浄液
量によって最適な範囲があり、−概には決められないが
、通常1〜45度が操作性のし易さや洗浄効果の点で好
ましい。被洗浄物2にL矢印の方向に移動する。被洗浄
物は矢印で示すように、傾斜した洗浄槽の下方よ!ll
ll性槽に入り、その上部に向って進行する。3は洗浄
液導入管、4は洗浄液排出管を示し、矢印方向に従って
洗浄液が流れ、前6[:披洗′/!11物と向γ)11
.接触する。洗浄槽lを被洗浄物2の進行方向、即ちそ
の長さ方向に多段に仕切る下81(仕切板5がある。下
部仕切板5は、通常洗浄槽の1片面にメ・」シて陥垂直
に設けるが、必ずしもそれに限らず、洗浄槽を多段に仕
切り、それによって洗浄槽lを更Vこ小さな区域に分り
、各々の分tJられた区域Q:j、洗浄液が貯溜するこ
とが出来るものであればよい。下部仕りυ板5の上方に
上部仕切板6がある。上部仕切板6に1、下部仕切板5
との間に被洗?Jl物2を6曾fI槽内を直腺状に通過
させることが出来る間隔をイjしていることが心安であ
る。The angle of inclination LL t of the inclined washing tank l has an optimum range depending on the object to be washed, for example, the thickness or d of the fiber bundle, its running speed, and the amount of washing liquid, although it cannot be determined generally. , usually from 1 to 45 degrees is preferred in terms of ease of operation and cleaning effect. The object to be cleaned 2 is moved in the direction of the L arrow. Place the items to be cleaned at the bottom of the sloping cleaning tank as shown by the arrow! ll
It enters the sexual tank and progresses towards the top of it. 3 is a cleaning liquid inlet pipe, 4 is a cleaning liquid discharge pipe, and the cleaning liquid flows in the direction of the arrow. 11 things and direction γ) 11
.. Contact. There is a lower part 81 (partition plate 5) that divides the cleaning tank 1 into multiple stages in the direction of movement of the object 2 to be cleaned, that is, in the length direction. However, it is not limited to this, and the cleaning tank can be divided into multiple stages, thereby dividing the cleaning tank into smaller areas, each of which can store the cleaning solution. There is an upper partition plate 6 above the lower partition plate 5. 1 on the upper partition plate 6, 1 on the lower partition plate 5
Washed between? It is safe to ensure that the distance is set so that the Jl material 2 can pass through the 6 fI tank in a straight line.
即ち、被洗7.1+物υ、下部仕切板の上端部と、下部
仕もυ板の下端部とに接触することのないように設置r
)ることにより、その走行速度の上昇とともに彼61;
が物が損傷したり、切断したりするのを避ける。In other words, the 7.1 + object to be washed υ is installed so that the upper end of the lower partition plate and the lower end of the lower partition plate do not come into contact with the lower end of the υ plate.
), with the increase in running speed he 61;
Avoid damaging or cutting things.
この間隙は、被洗6I物の厚さによって決められるが、
1−Zoo關が好ましい。This gap is determined by the thickness of the object to be washed, but
1-Zoo is preferred.
次に、上部仕切;1176はその下端部が、下部仕切板
5の上端部よりも被洗浄物の入口側、即ち第1図におい
ては左側に位置しており、しかも1都仕切板5に対して
被洗浄物の出口側、即ち第1図において右側へ傾斜する
ことが■(要である。Next, the upper partition; (1) It is essential that the cleaning object be tilted toward the outlet side of the object to be cleaned, that is, to the right in FIG.
この理由は定かではないが、次のようにJfF:定され
る。即ち、下部仕切板5と土fXb仕切板6とが上記の
ように設置されると、洗61液はこの二つのイ1切板に
よって分りられた区域に次々に貯溜さJl、そこから溢
れて流れていくが、被洗浄物か通過することによって、
各々の区域において洗浄液は被洗浄物にせき止められた
状態肴1作り出し、被6.び合物は洗浄液中に没するよ
うになる。その結果、洗浄液は下部仕切板5と上部仕切
板6との間を通過する被洗浄物の下側からそれを貫通し
てその上側へ流れ、更にそこを貫通して下側へ′1)1
i、れ次の区域に流入する。その為、極めて洗浄効果が
υ、くなる。Although the reason for this is not clear, JfF is determined as follows. That is, when the lower partition plate 5 and the soil fXb partition plate 6 are installed as described above, the washing liquid 61 is stored one after another in the area divided by these two A1 cutting plates, and overflows from there. It flows, but as the object to be cleaned passes through,
In each area, the cleaning liquid is dammed up to the object to be cleaned, creating a state of 1, and 6. The debris becomes submerged in the cleaning solution. As a result, the cleaning liquid flows from the lower side of the object to be cleaned passing between the lower partition plate 5 and the upper partition plate 6, through it to the upper side thereof, and further through there to the lower side.
i, flows into the next area. Therefore, the cleaning effect is extremely low.
この時、上部仕切板6は、洗浄液の流れを被洗?′II
物の上側からそれを貫通して下側へ流れるようにする作
用をするものであり、上部仕切板6の下部仕切板5に対
する設置5位1^1を反対に右側へ移動したり、傾斜を
反対方向にしたりすると、洗浄効果が低下する。At this time, the upper partition plate 6 does not allow the flow of the cleaning solution to be washed. 'II
It works to make the flow flow from the top of the object to the bottom through it, and it can be used to move the upper partition plate 6 relative to the lower partition plate 5 to the right side or tilt it. If you turn it in the opposite direction, the cleaning effect will decrease.
上部仕切板6の下端部を下部仕切板5の上端部に対して
、どの程度被洗浄物の入口側に位置させるか、更にはど
の程度その出口側へ傾斜させるかは、被洗浄物の大きさ
、走行速度、洗浄液量などによって各々最適条件が異な
るが、通常は前者はl闘〜200間、好ましくは1問〜
100 +uがよく、後者の場合は1度〜80度、好ま
しくは1度〜45度がよい。How far the lower end of the upper partition plate 6 should be positioned toward the inlet side of the object to be cleaned with respect to the upper end of the lower partition plate 5, and furthermore how much it should be inclined towards the outlet side, depends on the size of the object to be cleaned. The optimal conditions differ depending on the speed, running speed, amount of cleaning fluid, etc., but the former usually requires between 1 and 200 questions, preferably 1 question or more.
100 + u is good, and in the latter case, 1 degree to 80 degrees, preferably 1 degree to 45 degrees.
なお、第1図には被洗浄物のガイドローシー7と洗浄装
置をささえる脚部8を示す。Note that FIG. 1 shows a guide rope sheath 7 for the object to be cleaned and a leg portion 8 that supports the cleaning device.
第1図についてさらに詳しく、第2図及び第3図を用い
て説明する。貢)2図は、本発明の向流洗浄装置に於け
る上部仕切板6と下部仕′切板5及びjl+l−浄槽1
の位置を示す。θIは、洗浄槽lの水平面からの傾ダト
1角ILにを示す。また、θ2は、上部仕1、ilJ
)IQ 6と、F’ t’+lL仕切A1・C5の側断
面における各々の中心糾のなり角度を示す。αは上部仕
切板6と下部イ1切板5によってJ[り成される被洗浄
物の通過しイ1jる間1j;iを示す。FIG. 1 will be explained in more detail using FIGS. 2 and 3. Figure 2 shows the upper partition plate 6, lower partition plate 5, and jl+l-septic tank 1 in the countercurrent cleaning device of the present invention.
Indicates the location of θI indicates the angle IL of the cleaning tank l from the horizontal plane. In addition, θ2 is upper part 1, ilJ
) IQ 6 and F't'+lL The angles of each center line in the side cross section of the partitions A1 and C5 are shown. .alpha. represents the period during which the object to be cleaned, which is formed by the upper partition plate 6 and the lower partition plate 5, passes through.
@1図及び第2図は、上部仕切板6と下部仕切板5を一
対になっている例を示しているが、必ずしもすべて一対
になっている必要はなく、例えti″、、下部仕切板5
に対して上部仕切板6は一つ置きであってもよい。@ Figure 1 and Figure 2 show an example in which the upper partition plate 6 and the lower partition plate 5 are paired, but they do not necessarily have to be paired. 5
On the other hand, there may be every other upper partition plate 6.
また、第3図は、上部仕切板の固定方法の一例を示す略
図であり、第3図(A)は側面図、(B)は正面図を示
す。Moreover, FIG. 3 is a schematic diagram showing an example of a method of fixing the upper partition plate, with FIG. 3(A) showing a side view and FIG. 3(B) showing a front view.
第3図において上部仕切板6と1体となった上部仕切板
固定棒9があり上部仕切板角度調整用ボルトlOは上部
仕切板固定棒9を絞めつけることにより、上部仕切板6
の角度θ2を規定するだめの調整用ボルトである。In FIG. 3, there is an upper partition plate fixing rod 9 that is integrated with the upper partition plate 6, and the upper partition plate angle adjustment bolt lO is tightened to tighten the upper partition plate fixing rod 9.
This is an adjustment bolt that defines the angle θ2.
上部仕切板6の高さは上部仕切板6、上部仕切板固定棒
9、上部仕切板角度調整用ポル) 10及び上部仕切板
ボルト固定用刊域品12と一体化して上部仕切板部を成
すところの上部仕切板高さく間隙α)調整用ポル) 1
1によって調整する。また洗浄槽lに取り付けられ、上
部仕切板部(6,9,10゜11、及び12 )を固定
する上部仕切板ボルト固定用付λ九品12の受は部品1
3を示す。The height of the upper partition plate 6 is determined by integrating the upper partition plate 6, the upper partition plate fixing rod 9, the upper partition plate angle adjustment pole 10, and the upper partition plate bolt fixing part 12 to form the upper partition plate part. However, the height of the upper partition plate is increased and the gap α) Adjustment pole) 1
Adjust by 1. In addition, the receiver of the upper partition plate bolt fixing λ9 product 12 that is attached to the cleaning tank l and fixes the upper partition plate parts (6, 9, 10° 11, and 12) is part 1.
3 is shown.
上部仕切板6は被洗浄物の大きさ、走行速度、洗浄液量
などによって各々その角度θ□及び間隙αを調整出来る
ようにすることにより、種々の被洗浄物に対して幅広く
本発明の向流洗浄装置を用いることが出来る。そのため
に第3図に示す様な装置を用いることが好ましいが、本
発明はこれに限定するものではない。The angle θ□ and the gap α of the upper partition plate 6 can be adjusted depending on the size of the object to be cleaned, the running speed, the amount of cleaning liquid, etc., so that the countercurrent flow of the present invention can be applied to a wide variety of objects to be cleaned. Cleaning equipment can be used. For this purpose, it is preferable to use a device as shown in FIG. 3, but the present invention is not limited thereto.
次に本発明の向流洗浄装置の作用効果についてH9明す
る。本発明の洗浄装置において、被洗浄物は、洗浄槽内
を@線的に走行し、従来のローラーによる絞り、あるい
はその蛇行がないため、被洗浄物の損傷がない。これは
被洗浄物が繊維束である場合には特に重要なものであり
、高速洗浄を行なうためにその走行速度を早くする時に
は大きな利点になる。また、それが洗浄中直線的な走行
形態をとるため、41・(糾束を構成する各単繊維が交
絡することがないために、乱れのない繊組束が得られる
。Next, the effects of the countercurrent cleaning device of the present invention will be explained. In the cleaning device of the present invention, the object to be cleaned travels in a @ line in the cleaning tank, and there is no squeezing by conventional rollers or meandering thereof, so there is no damage to the object. This is particularly important when the object to be cleaned is a fiber bundle, and is a great advantage when the traveling speed is increased for high-speed cleaning. In addition, since it takes a linear running form during washing, the single fibers constituting the strand are not entangled, so that an undisturbed fiber bundle can be obtained.
これは、繊維束を開繊して使用したりする場合には大き
な利点であり、また通常の紡績工程に通す場合でも同様
に利益となる。This is a great advantage when the fiber bundle is opened and used, and it is equally advantageous when the fiber bundle is passed through a normal spinning process.
次に、本発明の洗浄装置は高速で走行する被洗浄物の洗
浄に適している。従来、被洗浄物を高速で走行させて洗
浄する場合は、被洗浄物に随伴流を生じ、洗浄液が被洗
浄物の走行方向に逆流し、洗浄することはできなかった
。この随伴流をローラーで絞ることにより防止すること
は可能であるが、高速で走行する被洗浄物をローラーで
絞ることは、その損傷は極めて大きくなり、前記繊維束
の場合には致命的な欠陥となる。これに刻し、本発明の
装置は被洗浄物に直接接触することなく随伴流を防ぐこ
とができる。即ち、下部仕切板5と上部仕切板6との間
隙を調節することにより随伴流を防ぐとともに、上部仕
切板6を被洗浄物の出口側に傾斜させたことにより、随
伴流をより効果的に防止することができ、両者間の境界
層を破壊し、洗浄効果を上げることができる。Next, the cleaning device of the present invention is suitable for cleaning objects to be cleaned that travel at high speed. Conventionally, when cleaning an object by running it at high speed, an accompanying flow is generated in the object, and the cleaning liquid flows backward in the direction of movement of the object, making it impossible to wash the object. It is possible to prevent this accompanying flow by squeezing with a roller, but squeezing the object to be cleaned that is running at high speed with a roller will cause extremely large damage, and in the case of the fiber bundle described above, it will cause a fatal defect. becomes. In addition to this, the device of the present invention can prevent entrained flow without directly contacting the object to be cleaned. That is, by adjusting the gap between the lower partition plate 5 and the upper partition plate 6, the accompanying flow can be prevented, and by slanting the upper partition plate 6 toward the outlet side of the object to be cleaned, the accompanying flow can be suppressed more effectively. The boundary layer between the two can be destroyed and the cleaning effect can be improved.
また、下部仕切板5と上部仕切板6とが、洗浄液の流れ
を被洗浄物中をくり返し頁通して流れるようにするため
、それを傷めることなく洗浄することができる。Further, since the lower partition plate 5 and the upper partition plate 6 allow the flow of the cleaning liquid to repeatedly pass through the pages of the object to be cleaned, it is possible to wash the object without damaging it.
実施例1
アクリロニトリル95ffij4:%およびアクリル酸
メチル5重にチよりなるアクリル系ポリマーを70 M
@: %の硝酸で溶解し、15重量%の紡糸原液をイ(
Iた。この原液を0.12mφの円形断面紡孔1000
0個を有した紡糸用ノズルを用いて30重量%硝酸より
なる凝固浴中で洋式紡糸し、凝固浴捲取速度30m/―
で捲取り、トータルデニール25万デニールの凝固糸束
を荀り。Example 1 An acrylic polymer consisting of 4:% acrylonitrile and 5 parts methyl acrylate was prepared at 70 M
@: Dissolved in 15% nitric acid and added 15% by weight spinning stock solution to i(
I was. This stock solution was passed through 1000 spinning holes with a circular cross section of 0.12 mφ.
Western-style spinning was carried out in a coagulation bath consisting of 30% by weight nitric acid using a spinning nozzle with 0 nozzles, and the coagulation bath winding speed was 30 m/-.
It is rolled up and a coagulated thread bundle with a total denier of 250,000 denier is produced.
次に、5L5’f槽巾10tynの内部に存在する上部
仕切板と下部仕切板のなす角度を20度、その距離を2
0m5、下部仕切板間隔20cmの全長11m(有効浸
漬長10m)の10度に傾斜した浅夕千槽を用い、水洗
水[: 2 n1′/Hrで、凝固浴より捲取った前記
凝固糸束(30重鞘チの硝酸11<5外液を300%o
wf含んでいた。)を39 m/m の速度で該咲り
τ槽を通過させたところ、該洸寸槽出で得られた水洗系
中には0.1チoWf の硝酸濃度であった。得られた
トウの内外での硝酸渭豫度は0.1±0.02%owf
の範囲であった。Next, the angle formed by the upper partition plate and the lower partition plate existing inside the 5L5'f tank width 10 tin is 20 degrees, and the distance is 2
The coagulated yarn bundle was wound up from the coagulation bath using washing water [: 2 n1'/Hr] using a 10-degree inclined Asayu tank with a total length of 11 m (effective immersion length of 10 m) and a spacing of 20 cm between lower partition plates. (300% O
It included wf. ) was passed through the blooming tank at a speed of 39 m/m2, and the nitric acid concentration in the water washing system obtained from the blooming tank was 0.1 tWf. The concentration of nitric acid inside and outside the obtained tow was 0.1±0.02%owf
It was within the range of
また、回線状態は良好であり、7任意にサイプリングし
たトウの内外には糸痛みや糸切れがなかった。In addition, the line condition was good, and there was no yarn damage or yarn breakage inside or outside of the tows that were arbitrarily siped.
第1図〜21!3図は本発明の向流洗浄装置を示し、第
1図は製筒、の側面図である。第2図は上部仕切板6と
下部仕切板5及び洗浄槽lの位置を示す。
第3図は下部仕切板の同定方法の1例を示す略図であり
、(A)は側面図、(BJは正面図である。
1:洗 浄 槽 2:被洗浄物
2:洗浄液導入管 4:洗浄液排出管5、下部仕切
板 6:上部仕切板7:ガイドローラー 8
二洸が横脚部9:上部仕切板固定棒
l〇二上部仕切板角度調整川用ルト
11:上部仕切板高さく間隙α)調整用ボルト12:上
部仕切板ボルト固足用付属品
13:洗浄槽の12受は部品
θ□=洗浄槽の傾斜角度
θ2:上部仕切板と下部仕切板のなす角度α:上部仕切
板と下部仕切板の間隙
特許出願人 旭化成工業株式会社1 to 21 to 23 show the countercurrent cleaning device of the present invention, and FIG. 1 is a side view of the cylinder making device. FIG. 2 shows the positions of the upper partition plate 6, the lower partition plate 5, and the cleaning tank l. FIG. 3 is a schematic diagram showing an example of a method for identifying the lower partition plate, in which (A) is a side view and (BJ is a front view) 1: Cleaning tank 2: Object to be cleaned 2: Cleaning liquid introduction pipe 4 :Cleaning liquid discharge pipe 5, lower partition plate 6: upper partition plate 7: guide roller 8
Two horizontal legs 9: Upper partition plate fixing rod l〇 Two upper partition plate angle adjustment river route 11: Upper partition plate height adjustment bolt 12: Upper partition plate bolt fixation attachment 13: The 12 supports of the cleaning tank are parts θ□ = Inclination angle of the cleaning tank θ2: Angle between the upper and lower partition plates α: Gap between the upper and lower partition plates Patent applicant Asahi Kasei Corporation
Claims (1)
して該洗浄槽を多段に仕切る下部仕切板ど、該T部仕(
り板の上方に被わ1寵」1物が通過し得る間隙をもたぜ
てに部仕切板とを該槓洗浄内に設けた自流洗浄装置rr
にk・いて、上部仕切板の下端部を下部仕切板の上端γ
;15よりも被洗浄物の入口側に位置させ、かつ該上部
仕切板を該下部仕切板VC対して前記被′61−沖物の
出「i側に(lJi斜させることを特徴とする自流洗浄
装置〆Y。 2 土部仕9〕板が下部仕切板に対して1〜45度被う
1″、ゆ物の出口側VC傾斜している49訂精求の範囲
2151項記載の向流洗浄装置こt 3 上部仕切板と下部仕切板の間隙が1〜LOOmgで
ある411’ El’ it+]求の範囲24j71項
記載の向流洗浄装置。[Claims] 1. A lower partition plate having a #1 inclined cleaning tank and partitioning the cleaning tank into multiple stages in the direction of movement of the object to be cleaned, the T-part partition (
A self-flow cleaning device in which a partition plate and a partition plate are provided in the wash basin with a gap that allows one item to pass through.
, and move the lower end of the upper partition plate to the upper end γ of the lower partition plate.
15, and the upper partition plate is slanted toward the outer side of the object to be cleaned (lJi) with respect to the lower partition plate VC; Washing device〆Y. 2 Dobe partition 9〕Countercurrent according to item 2151, where the plate is 1" to 45 degrees over the lower partition plate and the VC is inclined on the outlet side of the product. Cleaning Apparatus 3 The countercurrent cleaning apparatus according to item 24j71, wherein the gap between the upper partition plate and the lower partition plate is 1 to LOOmg.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP16968582A JPS6032721B2 (en) | 1982-09-30 | 1982-09-30 | Countercurrent cleaning device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP16968582A JPS6032721B2 (en) | 1982-09-30 | 1982-09-30 | Countercurrent cleaning device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS5959907A true JPS5959907A (en) | 1984-04-05 |
| JPS6032721B2 JPS6032721B2 (en) | 1985-07-30 |
Family
ID=15890999
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP16968582A Expired JPS6032721B2 (en) | 1982-09-30 | 1982-09-30 | Countercurrent cleaning device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS6032721B2 (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102321928A (en) * | 2011-08-08 | 2012-01-18 | 中辉人造丝有限公司 | Energy-saving spraying washing machine |
| US20140124966A1 (en) * | 2011-07-12 | 2014-05-08 | Nitto Denko Corporation | Method and device for manufacturing treated film |
| JP2016199823A (en) * | 2015-04-10 | 2016-12-01 | 帝人株式会社 | Fiber bundle manufacturing method |
-
1982
- 1982-09-30 JP JP16968582A patent/JPS6032721B2/en not_active Expired
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US20140124966A1 (en) * | 2011-07-12 | 2014-05-08 | Nitto Denko Corporation | Method and device for manufacturing treated film |
| CN102321928A (en) * | 2011-08-08 | 2012-01-18 | 中辉人造丝有限公司 | Energy-saving spraying washing machine |
| JP2016199823A (en) * | 2015-04-10 | 2016-12-01 | 帝人株式会社 | Fiber bundle manufacturing method |
Also Published As
| Publication number | Publication date |
|---|---|
| JPS6032721B2 (en) | 1985-07-30 |
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