JP2006132058A - Adsorbing filter base paper and method for producing the same - Google Patents
Adsorbing filter base paper and method for producing the same Download PDFInfo
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- 239000004743 Polypropylene Substances 0.000 description 5
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- 229920000728 polyester Polymers 0.000 description 2
- 229920000642 polymer Polymers 0.000 description 2
- 238000003825 pressing Methods 0.000 description 2
- VGGSQFUCUMXWEO-UHFFFAOYSA-N Ethene Chemical compound C=C VGGSQFUCUMXWEO-UHFFFAOYSA-N 0.000 description 1
- 239000005977 Ethylene Substances 0.000 description 1
- ISWSIDIOOBJBQZ-UHFFFAOYSA-N Phenol Chemical compound OC1=CC=CC=C1 ISWSIDIOOBJBQZ-UHFFFAOYSA-N 0.000 description 1
- 229920003171 Poly (ethylene oxide) Polymers 0.000 description 1
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- 229920000297 Rayon Polymers 0.000 description 1
- 239000000654 additive Substances 0.000 description 1
- 230000000996 additive effect Effects 0.000 description 1
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- 235000012055 fruits and vegetables Nutrition 0.000 description 1
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- 239000012943 hotmelt Substances 0.000 description 1
- 239000012535 impurity Substances 0.000 description 1
- JEIPFZHSYJVQDO-UHFFFAOYSA-N iron(III) oxide Inorganic materials O=[Fe]O[Fe]=O JEIPFZHSYJVQDO-UHFFFAOYSA-N 0.000 description 1
- 238000005259 measurement Methods 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
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- NBIIXXVUZAFLBC-UHFFFAOYSA-N phosphoric acid Substances OP(O)(O)=O NBIIXXVUZAFLBC-UHFFFAOYSA-N 0.000 description 1
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Abstract
Description
本発明は、吸着フィルター原紙及びその製造方法に関する。さらに詳しくは、本発明は、通気性が良好であり、加熱による収縮の少ない吸着フィルター原紙、及び、該原紙を高い生産性で製造することができる吸着フィルター原紙の製造方法に関する。 The present invention relates to an adsorption filter base paper and a method for producing the same. More specifically, the present invention relates to an adsorption filter base paper having good air permeability and less shrinkage due to heating, and an adsorption filter base paper manufacturing method capable of producing the base paper with high productivity.
活性炭素繊維含有シートの製造方法としては、活性炭素繊維をパルプと混合して抄造する湿式抄紙法が最も安価で、抄紙性が良好であるが、吸着フィルターなどに使用すると、活性炭素繊維の脱落や、使用環境によるシート厚さの変化や、耐薬品性がないために損傷を受けるなどの問題が生じる。これらの問題を解決するために、活性炭素繊維を含有する吸着フィルター原紙の開発がさまざまに試みられている。
例えば、脱臭を目的としたフィルターろ材として利用できる活性炭素繊維を含有する低密度の通気性のよいシートとして、高融点合成樹脂を芯成分、低融点合成樹脂を鞘成分とする複合繊維と活性炭素繊維を含有する水性スラリーを湿式抄紙法により抄紙し、鞘成分の融点より高く芯成分の融点より低い温度で乾燥し、得られたシートを乾燥温度より高く、芯成分の融点より低い温度で熱処理して得られる活性炭素繊維含有量50〜97質量%、坪量50〜300g/m2、密度0.08g/cm3以下の脱臭用フィルターろ材が提案されている(特許文献1)。また、後加工における成型時や施工時などに折れや割れがなく、取扱い性に優れた高密度の活性炭繊維シートとして、活性炭繊維と、高融点ポリマーを芯成分、低融点ポリマーを鞘成分とする複合繊維とを主成分とするシートであって、活性炭繊維は複合繊維の鞘成分との融着により結合されており、活性炭繊維を10〜90質量%含有し、坪量が20〜300g/m2、密度が0.10g/cm3以上である活性炭繊維シートが提案されている(特許文献2)。しかし、高融点樹脂を芯成分、低融点樹脂を鞘成分とする複合繊維を主体とするシートは抄紙性が悪く、熱処理するまでの活性炭素繊維の脱落が多い。また、その後の熱処理においても、熱収縮が大きいために、最終製品としての坪量や厚さを安定して管理することが困難である。
青果物の鮮度に悪影響を及ぼすエチレンを除去するのに好適な繊維状活性炭含有複合シートとして、繊維状活性炭100質量部が、均一に混合された熱融着性繊維10〜100質量部と合成パルプ0.5〜15質量部との混合物と均一な分散状態で熱融着性繊維の融着により結合されており、気孔率が20〜95体積%である繊維状活性炭含有複合シートが提案されている(特許文献3)。しかし、この複合シートは、熱処理時に熱プレスしたままで室温まで冷却する必要があるために生産性が悪く、また、金型や熱板を用いた熱処理ではシートの厚さ方向での熱のかかり方が均一でないために、吸着能に悪影響を与えたり、フィルターとして使用した際に、経時的に厚さ変化によるトラブルを引き起こすおそれがある。
For example, as a low density breathable sheet containing activated carbon fibers that can be used as a filter medium for deodorization, a composite fiber and activated carbon having a high melting point synthetic resin as a core component and a low melting point synthetic resin as a sheath component An aqueous slurry containing fibers is made by a wet papermaking method, dried at a temperature higher than the melting point of the sheath component and lower than the melting point of the core component, and the obtained sheet is heat-treated at a temperature higher than the drying temperature and lower than the melting point of the core component. A filter medium for deodorization having an activated carbon fiber content of 50 to 97% by mass, a basis weight of 50 to 300 g / m 2 , and a density of 0.08 g / cm 3 or less has been proposed (Patent Document 1). In addition, as a high-density activated carbon fiber sheet that is not broken or cracked during molding or construction in post-processing, and has excellent handleability, activated carbon fibers and high-melting polymer are used as the core component and low-melting polymer as the sheath component. A sheet having a composite fiber as a main component, wherein the activated carbon fiber is bonded by fusion with a sheath component of the composite fiber, contains 10 to 90% by mass of the activated carbon fiber, and has a basis weight of 20 to 300 g / m. 2. An activated carbon fiber sheet having a density of 0.10 g / cm 3 or more has been proposed (Patent Document 2). However, a sheet mainly composed of a composite fiber having a high melting point resin as a core component and a low melting point resin as a sheath component has poor papermaking properties, and the activated carbon fibers often fall off before heat treatment. Also in the subsequent heat treatment, since the thermal shrinkage is large, it is difficult to stably manage the basis weight and thickness as the final product.
As a composite sheet containing fibrous activated carbon suitable for removing ethylene that adversely affects the freshness of fruits and vegetables, 10 to 100 parts by weight of heat-fusible fibers in which 100 parts by weight of fibrous activated carbon are uniformly mixed and 0 of synthetic pulp A fibrous activated carbon-containing composite sheet is proposed which is bonded by fusion of heat-fusible fibers in a uniformly dispersed state with a mixture of 0.5 to 15 parts by mass and has a porosity of 20 to 95% by volume. (Patent Document 3). However, this composite sheet has poor productivity because it needs to be cooled to room temperature while being hot-pressed during heat treatment, and heat treatment using a mold or a hot plate applies heat in the thickness direction of the sheet. Since it is not uniform, it may adversely affect the adsorptive capacity or cause trouble due to changes in thickness over time when used as a filter.
本発明は、抄紙時の活性炭素繊維の脱落が少なく、又通気性が良好であり、加熱による収縮の少ない吸着フィルター原紙、及び、該原紙を高い生産性で製造することができる吸着フィルター原紙の製造方法を提供することを目的としてなされたものである。 The present invention relates to an adsorption filter base paper that is less likely to fall off activated carbon fibers during paper making, has good air permeability, and has little shrinkage due to heating, and an adsorption filter base paper that can produce the base paper with high productivity. The object is to provide a manufacturing method.
本発明者は、上記の課題を解決すべく鋭意研究を重ねた結果、繊維成分として、活性炭素繊維30〜80質量%と多分岐状合成パルプ20〜70質量%を含有する吸着フィルター原紙は、通気性が良好であり、活性炭素繊維の高い吸着性能を保持し、また、このような吸着フィルター原紙は、活性炭素繊維と多分岐状パルプを含むパルプスラリーを湿式抄紙法により抄紙し、抄紙された長尺のシートに対して略垂直方向に熱風を通過させて繊維を融着させることにより、安定して製造し得ることを見いだし、この知見に基づいて本発明を完成するに至った。
すなわち、本発明は、
(1)繊維成分として、活性炭素繊維30〜80質量%と多分岐状合成パルプ20〜70質量%とを含有し、坪量が20〜200g/m2であり、ISO9237に準拠し、フラジール・パーミヤメーターを用い、設定圧力125Paで測定した通気度が50cm3/(cm2・s)以上であることを特徴とする吸着フィルター原紙、
(2)繊維成分として活性炭素繊維と多分岐状合成パルプを含むパルプスラリーを、湿式抄紙法により抄紙し、抄紙された長尺のシートに対して略垂直方向に熱風を通過させることにより、繊維を融着させることを特徴とする吸着フィルター原紙の製造方法、及び、
(3)抄紙された長尺のシートを2枚の網コンベアの間に挟み、該シートに対して略垂直方向に熱風を通過させる(2)記載の吸着フィルター原紙の製造方法、
を提供するものである。
As a result of intensive studies to solve the above problems, the present inventor has obtained, as a fiber component, an adsorption filter base paper containing 30 to 80% by mass of activated carbon fibers and 20 to 70% by mass of multi-branched synthetic pulp, Air permeability is good and high adsorption performance of activated carbon fibers is maintained.Such adsorption filter base paper is made from a pulp slurry containing activated carbon fibers and multi-branched pulp by a wet papermaking method. It has been found that stable production can be achieved by passing the hot air in a substantially vertical direction to the long sheet and fusing the fibers, and the present invention has been completed based on this finding.
That is, the present invention
(1) As a fiber component, 30-80 mass% of activated carbon fibers and 20-70 mass% of multi-branched synthetic pulp are contained, the basis weight is 20-200 g / m 2 , and conforms to ISO 9237. Adsorption filter base paper characterized by having an air permeability measured at a set pressure of 125 Pa using a permeameter of 50 cm 3 / (cm 2 · s) or more,
(2) Pulp slurry containing activated carbon fiber and multi-branched synthetic pulp as a fiber component is made by wet papermaking, and hot fibers are passed in a direction substantially perpendicular to the long sheet thus produced. A method for producing an adsorption filter base paper characterized by fusing
(3) A method for producing an adsorption filter base paper according to (2), wherein a paper-made long sheet is sandwiched between two net conveyors and hot air is passed in a direction substantially perpendicular to the sheet.
Is to provide.
本発明の吸着フィルター原紙は、抄紙時の活性炭素繊維の脱落が少なく、又通気性が良好であり、活性炭素繊維の優れた吸着性能を保持しているので、工業用吸着フィルターの原紙として好適に用いることができる。本発明の製造方法によれば、このような吸着フィルター原紙を高い生産性で製造することができる。 The adsorption filter base paper of the present invention is suitable as a base paper for industrial adsorption filters because it has less loss of activated carbon fibers during paper making, has good air permeability, and retains excellent adsorption performance of activated carbon fibers. Can be used. According to the production method of the present invention, such an adsorption filter base paper can be produced with high productivity.
本発明の吸着フィルター原紙は、繊維成分として、活性炭素繊維30〜80質量%と多分岐状合成パルプ20〜70質量%とを含有し、坪量が20〜200g/m2であり、ISO9237に準拠し、フラジール・パーミヤメーターを用い、設定圧力125Paで測定した通気度が50cm3/(cm2・s)以上である。
本発明に用いる活性炭素繊維に特に制限はなく、例えば、ポリアクリロニトリル系、ピッチ系、フェノール系、レーヨン系などの繊維を炭化し、賦活した活性炭素繊維を挙げることができる。活性炭素繊維は、粒状又は粉末状の活性炭に比べて10〜100倍の吸着速度を有するので、吸着フィルターに加工して用いると、気体のフラックスを高めても気体に含有される不純物を高い効率で吸着除去することができる。
本発明に用いる活性炭素繊維は、比表面積が700m2/g以上であることが好ましく、1,000m2/g以上であることがより好ましい。比表面積が700m2/g未満であると、吸着フィルター原紙の吸着性能が不十分となるおそれがある。活性炭素繊維の繊維長は、1〜20mmであることが好ましく、2〜10mmであることがより好ましい。繊維長が1mm未満であると、吸着フィルターまでの各製造工程又は吸着フィルターの使用時において、活性炭素繊維が脱落しやすくなるおそれがある。繊維長が20mmを超えると、抄紙工程においてスラリーへの均一な分散が困難となるおそれがある。活性炭素繊維の繊維径は、1〜50μmであることが好ましく、5〜25μmであることがより好ましい。繊維径が1μm未満であると、吸着フィルター原紙が緻密になって通気性が低下するおそれがある。繊維径が50μmを超えると、抄紙工程においてスラリーへの均一な分散が困難になるおそれがある。
本発明の吸着フィルター原紙は、繊維成分として、活性炭素繊維30〜80質量%、より好ましくは50〜70質量%を含有する。活性炭素繊維の含有量が30質量%未満であると、吸着フィルター原紙としての吸着性能が不足するおそれがある。活性炭素繊維の含有量が80質量%を超えると、吸着フィルター原紙としての厚さが厚くなって圧力損失が大きくなるとともに、活性炭素繊維の脱落が起こりやすくなるおそれがある。
The adsorption filter base paper of the present invention contains, as fiber components, 30 to 80% by mass of activated carbon fibers and 20 to 70% by mass of multi-branched synthetic pulp, and has a basis weight of 20 to 200 g / m 2. The air permeability measured at a set pressure of 125 Pa using a fragile permeometer is 50 cm 3 / (cm 2 · s) or more.
There is no restriction | limiting in particular in the activated carbon fiber used for this invention, For example, the activated carbon fiber which carbonized and activated the fibers, such as a polyacrylonitrile type | system | group, a pitch type | system | group, a phenol type, and a rayon type, can be mentioned. Activated carbon fibers have an adsorption rate 10 to 100 times that of granular or powdered activated carbon, so when processed into an adsorption filter, the efficiency of impurities contained in the gas is high even if the gas flux is increased. Can be removed by adsorption.
The activated carbon fiber used in the present invention preferably has a specific surface area of 700 m 2 / g or more, and more preferably 1,000 m 2 / g or more. If the specific surface area is less than 700 m 2 / g, the adsorption performance of the adsorption filter base paper may be insufficient. The fiber length of the activated carbon fiber is preferably 1 to 20 mm, and more preferably 2 to 10 mm. When the fiber length is less than 1 mm, activated carbon fibers may be easily dropped during each manufacturing process up to the adsorption filter or when the adsorption filter is used. If the fiber length exceeds 20 mm, uniform dispersion in the slurry may be difficult in the papermaking process. The fiber diameter of the activated carbon fiber is preferably 1 to 50 μm, and more preferably 5 to 25 μm. If the fiber diameter is less than 1 μm, the adsorption filter base paper may become dense and air permeability may be reduced. If the fiber diameter exceeds 50 μm, uniform dispersion into the slurry may be difficult in the papermaking process.
The adsorption filter base paper of the present invention contains 30 to 80% by mass, more preferably 50 to 70% by mass of activated carbon fibers as a fiber component. If the content of the activated carbon fiber is less than 30% by mass, the adsorption performance as an adsorption filter base paper may be insufficient. If the activated carbon fiber content exceeds 80% by mass, the thickness of the adsorption filter base paper increases, and the pressure loss increases, and the activated carbon fibers may easily fall off.
本発明に用いる多分岐状合成パルプは、幹繊維と幹繊維から枝分かれした分岐繊維とからなる合成パルプである。多分岐状合成パルプと活性炭素繊維を混合して湿式抄紙法により抄紙することにより、多分岐状合成パルプの分岐繊維間の絡み合いが起こり、活性炭素繊維が保持され、抄紙時の活性炭素繊維の脱落やプレス工程での毛布への取られを防止することができ、十分な強度を有する湿紙シートが形成されるので抄紙が良好となる。
本発明に用いる多分岐状合成パルプの材質に特に制限はなく、例えば、ポリエチレン、変性ポリエチレン、ポリプロピレン、アクリル、ポリアミドなどを挙げることができる。これらの中で、ポリエチレン系合成パルプ及びポリプロピレン系合成パルプは、耐薬品性が良好なので、好適に用いることができる。
本発明に用いる多分岐状合成パルプのカナダ標準ろ水度は、250〜800mlであることが好ましく、300〜700mlであることがより好ましい。カナダ標準ろ水度が250ml未満であると、繊維の水切れが悪くなってろ水抵抗が増加するとともに、得られる吸着フィルター原紙の通気性が低下するおそれがある。カナダ標準ろ水度が800mlを超えると、吸着フィルター原紙の強度が低下するおそれがある。
本発明に用いる多分岐状合成パルプの平均繊維長は、0.5〜5mmであることが好ましく、0.7〜3mmであることがより好ましい。平均繊維長が0.5mm未満であると、活性炭素繊維が脱落しやすくなるおそれがある。平均繊維長が5mmを超えると、抄紙工程においてスラリーへの均一な分散が困難になるおそれがある。
本発明の吸着フィルター原紙は、繊維成分として、多分岐状合成パルプを20〜70質量%、より好ましくは25〜50質量%含有する。多分岐状合成パルプの含有量が20質量%未満であると、抄紙性が低下し、加熱により繊維を融着するときに、活性炭素繊維が脱落し、熱収縮が大きくなるおそれがある。多分岐状合成パルプの含有量が70質量%を超えると、紙の緊度が高くなり、吸着フィルター原紙の通気性が低下するおそれがある。
The multi-branched synthetic pulp used in the present invention is a synthetic pulp composed of trunk fibers and branched fibers branched from the trunk fibers. By mixing the multi-branched synthetic pulp and activated carbon fiber and making paper by the wet papermaking method, the entanglement between the branched fibers of the multi-branched synthetic pulp occurs, the activated carbon fiber is retained, and the activated carbon fiber during paper making It is possible to prevent falling off and taking off the blanket in the pressing process, and a wet paper sheet having sufficient strength is formed, so that papermaking is improved.
There is no restriction | limiting in particular in the material of the multi-branch synthetic pulp used for this invention, For example, polyethylene, modified polyethylene, a polypropylene, an acryl, polyamide etc. can be mentioned. Among these, polyethylene-based synthetic pulp and polypropylene-based synthetic pulp have good chemical resistance and can be suitably used.
The Canadian standard freeness of the multi-branched synthetic pulp used in the present invention is preferably 250 to 800 ml, and more preferably 300 to 700 ml. When the Canadian standard freeness is less than 250 ml, the water drainage of the fibers is worsened, the drainage resistance is increased, and the air permeability of the obtained adsorption filter base paper may be lowered. If the Canadian standard freeness exceeds 800 ml, the strength of the adsorption filter base paper may be reduced.
The average fiber length of the multi-branched synthetic pulp used in the present invention is preferably 0.5 to 5 mm, and more preferably 0.7 to 3 mm. If the average fiber length is less than 0.5 mm, the activated carbon fibers may easily fall off. If the average fiber length exceeds 5 mm, uniform dispersion into the slurry may be difficult in the papermaking process.
The adsorption filter base paper of the present invention contains 20 to 70% by mass, more preferably 25 to 50% by mass of a multi-branched synthetic pulp as a fiber component. When the content of the multi-branched synthetic pulp is less than 20% by mass, the paper-making property is lowered, and when the fibers are fused by heating, the activated carbon fibers may fall off and heat shrinkage may increase. When the content of the multi-branched synthetic pulp exceeds 70% by mass, the tightness of the paper becomes high, and the air permeability of the adsorption filter base paper may be reduced.
本発明の吸着フィルター原紙は、繊維成分として更に熱接着性複合繊維0〜20質量%を含有することが好ましい。熱接着性複合繊維の含有量は、5〜15質量%であることがより好ましい。熱接着性複合繊維を含有させることにより、吸着フィルター原紙の強度を高めることができる。熱接着性複合繊維の含有量が3質量%未満であると、強度向上効果が十分に発現しないおそれがある。熱接着性複合繊維の含有量が20質量%を超えると、加熱により繊維を融着させるときの熱収縮が大きくなるおそれがある。熱接着性複合繊維としては、例えば、芯成分が融点160〜260℃からなる高融点合成樹脂であり、鞘成分が融点80〜160℃であり、芯成分より融点が30℃以上低い低融点合成樹脂である芯鞘複合繊維、芯成分が断面の中心より偏っている並列型複合繊維、高融点合成樹脂と低融点合成樹脂が断面の左右で分かれている複合繊維、断面を複数個に分割して高融点合成樹脂と低融点合成樹脂が交互に存在する複合繊維などを挙げることができる。芯鞘複合繊維としては、例えば、芯成分にポリプロピレン、鞘成分にポリエチレンや変性ポリエチレンなどを用いたポリオレフィン系複合繊維、芯成分にポリエチレンテレフタレート、鞘成分に変性ポリエステルを用いたポリエステル系複合繊維などを挙げることができる。これらの中で、ポリオレフィン系複合繊維は、耐薬品性が良好なので、好適に用いることができる。
本発明に用いる熱接着性複合繊維の平均繊維長は3〜20mmであることが好ましい。3mm未満だと強度向上効果が充分に発現しないおそれがある。20mmを超えるとスラリーへの均一な分散が困難となるおそれがある。太さは1.0〜10.0dtexであることが好ましい。1.0dtex未満だと吸着フィルター原紙の通気性が低下するおそれがある。10.0dtexを超えるとスラリーへの均一な分散が困難となるおそれがある。
尚、本発明の吸着フィルター原紙には、スラリーを均一に分散させる為にポリアクリルアミドやポリエチレンオキサイドなどの粘剤や、非イオン界面活性剤や陰イオン界面活性剤などの繊維分散剤をスラリーの固形分に対して0〜1.0質量%添加することができる。
本発明の吸着フィルター原紙は、坪量が20〜200g/m2、より好ましくは50〜150g/m2である。坪量が20g/m2未満であると、吸着フィルター原紙として単位面積あたりの吸着容量が小さくなり、また、吸着フィルター原紙としての剛性が不足するおそれがある。坪量が200g/m2を超えると、吸着フィルター原紙として圧力損失が大きくなるおそれがある。また、熱処理による熱収縮率は0〜20%、好しくは0〜12%が望ましい。20%以上であると製造時の坪量や厚さの管理が難しいだけでなく、フィルターに加工する際、加熱による変形が大きくなり、フィルターとしての形状を損なったり、圧力損失が大きくなるおそれがある。本発明の吸着フィルター原紙の厚さは求められる製品により異なるが通常200〜2,000μm程度である。
本発明の吸着フィルター原紙は、ISO9237に準拠し、フラジール・パーミヤメーターを用い、設定圧力125Paで測定した通気度が50cm3/(cm2・s)以上であり、より好ましくは70cm3/(cm2・s)以上である。該通気度が50cm3/(cm2・s)未満であると、吸着フィルター原紙としての圧力損失が大きくなるおそれがある。
The adsorption filter base paper of the present invention preferably further contains 0 to 20% by mass of a heat-adhesive conjugate fiber as a fiber component. The content of the heat-adhesive conjugate fiber is more preferably 5 to 15% by mass. By containing the thermoadhesive conjugate fiber, the strength of the adsorption filter base paper can be increased. If the content of the heat-adhesive conjugate fiber is less than 3% by mass, the strength improvement effect may not be sufficiently exhibited. When the content of the heat-adhesive conjugate fiber exceeds 20% by mass, heat shrinkage when the fiber is fused by heating may increase. As the heat-adhesive conjugate fiber, for example, a high melting point synthetic resin having a core component having a melting point of 160 to 260 ° C., a sheath component having a melting point of 80 to 160 ° C., and a low melting point synthetic resin having a melting point of 30 ° C. or more lower than the core component. A core-sheath composite fiber that is a resin, a parallel-type composite fiber in which the core component is offset from the center of the cross section, a composite fiber in which the high-melting synthetic resin and the low-melting synthetic resin are divided on the left and right of the cross section, and the cross section is divided into a plurality And a composite fiber in which a high melting point synthetic resin and a low melting point synthetic resin are alternately present. Examples of the core-sheath composite fiber include polypropylene-based composite fibers using polypropylene as the core component, polyethylene or modified polyethylene as the sheath component, polyethylene terephthalate as the core component, and polyester-based composite fibers using modified polyester as the sheath component. Can be mentioned. Among these, polyolefin-based composite fibers can be suitably used because they have good chemical resistance.
The average fiber length of the heat-adhesive conjugate fiber used in the present invention is preferably 3 to 20 mm. If it is less than 3 mm, the strength improvement effect may not be sufficiently exhibited. If it exceeds 20 mm, uniform dispersion in the slurry may be difficult. The thickness is preferably 1.0 to 10.0 dtex. If it is less than 1.0 dtex, the air permeability of the adsorption filter base paper may be lowered. If it exceeds 10.0 dtex, uniform dispersion into the slurry may be difficult.
In addition, in the adsorption filter base paper of the present invention, in order to uniformly disperse the slurry, a sticking agent such as polyacrylamide or polyethylene oxide, or a fiber dispersing agent such as a nonionic surfactant or an anionic surfactant is added to the slurry. 0 to 1.0 mass% can be added to the minute.
The adsorption filter base paper of the present invention has a basis weight of 20 to 200 g / m 2 , more preferably 50 to 150 g / m 2 . When the basis weight is less than 20 g / m 2 , the adsorption capacity per unit area as the adsorption filter base paper becomes small, and the rigidity as the adsorption filter base paper may be insufficient. When the basis weight exceeds 200 g / m 2 , the pressure loss as the adsorption filter base paper may increase. Further, the thermal shrinkage rate by heat treatment is 0 to 20%, preferably 0 to 12%. If it is 20% or more, not only is it difficult to manage the basis weight and thickness at the time of production, but also when the filter is processed, deformation due to heating increases, and the shape of the filter may be damaged, and pressure loss may increase. is there. The thickness of the adsorption filter base paper of the present invention is usually about 200 to 2,000 μm although it varies depending on the required product.
The adsorption filter base paper of the present invention has an air permeability of 50 cm 3 / (cm 2 · s) or more, more preferably 70 cm 3 / (s), measured at a set pressure of 125 Pa using a fragile permeameter according to ISO 9237. cm 2 · s) or more. If the air permeability is less than 50 cm 3 / (cm 2 · s), the pressure loss as the adsorption filter base paper may increase.
本発明の吸着フィルター原紙の製造方法においては、繊維成分として活性炭素繊維と多分岐状合成パルプを含むパルプスラリーを、湿式抄紙法により抄紙し、抄紙された長尺のシートに対して略垂直方向に熱風を通過させることにより繊維を融着させる。
本発明の製造方法においては、抄紙された長尺のシートを2枚の網コンベアの間に挟み、該シートに対して略垂直方向に熱風を通過させることが好ましい。
本発明の製造方法において、湿式抄紙法に特に制限はなく、例えば、繊維成分として活性炭素繊維と多分岐状合成パルプを水に均一に分散させたパルプスラリーを、単層傾斜抄紙機、長網抄紙機、ツインワイヤー抄紙機、円網抄紙機などを単独又は複合(抄合わせて)して抄紙することができる。湿紙シートの水分率は50〜90質量%、より好ましくは70〜85質量%が望ましい。水分率が50質量%以下であると湿紙シートの強度が十分に発現せず、断紙や毛布への取られが多くなる。水分率が90質量%以上だと乾燥工程に負荷がかかり生産効率が悪くなる。湿紙シートの引張り強度は抄紙性の点から50g/25mm以上が望ましい。50g/25mm以下であると抄紙性が悪く、断紙するおそれがある。パルプスラリーには、必要に応じて、熱接着性複合繊維、繊維分散剤、粘剤などを添加することができる。また、必要に応じて活性炭素繊維の吸着性能を向上させる為に、リン酸化合物やアミン系化合物などの添着薬品などをサイズプレスで塗布することができる。
本発明方法において、抄紙されたシートの乾燥方法は、例えば、シリンダードライヤー、多筒式ドライヤー、ヤンキードライヤー、エアードライヤーなどを用いて乾燥温度90〜150℃、乾燥時間30秒〜5分で乾燥することができる。
In the method for producing an adsorption filter base paper of the present invention, a pulp slurry containing activated carbon fibers and multi-branched synthetic pulp as fiber components is made by a wet paper making method, and is substantially perpendicular to the long sheet produced. The fibers are fused by passing hot air through them.
In the production method of the present invention, it is preferable that a long paper sheet is sandwiched between two mesh conveyors and hot air is passed in a direction substantially perpendicular to the sheet.
In the production method of the present invention, the wet papermaking method is not particularly limited. For example, a pulp slurry in which activated carbon fibers and a multi-branched synthetic pulp are uniformly dispersed in water as a fiber component, a single-layer inclined paper machine, a long mesh A paper machine, a twin wire paper machine, a circular net paper machine, or the like can be used alone or in combination (combined). The moisture content of the wet paper sheet is 50 to 90% by mass, more preferably 70 to 85% by mass. When the moisture content is 50% by mass or less, the strength of the wet paper sheet is not sufficiently exhibited, and the paper sheet is taken up by a paper break or a blanket. When the moisture content is 90% by mass or more, a load is applied to the drying process, resulting in poor production efficiency. The tensile strength of the wet paper sheet is preferably 50 g / 25 mm or more from the viewpoint of papermaking properties. If it is 50 g / 25 mm or less, the paper-making property is poor and the paper may be cut off. A heat-adhesive conjugate fiber, a fiber dispersant, a sticking agent, and the like can be added to the pulp slurry as necessary. Moreover, in order to improve the adsorption | suction performance of activated carbon fiber as needed, additive chemicals, such as a phosphoric acid compound and an amine compound, can be applied with a size press.
In the method of the present invention, the paper sheet is dried using, for example, a cylinder dryer, a multi-cylinder dryer, a Yankee dryer, an air dryer or the like at a drying temperature of 90 to 150 ° C. and a drying time of 30 seconds to 5 minutes. be able to.
図1は、本発明方法の実施の一態様の説明図である。本態様においては、巻出ロール1から巻き出された抄紙され乾燥されたシート2が、エンドレスの網コンベア3に載置されるとともにエンドレスの網コンベア4に挟まれて、矢印の方向に移送される。本図においては、理解を容易にするために、シート2と網コンベア3及び4を離して表示しているが、実際にはシート2は網コンベア3及び4に密着して挟まれる。本態様においては、2台の熱風処理機5、6及び送風機7が設けられ、熱風処理機5によりシート2に対して垂直方向に上方から下方に熱風を通過させ、熱風処理機6によりシート2に対して垂直方向に下方から上方に熱風を通過させる。熱風はシート2の中を貫通するので、シートの組織全体が均一な温度になり、熱板プレスのようにプレス板に接触している部分と接触していない部分に温度差が生じることや、プレスによる熱融着状態に不均一性が生じることがない。また、シートの組織に大きい圧力がかからないので、組織が押しつぶされることがなく、良好な通気性が保たれ、溶融樹脂により覆われる活性炭素繊維の表面が少ない。熱風の通過により繊維が融着して吸着フィルター原紙が形成されたのち、送風機7により原紙に対して垂直方向に冷風を通過させて冷却し、吸着フィルター原紙8を巻取ロ−ル9に巻き取る。通常熱風の温度は130〜160℃、風速0.5〜5m/s、処理時間は30秒〜5分である。図1に示す態様の製造方法においては、抄紙され乾燥されたシートをいったん巻き取るので、抄紙工程と繊維の融着工程の速度が異なる場合にも柔軟に対応することができる。また、熱風をシートの上方から下方へと、下方から上方へと通過させることができるので、より均一にシートを加熱することができる。さらに、シートを2枚の網コンベアで挟むので、シートの熱収縮を防止することができる。尚、図1では熱風処理機2台を用いて説明したが、1台であっても3台以上でも良い。又、抄紙後いったん巻き取らず、抄紙から繊維の融着までを連続して行うこともできる。
本発明の製造方法において、網コンベアの材質に特に制限はないが、錆の発生のないステンレス鋼製の網コンベアを好適に用いることができる。抄紙されたシートを2枚の網コンベアで挟んで移送し、熱風を通過させることにより、抄紙されたシートの熱収縮を抑え、形状の変化や断紙を防ぎ、吸着フィルター原紙の厚さを制御することができる。
FIG. 1 is an explanatory diagram of one embodiment of the method of the present invention. In this embodiment, the paper-made and dried sheet 2 unwound from the unwinding roll 1 is placed on the endless net conveyor 3 and sandwiched between the endless net conveyor 4 and transferred in the direction of the arrow. The In this figure, for ease of understanding, the sheet 2 and the mesh conveyors 3 and 4 are shown separated from each other, but in actuality, the sheet 2 is in close contact with the mesh conveyors 3 and 4. In this embodiment, two hot air processors 5 and 6 and a blower 7 are provided. The hot air processor 5 allows hot air to pass vertically from the upper side to the lower side of the sheet 2, and the hot air processor 6 allows the sheet 2 to pass through. On the other hand, hot air is passed vertically from below to above. Since the hot air penetrates through the sheet 2, the entire structure of the sheet has a uniform temperature, and a temperature difference occurs between a portion that is in contact with the press plate and a portion that is not in contact with the hot plate press, There is no non-uniformity in the heat-sealed state by pressing. In addition, since a large pressure is not applied to the sheet structure, the structure is not crushed, good air permeability is maintained, and the surface of the activated carbon fiber covered with the molten resin is small. After the fibers are fused and the adsorption filter base paper is formed by passing hot air, the blower 7 cools the base paper by passing cool air in a direction perpendicular to the base paper, and winds the adsorption filter base paper 8 around the take-up roll 9. take. Usually, the temperature of the hot air is 130 to 160 ° C., the wind speed is 0.5 to 5 m / s, and the treatment time is 30 seconds to 5 minutes. In the manufacturing method of the embodiment shown in FIG. 1, since the paper-made and dried sheet is wound up once, it is possible to flexibly cope with the case where the speed of the paper-making process and the fiber fusion process are different. Further, since the hot air can be passed from the upper side to the lower side of the sheet and from the lower side to the upper side, the sheet can be heated more uniformly. Furthermore, since the sheet is sandwiched between two net conveyors, the sheet can be prevented from thermal contraction. In addition, although demonstrated using 2 hot-air processing machines in FIG. 1, 1 or 3 or more may be sufficient. In addition, it is possible to continuously perform the process from papermaking to fiber fusion without first winding after papermaking.
In the production method of the present invention, the material of the mesh conveyor is not particularly limited, but a stainless steel mesh conveyor that does not generate rust can be suitably used. The paper sheet is transported between two mesh conveyors and passed through hot air to prevent thermal shrinkage of the paper sheet, prevent changes in shape and breakage, and control the thickness of the suction filter base paper. can do.
以下に、実施例を挙げて本発明をさらに詳細に説明するが、本発明はこれらの実施例によりなんら限定されるものではない。
なお、実施例及び比較例において、評価は下記の方法により行った。
(1)毛布からの剥離性・取られ
スラリーを角形シートマシンで抄紙し、得られた湿紙シートの両面を毛布で挟み、980kPaで10秒間プレスしたのち毛布を剥がし、剥離性と原料の取られを目視により判定した。
○:剥離性が良好で湿紙シートが得られ、毛布への原料取られが殆ど見られない。
△:剥離性が良好で湿紙シートが得られるが、毛布への原料取られが若干見られる。
×:剥離性が悪く湿紙シートが綺麗に得られず、毛布への原料取られが見られる。
(2)湿紙シート引張強度及び水分率
スラリーを角形シートマシンで抄紙し、得られた湿紙シートの両面を毛布で挟み、980kPaで10秒間プレスしたのち毛布を剥がし、得られた湿紙シートを25mm巾に裁断し、オートグラフ[(株)島津製作所、登録商標、AGS−100A]を用いて、引張速度300mm/minで測定した。
同時に、湿紙シートを105℃で1時間乾燥し、質量減から水分率を算出した。
(3)熱収縮率
抄紙、乾燥して得られたシートから10cm×10cmの試験片を切り出し、150℃の熱風乾燥機中に1分間放置して熱処理したのち、熱処理後の面積を測定し、下式により熱収縮率を算出した。
熱収縮率(%)={(熱処理前面積−熱処理後面積)/熱処理前面積}×100
(4)厚さ
JIS P 8118にしたがって測定した。
(5)坪量
JIS P 8124にしたがって測定した。
(6)通気度
ISO9237に準拠し、フラジール・パーミヤメーター[(株)東洋精機製作所、型式P]を用い、設定圧力125Pa、温度20℃、相対湿度50%で測定した。
Hereinafter, the present invention will be described in more detail with reference to examples, but the present invention is not limited to these examples.
In Examples and Comparative Examples, evaluation was performed by the following method.
(1) Peelability from blanket ・ Take the slurry with a square sheet machine, sandwich both sides of the obtained wet paper sheet with blanket, press at 980 kPa for 10 seconds, peel off the blanket, peel off and remove raw material This was visually determined.
◯: Good peelability, a wet paper sheet is obtained, and almost no raw material is taken on the blanket.
Δ: Peelability is good and a wet paper sheet can be obtained, but some of the raw material is removed from the blanket.
X: The releasability is poor and the wet paper sheet cannot be obtained neatly, and the raw material is taken on the blanket.
(2) Tensile strength and moisture content of wet paper sheet Slurry is made with a square sheet machine, both sides of the obtained wet paper sheet are sandwiched between blankets, pressed at 980 kPa for 10 seconds, the blanket is peeled off, and the obtained wet paper sheet Was cut into a width of 25 mm and measured using an autograph [Shimadzu Corporation, registered trademark, AGS-100A] at a tensile speed of 300 mm / min.
At the same time, the wet paper sheet was dried at 105 ° C. for 1 hour, and the moisture content was calculated from the weight loss.
(3) Heat shrinkage rate After cutting out a 10 cm × 10 cm test piece from a sheet obtained by papermaking and drying, and leaving it heat-treated for 1 minute in a 150 ° C. hot air dryer, the area after the heat treatment was measured, The thermal contraction rate was calculated by the following formula.
Thermal contraction rate (%) = {(area before heat treatment−area after heat treatment) / area before heat treatment} × 100
(4) Thickness Measured according to JIS P 8118.
(5) Basis weight Measured according to JIS P 8124.
(6) Air Permeability Based on ISO 9237, measurement was performed at a set pressure of 125 Pa, a temperature of 20 ° C., and a relative humidity of 50% using a Fragile permometer [Toyo Seiki Seisakusho, Model P].
実施例1
ポリエチレン系多分岐状合成パルプ[三井化学(株)、SWP E400、平均繊維長0.9mm、ろ水度580mlCSF]2.50gを水1,250mlに添加し、5分間撹拌して分散させ、次いで、活性炭素繊維[日本カイノール(株)、Kynol ACF1603−15、繊維長3mm、繊維径9μm、比表面積1,500m2/g]3.75gと、粘剤として事前に0.1質量%濃度に水に溶解させたポリアクリルアミド[住友精化(株)、PAM F−30]水溶液12.5gを添加し、0.5質量%スラリーを調製した。
このスラリーを、角型シートマシン[熊谷理機工業(株)、金網80メッシュ、25cm×25cm]を用いて抄紙し、両面を毛布で挟み、圧力980kPaで10秒間プレスして湿紙シートを得た。剥離性は良好で湿紙シートが得られ、毛布への原料取られは殆ど見られなかった。湿紙シートの水分率は80.2質量%であり、湿紙シートの引張強度は100g/25mmであった。
得られた湿紙シートを130℃に設定したシリンダードライヤーを用いて1分間乾燥し、乾燥シートを得た。次いで、乾燥シートを2枚の金網で挟み、150℃の熱風を下方から上方に風速1.5m/sで垂直に1分間通過させて繊維を融着させ、吸着フィルター原紙を得た。
得られた吸着フィルター原紙の性状、性能を第1表に示す。
実施例2
実施例1の多分岐状合成パルプ2.50gの代わりに、実施例1の多分岐状合成パルプ1.875gと、芯成分にポリプロピレン、鞘成分にポリエチレンを使用した熱接着性複合繊維[チッソ(株)、ESC872、繊維長5mm、太さ2.2dtex]0.625gとを水1,250mlに添加した以外は、実施例1と同じ操作を行った。
剥離性は良好で湿紙シートが得られ、毛布への原料取られは殆ど見られなかった。湿紙シート及び得られた吸着フィルター原紙の性状、性能を第1表に示す。
比較例1
実施例1と同様にして、乾燥シートを作製した。得られた乾燥シートを、厚さ0.6mmのスペーサーを配し、150℃に設定した熱板プレスを用いて、圧力490kPaで1分間プレスして吸着フィルター原紙を得た。
得られた吸着フィルター原紙の性状、性能を第1表に示す。
比較例2
多分岐状合成パルプ2.50gの代わりに、熱接着性複合繊維[チッソ(株)、ESC872、繊維長5mm、太さ2.2dtex]2.50gを水1,250mlに添加した以外は、実施例1と同じ操作を行った。
毛布からの剥離性が悪く湿紙シートが綺麗に得られず、毛布への原料取られが見られた。湿紙シート及び得られた吸着フィルター原紙の性状、性能を第1表に示す。
実施例1〜2及び比較例1〜2の結果を、第1表に示す。
Example 1
2.50 g of polyethylene-based multi-branched synthetic pulp [Mitsui Chemicals, SWP E400, average fiber length of 0.9 mm, freeness of 580 ml CSF] is added to 1,250 ml of water and dispersed by stirring for 5 minutes, , Activated carbon fiber [Nippon Kainol Co., Ltd., Kynol ACF1603-15, fiber length 3 mm, fiber diameter 9 μm, specific surface area 1,500 m 2 / g] 3.75 g and 0.1% by mass as a sticky agent in advance 12.5 g of an aqueous solution of polyacrylamide [Sumitomo Seika Co., Ltd., PAM F-30] dissolved in water was added to prepare a 0.5 mass% slurry.
The slurry is made using a square sheet machine [Kumaya Rikyu Kogyo Co., Ltd., wire mesh 80 mesh, 25 cm × 25 cm], sandwiched on both sides by a blanket, and pressed at a pressure of 980 kPa for 10 seconds to obtain a wet paper sheet. It was. The peelability was good, a wet paper sheet was obtained, and almost no raw material was taken on the blanket. The moisture content of the wet paper sheet was 80.2% by mass, and the tensile strength of the wet paper sheet was 100 g / 25 mm.
The obtained wet paper sheet was dried for 1 minute using a cylinder dryer set at 130 ° C. to obtain a dry sheet. Next, the dried sheet was sandwiched between two metal meshes, and hot air at 150 ° C. was passed vertically from the bottom at a wind speed of 1.5 m / s for 1 minute to fuse the fibers to obtain an adsorption filter base paper.
Table 1 shows the properties and performance of the obtained adsorption filter base paper.
Example 2
Instead of 2.50 g of the multi-branched synthetic pulp of Example 1, 1.875 g of the multi-branched synthetic pulp of Example 1, and a heat-adhesive composite fiber using polypropylene as the core component and polyethylene as the sheath component [Chisso ( Co., Ltd., ESC872, fiber length 5 mm, thickness 2.2 dtex] 0.625 g was added to 1,250 ml of water, and the same operation as in Example 1 was performed.
The peelability was good, a wet paper sheet was obtained, and almost no raw material was taken on the blanket. Table 1 shows the properties and performance of the wet paper sheet and the obtained adsorption filter base paper.
Comparative Example 1
A dry sheet was produced in the same manner as in Example 1. The obtained dried sheet was pressed for 1 minute at a pressure of 490 kPa using a hot plate press set at 150 ° C. with a spacer having a thickness of 0.6 mm to obtain an adsorption filter base paper.
Table 1 shows the properties and performance of the obtained adsorption filter base paper.
Comparative Example 2
Implemented except that 2.50 g of heat-adhesive conjugate fiber [Chisso Corp., ESC872, fiber length 5 mm, thickness 2.2 dtex] was added to 1,250 ml of water instead of 2.50 g of multi-branched synthetic pulp. The same operation as in Example 1 was performed.
The wet paper sheet was not obtained neatly due to poor peelability from the blanket, and the raw material was taken up on the blanket. Table 1 shows the properties and performance of the wet paper sheet and the obtained adsorption filter base paper.
The results of Examples 1-2 and Comparative Examples 1-2 are shown in Table 1.
第1表に見られるように、活性炭素繊維60質量%と多分岐状合成パルプ40質量%とを用いた実施例1、活性炭素繊維60質量%と多分岐状合成パルプ30質量%と熱接着性複合繊維10質量%とを用いた実施例2では、毛布からの剥離性がいずれも良好で湿紙シートが得られ、毛布への原料取られも殆ど見られず、結果として活性炭素繊維の脱落が少ない。また、湿紙シートの強度も高く、連続操業が容易であることが期待される。これに対して、活性炭素繊維60質量%と熱接着性複合繊維40質量%とを用いた比較例2では、剥離性が悪く湿紙シートが綺麗に得られず、毛布への原料取られが見られ、結果として活性炭素繊維の脱落が多い。また、湿紙シートの強度が低く、連続操業において困難が生じることが予想される。
実施例1の乾燥シートは熱収縮が小さいが、熱接着性複合繊維10質量%を含む実施例2の乾燥シートは熱収縮が少し大きくなり、熱接着性複合繊維40質量%を含む比較例2の乾燥シートは熱収縮が非常に大きい。この為、坪量や厚さの管理が難しいうえ、フィルターへの加工性が悪く、圧力損失が大きくなる。
熱風処理機を用いて、抄紙乾燥シートに対して垂直方向に熱風を通過させて繊維を融着させた実施例1〜2の吸着フィルター原紙は、略設計どおりの厚さと坪量を有し、通気性が良好である。これに対して、実施例1と同じ乾燥シートを用いても、熱板プレスにより熱処理した比較例1の吸着フィルター原紙は、厚さと坪量は実施例1と略同等であるが、通気性が低く、表面の繊維状態を観察すると、熱溶融物が表面の活性炭素繊維間を潰しているような状態であった。
比較例2の吸着フィルター原紙は、熱風処理機を用いても、熱収縮により坪量が増え、厚さも実施例1〜2と比べると2倍程度になり、熱処理による繊維の融着の管理が非常に困難である。
As seen in Table 1, Example 1 using 60% by mass of activated carbon fiber and 40% by mass of multi-branched synthetic pulp, 60% by mass of activated carbon fiber and 30% by mass of multi-branched synthetic pulp, and thermal bonding In Example 2 using 10% by mass of the composite fiber, the peelability from the blanket was good, a wet paper sheet was obtained, and almost no raw material was taken on the blanket. There is little dropout. Moreover, the strength of the wet paper sheet is high, and it is expected that continuous operation is easy. On the other hand, in Comparative Example 2 using 60% by mass of activated carbon fiber and 40% by mass of heat-adhesive composite fiber, the peelable paper is poor and the wet paper sheet cannot be obtained cleanly, and the raw material is taken off to the blanket. As a result, the activated carbon fiber is often dropped. Further, the strength of the wet paper sheet is low, and it is expected that difficulties will occur in continuous operation.
The dry sheet of Example 1 has a small heat shrinkage, but the dry sheet of Example 2 containing 10% by mass of the heat-adhesive conjugate fiber has a slightly larger heat shrinkage and Comparative Example 2 containing 40% by mass of the heat-adhesive conjugate fiber. The dry sheet has a very large heat shrinkage. For this reason, it is difficult to manage the basis weight and thickness, the processability to the filter is poor, and the pressure loss increases.
Using the hot air processing machine, the adsorption filter base paper of Examples 1 and 2 in which the hot air is passed in the direction perpendicular to the papermaking dry sheet and the fibers are fused has a thickness and basis weight substantially as designed. Good air permeability. On the other hand, even if the same dry sheet as in Example 1 is used, the adsorption filter base paper of Comparative Example 1 that has been heat-treated by a hot plate press has substantially the same thickness and basis weight as Example 1, but the air permeability is low. When the fiber state on the surface was low, the hot melt was in a state of crushing between the activated carbon fibers on the surface.
The adsorption filter base paper of Comparative Example 2 has a basis weight increased by heat shrinkage even when a hot air treatment machine is used, and the thickness is about twice that of Examples 1 and 2, and management of fiber fusion by heat treatment is possible. It is very difficult.
本発明の吸着フィルター原紙は、通気性が良好であり、加熱による収縮が少なく、コルゲート構造などに加工して、工業用の吸着フィルターとして好適に用いることができる。本発明の製造方法においては、抄紙された長尺のシートに対して略垂直方向に熱風を通過させるので、良好な通気性を保持したまま繊維を融着させることができる。 The adsorption filter base paper of the present invention has good breathability, little shrinkage due to heating, can be processed into a corrugated structure, and can be suitably used as an industrial adsorption filter. In the production method of the present invention, the hot air is passed in a substantially vertical direction with respect to the long paper sheet, so that the fibers can be fused while maintaining good air permeability.
1 巻出ロール
2 シート
3 網コンベア
4 網コンベア
5 熱風処理機
6 熱風処理機
7 送風機
8 吸着フィルター原紙
9 巻取ロ−ル
1 Unwinding Roll 2 Sheet 3 Net Conveyor 4 Net Conveyor 5 Hot Air Processing Machine 6 Hot Air Processing Machine 7 Blower 8 Adsorption Filter Base Paper 9 Winding Roll
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JP2011208348A (en) * | 2011-06-21 | 2011-10-20 | Oriental:Kk | Apparatus for recycling used paper for shredded document waste |
CN108193545A (en) * | 2017-12-25 | 2018-06-22 | 福建省大投科技有限公司 | A kind of wet method prepares the production system of staple fibre paper |
JP2019060043A (en) * | 2017-09-26 | 2019-04-18 | 三菱製紙株式会社 | Carbon fiber unwoven fabric |
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KR101902463B1 (en) | 2016-09-12 | 2018-10-01 | 에코융합섬유연구원 | Active carbon fiber paper and manufacturing method thereof |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5536317A (en) * | 1978-09-01 | 1980-03-13 | Mitsui Zellerbach Kk | Method and apparatus for producing synthetic pulp paper with high void volume |
JPH03202108A (en) * | 1989-12-28 | 1991-09-03 | Mitsubishi Paper Mills Ltd | Activated carbon fiber sheet and filter |
JPH0578996A (en) * | 1991-09-13 | 1993-03-30 | Mitsubishi Paper Mills Ltd | Active carbon fiber sheet and its production |
JPH07119073A (en) * | 1993-10-28 | 1995-05-09 | Unitika Ltd | Wet nonwoven fabric |
JP2002138386A (en) * | 2000-10-30 | 2002-05-14 | Unitika Ltd | Activated carbon fiber sheet and method for producing the same |
JP2002292287A (en) * | 2001-03-30 | 2002-10-08 | Unitika Ltd | Sheet for removing harmful substance and manufacturing method thereof |
JP2004081442A (en) * | 2002-08-26 | 2004-03-18 | Unitika Ltd | Filament non-woven fabric for vacuum cleaner filter, and vacuum cleaner filter |
-
2004
- 2004-11-09 JP JP2004325124A patent/JP4653458B2/en active Active
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5536317A (en) * | 1978-09-01 | 1980-03-13 | Mitsui Zellerbach Kk | Method and apparatus for producing synthetic pulp paper with high void volume |
JPH03202108A (en) * | 1989-12-28 | 1991-09-03 | Mitsubishi Paper Mills Ltd | Activated carbon fiber sheet and filter |
JPH0578996A (en) * | 1991-09-13 | 1993-03-30 | Mitsubishi Paper Mills Ltd | Active carbon fiber sheet and its production |
JPH07119073A (en) * | 1993-10-28 | 1995-05-09 | Unitika Ltd | Wet nonwoven fabric |
JP2002138386A (en) * | 2000-10-30 | 2002-05-14 | Unitika Ltd | Activated carbon fiber sheet and method for producing the same |
JP2002292287A (en) * | 2001-03-30 | 2002-10-08 | Unitika Ltd | Sheet for removing harmful substance and manufacturing method thereof |
JP2004081442A (en) * | 2002-08-26 | 2004-03-18 | Unitika Ltd | Filament non-woven fabric for vacuum cleaner filter, and vacuum cleaner filter |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2011208348A (en) * | 2011-06-21 | 2011-10-20 | Oriental:Kk | Apparatus for recycling used paper for shredded document waste |
JP2019060043A (en) * | 2017-09-26 | 2019-04-18 | 三菱製紙株式会社 | Carbon fiber unwoven fabric |
CN108193545A (en) * | 2017-12-25 | 2018-06-22 | 福建省大投科技有限公司 | A kind of wet method prepares the production system of staple fibre paper |
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