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JP3474039B2 - Double layer fabric for papermaking - Google Patents

Double layer fabric for papermaking

Info

Publication number
JP3474039B2
JP3474039B2 JP27954195A JP27954195A JP3474039B2 JP 3474039 B2 JP3474039 B2 JP 3474039B2 JP 27954195 A JP27954195 A JP 27954195A JP 27954195 A JP27954195 A JP 27954195A JP 3474039 B2 JP3474039 B2 JP 3474039B2
Authority
JP
Japan
Prior art keywords
surface side
papermaking
weft
warp
binding
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.)
Expired - Fee Related
Application number
JP27954195A
Other languages
Japanese (ja)
Other versions
JPH0987990A (en
Inventor
健仁 久慈
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Nippon Filcon Co Ltd
Original Assignee
Nippon Filcon Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Nippon Filcon Co Ltd filed Critical Nippon Filcon Co Ltd
Priority to JP27954195A priority Critical patent/JP3474039B2/en
Publication of JPH0987990A publication Critical patent/JPH0987990A/en
Application granted granted Critical
Publication of JP3474039B2 publication Critical patent/JP3474039B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【発明の属する技術分野】本発明は製紙用織物に関す
る。
TECHNICAL FIELD The present invention relates to a papermaking fabric.

【0002】[0002]

【従来の技術】製紙用織物に関しては、従来より多くの
要求がある。例えば、 表面平滑性、紙料の繊維支持性を向上させてワイヤー
マークの発生防止や製紙の歩留りを向上させること、 耐摩耗性を向上させ織物の使用寿命を延長させるこ
と、良好な走行性 剛性、姿勢安定性、寸法安定性の向上、良好な▲ろ▼
水性、小さな保水性の確保等である。 これらの要求は、互いに関連する点が多く、本来別々に
考えるべき問題ではないが、大雑把にいえば、の要求
は主に織物の製紙面側に関する問題であり、の要求は
主に織物の走行面側に関する問題であり、の要求は主
に織物の全体構造に関する問題である。前述の製紙用織
物に対する要求に応えるため、従来より多くの提案が成
されてきた。しかしながら、未だ充分満足される解決方
法がないのが現状である。例えば、要求の解決には細
い糸を用いて緻密に製織して平滑な製紙面を形成するこ
とが考えられるが、この様な製紙用織物は糸が細い為
に、要求の耐摩耗性や要求の剛性、姿勢安定性が劣
るという欠点がある。又、紙料の繊維支持性を改善する
為、製紙面を緯糸で形成する等織組織からの試みが成さ
れている。緯糸で製紙面を形成すると、紙料の繊維が経
糸間に存在する▲ろ▼水空間を塞ぐことがないので、▲
ろ▼水性も良好なのである。具体的には、本来の緯糸間
に補助緯糸を配置する等であり、一重織、二重織で効果
的に実施されているが、それにしても充分に満足できる
レベルとは言えないのが実情である。一方、要求の耐
摩耗性の向上については、従来より製紙用織物の走行面
側を緯糸で形成する緯糸摩耗型として経糸の摩耗を防ぐ
方法が実施されている。一般的に、使用中の織物の使用
寿命の延長や、姿勢や寸法安定性の点からも緯糸に耐摩
耗作用を受け持たせることが好ましいのである。経糸が
摩耗すると、当然のことではあるが引張り強度が低下
し、織物の寸法が伸びてしまう。さらに摩耗が進行する
と、ついには張力に耐えきれなくなり織物自体が直接切
断してしまい、使用寿命が尽きてしまうのである。又、
糸の材質の面からは、ポリエステルよりも耐摩耗性を有
するポリアミド製の糸を走行面側の緯糸に用いる方法が
実施されているが単に使用する材料の性能を利用するだ
けであって、画期的な効果は得られず、反面ポリアミド
製の糸を用いると要求の剛性や姿勢安定性が悪くなる
という欠点が有り、ポリエステル製の糸と交互に配置し
て用いられる程度に止まっている。
2. Description of the Related Art There are more requirements than ever before for papermaking fabrics. For example, improving surface smoothness and fiber support of the paper stock to prevent wire marks from occurring and improving the yield of papermaking, improving abrasion resistance to extend the service life of the fabric, good running rigidity , Improved posture stability, dimensional stability, good
It is to secure water and small water retention. These requirements are often related to each other and are not problems that should be considered separately, but roughly speaking, the requirements of are mainly related to the paper-making side of the fabric, and the requirements of are mainly related to the running of the fabric. This is a problem concerning the face side, and the requirement of is mainly a problem concerning the overall structure of the fabric. Many proposals have been made in the past in order to meet the demand for the above-mentioned papermaking fabric. However, at present, there is still no satisfactory solution. For example, in order to solve the requirement, it is conceivable to use a fine thread for finely weaving to form a smooth paper-making surface. However, since such a paper-making fabric has a fine thread, the required abrasion resistance and the required However, the rigidity and posture stability are poor. Further, in order to improve the fiber supporting property of the paper stock, an attempt has been made from a woven structure such as forming the paper making surface with a weft. When the papermaking surface is formed with wefts, the fibers of the stock do not block the water space between the warp yarns.
Ro ▼ The water is also good. Specifically, auxiliary wefts are arranged between the original wefts, etc., which are effectively carried out with a single weave and a double weave, but even in that case, it cannot be said that the level is sufficiently satisfactory. . On the other hand, in order to improve the required abrasion resistance, conventionally, a method of preventing abrasion of the warp has been implemented as a weft abrasion type in which the running surface side of the papermaking fabric is formed of weft. In general, it is preferable that the weft yarn has an abrasion resistance effect from the viewpoints of extending the service life of the woven fabric in use, and improving the posture and dimensional stability. When the warp is worn, the tensile strength is naturally lowered and the woven fabric is stretched. When the abrasion further progresses, the fabric cannot endure the tension at all and the fabric itself is directly cut, and the service life is exhausted. or,
From the viewpoint of the material of the thread, a method of using a polyamide thread, which has more abrasion resistance than polyester, for the weft thread on the running surface side has been carried out, but it is simply using the performance of the material used. The effect is not obtained for a period of time. On the other hand, the use of polyamide yarn has a drawback that the required rigidity and posture stability are deteriorated, and it is only used by alternately arranging it with polyester yarn.

【0003】又、走行面の緯糸に太い線径の糸を使用す
ることも試みられ、ある程度の改善は図られたが、緯糸
と経糸のバランスが崩れ、クリンプ性が悪化し、要求
のワイヤーマーク発生防止が解決できない等の欠点が有
り実用上問題が多かった。上述のように要求,,
は要求を解決しようとすると要求の問題が発生して
しまう等、言わば、相反する問題を抱えているのであ
る。そこで、上述の問題を解決する為に、製紙面側と走
行面側とを各々別の経糸,緯糸を用いて構成して、両層
の織物を接結糸によって一体化した上下二層織物での試
みも成されている。すなわち、製紙面側織物には線径の
小さい経糸,緯糸を使用して平滑な製紙面を形成し、走
行面には線径の大きい経糸,緯糸を使用して耐摩耗性が
大きく、剛性のある走行面を形成するのである。しかし
ながら、これの提案も必ずしも満足できるものでは無か
った。なぜならば、接結糸と製紙面側織物の経糸又は緯
糸が交差する接結部において、接結糸が製紙面側織物を
走行面側に引き込む為、製紙面側織物表面に凹みが発生
し、この凹みのマークを紙に転写するようにワイヤーマ
ークとして発生させてしまうのである。このワイヤーマ
ーク発生の解決案として、特公平5−77795号が提
案されている。この提案は接結力の合計を接結点の最大
数まで分布させ、各単一の接結部の荷重を最少にしてワ
イヤーマーク発生を防止するという点は新規な提案であ
るが、種々欠点も多く、未だ一般的に使用されるには至
っていないと言う状況である。従来技術の欠点について
は後に図面を示して具体的に説明する。又、最近になっ
て新しい問題が生じてきた。近年の製紙スピードの高速
化、填料の使用量の増大、中性製紙の必要性の増大等の
製紙に対する要求が増々厳しくなる中、織物内部で起こ
る内部摩耗が大きな問題となってきたのである。
It has also been attempted to use a yarn having a large wire diameter as the weft yarn on the running surface, and some improvements have been made, but the balance between the weft yarn and the warp yarn is lost, the crimping property is deteriorated, and the required wire mark is obtained. There were many problems in practical use due to the drawbacks such as prevention of occurrence. Request as above,
Has a conflicting problem, that is, a problem of request occurs when trying to solve the request. Therefore, in order to solve the above-mentioned problems, a paper-making surface side and a running surface side are configured by using different warp threads and weft threads, respectively, and a two-layer upper and lower woven fabric in which both woven fabrics are integrated by binding yarns is used. Has also been attempted. That is, a smooth papermaking surface is formed by using warp yarns and weft yarns with a small wire diameter on the papermaking surface side fabric, and warp and weft yarns with a large wire diameter are used on the running surface so that it has high wear resistance and rigidity. It forms a running surface. However, these proposals have not always been satisfactory. Because, in the knotting portion where the binding yarn and the warp or weft of the papermaking side fabric intersect, the binding yarn draws the papermaking side fabric to the running surface side, so that a dent occurs on the papermaking side fabric surface, This dent mark is generated as a wire mark so as to be transferred to paper. Japanese Patent Publication No. 5-77795 is proposed as a solution to the generation of the wire mark. This proposal is a novel proposal in that the total of the bonding forces is distributed up to the maximum number of the bonding points, and the load of each single bonding part is minimized to prevent the generation of wire marks. There are many cases, and it is the situation that it is not yet in general use. The drawbacks of the prior art will be specifically described later with reference to the drawings. Also, new problems have recently arisen. In recent years, as the demands on papermaking such as the speeding up of papermaking speed, the use of fillers and the need for neutral papermaking have become more and more severe, internal wear occurring inside the fabric has become a serious problem.

【0004】従来の接結糸を使用した上下二層織物は、
特公平5−77795号にも開示されている様に、接結
糸による接結部の凹みをできるだけ小さくする為、接結
糸の接結力を小さくしていた。ところが、ここに大きな
問題が存在していたのである。上下二層織物は、上下の
織物が異なる為、ヒートセット時の収縮量の差によって
寸法差が発生したり、経糸方向の張力に対する緯糸方向
の収縮力及び収縮量の差によって寸法差が発生する。
又、抄紙機上でロール間を走行させられるとロール回転
部において外側に位置する織物と、内側に位置する織物
との間に寸法差が生じる。上下二層織物では、この寸法
差を接結糸によって無理矢理拘束しているのであるが、
特公平5−7779号の上下二層織物は接結力が弱い為
に、使用中にこの寸法差に絶えきれなくなり、接結糸が
伸び、上下織物間でもまれる様に摩耗を受け、上側織物
の下側と、下側織物の上側及び接結糸が摩耗されて、増
々接結力が低下し、上下の織物の間に隙間が発生した
り、寸法差を解消するため、巾方向に波形のシワが発生
する。巾方向に波形のシワが発生すると使用中に異状摩
耗を起こすだけでなく、▲ろ▼水性等にも影響を及ぼ
し、紙にマークを発生させたり、巾方向の紙の坪量のバ
ラツキいわゆるBDプロファイル不良を発生させるので
ある。又、さらに内部摩耗が進行すると、ついには上下
の織物が分離してしまうこともある。
The upper and lower two-layer woven fabric using the conventional binding yarn is
As disclosed in Japanese Examined Patent Publication No. 5-77795, the binding force of the binding yarn is made small in order to make the depression of the binding portion due to the binding yarn as small as possible. However, there was a big problem here. Since the upper and lower two-layer woven fabrics are different in the upper and lower woven fabrics, a dimensional difference occurs due to a difference in shrinkage amount during heat setting, or a dimensional difference occurs due to a difference in shrinkage force and shrinkage amount in the weft direction with respect to tension in the warp direction. .
Further, when the rolls are run between the rolls on the paper machine, a dimensional difference occurs between the woven fabric located on the outer side and the woven fabric located on the inner side in the roll rotating portion. In the upper and lower two-layer fabric, this dimensional difference is constrained by the binding yarn,
Since the upper and lower two-layer fabric of Japanese Examined Patent Publication No. 5-7779 has a weak binding force, it cannot keep up with this dimensional difference during use, and the binding yarn stretches and is worn such that it is caught between the upper and lower fabrics, and the upper side The lower side of the woven fabric, the upper side of the lower woven fabric and the binding yarn are worn, the binding force is further reduced, and a gap is generated between the upper and lower woven fabrics or the dimensional difference is eliminated, so that the width direction is increased. Waveform wrinkles occur. Wavy wrinkles in the width direction not only cause abnormal wear during use, but also affect the water quality, causing marks on the paper and variations in the basis weight of the paper in the width direction, so-called BD. It causes a profile defect. Further, when the internal wear further progresses, the upper and lower fabrics may eventually separate.

【0005】又、従来の上下二層織物は接結力が小さい
為、織物の厚さが厚くなって、保水性が大きくなってし
まう為、抄紙機上で高速で回転すると、折り返し回転部
で織物に含有されていた水が遠心力によって水滴となっ
て飛び散り、それが湿紙上に落下して、紙にマークを発
生させるという問題が発生するのである。
In addition, since the conventional upper and lower two-layer woven fabric has a small binding force, the woven fabric becomes thick and the water retention becomes large. Therefore, when the fabric is rotated at a high speed on the paper machine, the fold-back rotary portion is used. The problem is that the water contained in the woven fabric scatters as water drops due to the centrifugal force and drops on the wet paper, causing marks on the paper.

【0006】[0006]

【発明が解決しようとする課題】上記のような従来技術
の問題に鑑みて、本発明は接結力が非常に強く、且つ、
接結糸による接結部の凹みが発生しない、表面が平滑で
紙料の繊維保持性が良好で、尚且つ、織物の厚さが薄
く、保水性が小さい製紙用二層織物を提供するものであ
り、従来の製紙用二層織物が抱えていた問題を全て解決
しようとするものである。
In view of the above problems of the prior art, the present invention has a very strong binding force, and
(EN) A two-layer papermaking fabric for papermaking, in which no denting of the binding portion due to the binding yarn occurs, the surface is smooth, the fiber retention of the paper material is good, and the fabric thickness is thin and the water retention is small. That is, the present invention aims to solve all the problems of the conventional two-layer fabric for papermaking.

【0007】[0007]

【課題を解決するための手段】本発明は、 「1. 製紙面側経糸と製紙面側緯糸によって平織組織
に織製された製紙面側織物と、走行面経糸と走行面側緯
糸によって走行面側を緯糸のロングクリンプで形成する
緯糸摩耗型に織製された走行面側織物と、製紙面側経糸
の上側と走行面側経糸の下側で交差することにより製紙
面側織物と走行面側織物とを接結する接結緯糸とから成
る製紙用二層織物において、各接結緯糸が、1本の製紙
面側経糸の上側で交差して形成する製紙面側接結部を、
製紙面側経糸3本置きに形成し、該製紙面側接結部の各
間で走行面側経糸の下側で交差して走行面側接結部を形
成する、製紙面側織物と走行面側織物を接結する接結緯
糸であって、該接結緯糸を全ての製紙面側緯糸1本に対
して2本の割合で隣接配置して全ての製紙面側接結部
と、製紙面側緯糸ナックルとを1対1の割合で経糸方向
に隣接して形成させた製紙用二層織物。 2. 製紙面側緯糸ナックルが、製紙面側緯糸が1本の
製紙面側経糸の上側で交差して経糸を組織に織り込むナ
ックルであって製紙面側経糸1本置きに形成されてい
る、1項に記載された製紙用二層織物。 3. 接結緯糸を製紙面側緯糸の両隣に隣接配置した、
1項または2項に記載された製紙用二層織物。 4. 製紙面側経糸と走行面側経糸、製紙面側緯糸と走
行面側緯糸の本数が同一である、1項ないし3項のいず
れか1項に記載された製紙用二層織物。 5. 走行面側織物が走行面側に走行面側経糸3本分の
走行面側緯糸のロングクリンプを形成する3/1綾織組
織である、1項ないし4項のいずれか1項に記載された
製紙用二層織物。 6. 走行面側織物が走行面側に走行面側経糸7本分の
走行面側緯糸のロングクリンプを形成する7/1組織で
ある、1項ないし4項のいずれか1項に記載された製紙
用二層織物。 7. 走行面側緯糸が走行面側経糸の上側で交差してい
る交差部と、接結緯糸が走行面側経糸の下側で交差する
走行面側接結部とが経糸方向で隣接せずに配置された、
1項ないし6項のいずれか1項に記載された製紙用二層
織物。 8. 接結緯糸がポリアミドモノフィラメントである、
1項ないし7項のいずれか1項に記載された製紙用二層
織物。」に関する。
Means for Solving the Problems The present invention is directed to "1. Paper-making-side fabric woven into a plain weave structure by a paper-making-side warp and a paper-making-side weft; The running surface side fabric woven in a weft wear type whose side is formed by a long crimp of the weft yarn, and the paper manufacturing side fabric and the running surface side by intersecting the upper side of the paper side warp and the lower side of the running side warp. In a two-layer papermaking fabric for papermaking, which comprises a binding weft that binds to a woven fabric, each binding weft has a papermaking side binding portion formed by intersecting one papermaking side warp on the upper side,
A papermaking side fabric and a running surface, which are formed every three papermaking side warps and intersect at the lower side of the running surface side warps between the papermaking side side binding parts to form a running side knot. A binding weft yarn for binding side fabrics, wherein the binding weft yarns are arranged adjacent to each other in a ratio of one weft yarn on all paper-making side, and all binding portions on the paper-making side and the paper-making side A two-layer woven fabric for papermaking in which side weft knuckles and a side weft knuckle are formed adjacent to each other in the warp direction. 2. 1. The paper-making-surface-side weft knuckle is a knuckle in which a paper-making-surface-side weft thread crosses over one paper-making-surface-side warp and weaves warps into a tissue, and is formed every other paper-making-surface-side warp. The described two-layer fabric for papermaking. 3. The binding weft is arranged adjacent to both sides of the paper-making side weft,
The two-layer fabric for papermaking according to item 1 or 2. 4. The two-layer fabric for papermaking according to any one of items 1 to 3, wherein the number of papermaking surface side warps and the number of running surface side warps are the same, and the number of papermaking surface side wefts is the same as the number of running surface side wefts. 5. The papermaking according to any one of claims 1 to 4, wherein the running surface side fabric is a 3/1 twill weave design that forms a long crimp of running surface side wefts for three running surface side warps on the running surface side. Double-layered fabric. 6. 5. The papermaking product according to any one of items 1 to 4, wherein the running surface side fabric has a 7/1 design on the running surface side to form long crimps of running surface side warps for seven running surface side warps. Two layer fabric. 7. The intersection where the running surface side weft intersects above the running surface side warp and the running surface side binding part where the binding weft intersects below the running surface side warp are arranged not adjacent to each other in the warp direction. Was done,
The two-layer fabric for papermaking according to any one of items 1 to 6. 8. The binding weft is a polyamide monofilament,
A two-layer fabric for papermaking according to any one of items 1 to 7. Regarding

【0008】製紙用織物の場合、製紙面側を平織組織で
形成することが理想である。平織組織は、経糸と緯糸が
1本毎に交差して、経糸と緯糸のナックルが交互に形成
される組織であるため、紙料の繊維を保持する緯糸及び
経糸のナックルの数が他の組織と比較して最も多くな
り、これらが同一平面に同じレベルで均一に配列され
る。従って、製紙面の表面性が良くなり、抄造される紙
の面を平滑にすることができる。しかし、平織組織の一
重織物では走行面側も平織組織となるため、経糸がすぐ
に摩耗してしまい、耐摩耗性に問題がある。そこで、製
紙面側織物に平織組織を使用して、走行面側織物には耐
摩耗性を有する組織を使用した上下二層織物が考え出さ
れたが、前述の様に接結部の凹み、内部摩耗、保水性等
の問題があった。
In the case of a papermaking fabric, it is ideal to form the papermaking side with a plain weave design. The plain weave design is a design in which warp yarns and weft yarns intersect each other, and knuckles of warp yarns and weft yarns are alternately formed. Therefore, the number of weft yarns and warp yarn knuckles that hold the fibers of the paper stock is different from that of the other design. Most of them are evenly arranged in the same plane at the same level. Therefore, the surface property of the papermaking surface is improved, and the surface of the paper to be paper-made can be made smooth. However, in the case of a single-woven fabric having a plain weave structure, the running surface side also has a plain weave structure, so that the warp is immediately worn away, and there is a problem in wear resistance. Therefore, using a plain weave design for the papermaking side fabric, an upper and lower two-layer fabric using a wear-resistant design for the running face side fabric was conceived. There were problems such as internal wear and water retention.

【0009】本発明は、平織組織に形成した製紙面側織
物と、緯糸摩耗型に形成した走行面側織物とを製紙面側
緯糸に隣接させて2本配置した接結糸により、全ての製
紙面側緯糸ナックルの隣接部で強力に接結して、上記課
題を解決することができたのである。
According to the present invention, two paper-making surface side woven fabrics formed in a plain weave design and a running surface side woven fabric formed in a weft-wear type are arranged adjacent to the paper making surface side wefts, and all the papermaking is performed. It was possible to solve the above-mentioned problems by strongly binding the adjacent weft knuckles on the surface side.

【0010】ナックルとは経糸と緯糸が交差して形成す
る交差部であるが、本発明では次のように定義する。製
紙面側では、経糸または緯糸の相手側の糸の上側で交差
する方の糸の名称をナックルに付して呼ぶ。したがって
製紙面側経糸が製紙面側緯糸の上側で交差したナックル
は製紙面側経糸ナックルであり、製紙面側緯糸が製紙面
側経糸の上側で交差したナックルは製紙面側緯糸ナック
ルである。一方走行面側では、経糸または緯糸の相手側
の糸の下側で交差する方の糸の名称をナックルに付して
呼ぶ。したがって走行面側経糸が走行面側緯糸の下側で
交差したナックルは走行面側経糸ナックルであり、走行
面側緯糸が走行面側経糸の下側で交差したナックルは走
行面側緯糸ナックルである。またナックルとナックルの
間をクリンプと言う。したがって同一緯糸に異なる経糸
により形成された経糸ナックルと経糸ナックルの間には
緯糸のクリンプが形成され、同一の経糸に異なる緯糸に
より形成された緯糸ナックルと緯糸ナックルの間には経
糸のクリンプが形成される。
The knuckle is an intersection formed by the warp yarn and the weft yarn intersecting with each other. In the present invention, it is defined as follows. On the paper-making side, the name of the yarn that crosses the upper side of the other side of the warp or weft is attached to the knuckle. Therefore, the knuckle where the papermaking surface side warp intersects with the papermaking surface side weft yarn is a papermaking surface side warp knuckle, and the knuckle where the papermaking surface side weft intersects above the papermaking surface side warp is a papermaking surface side weft knuckle. On the other hand, on the running surface side, the name of the yarn that intersects with the lower side of the opposite yarn of the warp yarn or the weft yarn is attached to the knuckle. Therefore, the knuckle where the running surface side warp intersects below the running surface side weft is a running surface side warp knuckle, and the knuckle where the running surface side weft intersects below the running surface side warp is a running surface side weft knuckle. . A crimp is defined between the knuckles. Therefore, a crimp of the weft is formed between the warp knuckle formed by different warps on the same weft, and a crimp of the warp is formed between the weft knuckle formed by different wefts on the same warp and the weft knuckle. To be done.

【0011】本発明の上下二枚の織物を接結する接結糸
は緯糸に沿った糸である。二層織物には接結糸が経糸に
沿った経糸接結織物と、緯糸に沿った緯糸接結織物があ
るが、本発明の織物は緯糸接結織物である。本発明の接
合糸は接結緯糸である。本発明の第一の特徴は、製紙面
側織物と走行面側織物を接結する接結糸を全ての製紙面
側緯糸1本に対して2本の割合で隣接配置して1本の製
紙面側経糸の上側で交差して形成する製紙面側接結部を
製紙面側経糸3本置きに形成し、この製紙面側接結部間
で必ず走行面側経糸の下側で交差して走行面側接結部を
形成し、全ての製紙面側接結部と、全ての製紙面側緯糸
ナックルとを1対1に対応して経糸方向に隣接して配置
したことである。製紙面側接結部と製紙面側緯糸ナック
ルを隣り合って配置すると、両糸が同一の経糸の上を通
り同組織のナックルを形成するので製紙面側接結部と製
紙面側緯糸ナックルは互いに密接する。よって1本の製
紙面側緯糸に2本の接結糸が沿うように隣接配置され
る。上記の様に接結部が形成されると、全ての製紙面側
緯糸ナックルが同じ力で走行面側に引き込まれ、且つ製
紙面側経糸ナックルが受ける影響も全て同一となるの
で、製紙面側全体が均一に引き込まれ、接結糸による凹
みが全く無く、ワイヤーマークを発生させない平滑な製
紙面を得ることができるのである。詳細は実施例にて図
面を示し、従来例と比較しながら具体的に説明する。
The binding yarn which binds the upper and lower two fabrics of the present invention is a weft yarn. The two-layer woven fabric includes a warp binding woven fabric having binding yarns along the warp and a weft binding woven fabric having binding yarns. The woven fabric of the present invention is a weft binding woven fabric. The joining yarn of the present invention is a binding weft yarn. A first feature of the present invention is that a binding yarn for binding a papermaking side fabric and a running face side fabric is arranged adjacent to every one papermaking side weft yarn at a ratio of two to form one papermaking machine. The papermaking surface side knots formed by crossing over the surface side warps are formed every three papermaking surface side knots, and the papermaking surface side knots must always intersect below the running surface side warp between the papermaking surface side knots. That is, the running surface side connecting portion is formed, and all the paper making surface side connecting portions and all the paper making surface side weft knuckles are arranged adjacent to each other in the warp direction in a one-to-one correspondence. When the papermaking surface side binding part and the papermaking surface side weft knuckle are placed next to each other, both yarns pass over the same warp and form a knuckle of the same structure, so the papermaking surface side binding part and the papermaking side weft knuckle are Close to each other. Therefore, two binding yarns are arranged adjacent to each other on one papermaking side weft yarn. When the binding portion is formed as described above, all the paper-making-surface-side weft knuckles are pulled into the running surface with the same force, and the paper-making-surface-side warp knuckles are all affected by the same force. It is possible to obtain a smooth paper-making surface in which the whole is drawn in uniformly, there is no dent due to the binding yarn, and wire marks are not generated. Details will be described in detail with reference to the drawings in the embodiments and comparison with the conventional example.

【0012】又、接結部が製紙面側緯糸ナックルと同数
と従来例に比較して非常に多い為、接結力が強く、製紙
面側織物と、走行面側織物が一体の織物に強力に接結さ
れ、従来の接結力が弱い上下二層織物と異なり、接結糸
が伸びて内部摩耗が発生したり、製紙面側織物と走行面
側織物の間に隙間が発生したり、波状のシワが発生した
りすることがない。又、接結力が強いために、織物の厚
さを薄くすることが可能となり、保水性を小さくするこ
とができる。
Further, since the number of binding portions is the same as the number of weft knuckles on the paper-making side, which is much larger than that of the conventional example, the binding force is strong and the fabric on the paper-making side and the fabric on the running side are strong in one piece. Unlike the upper and lower two-layer woven fabric, which has a weak binding force, the binding yarn stretches and internal wear occurs, or a gap occurs between the papermaking side fabric and the running face side fabric. Wavy wrinkles do not occur. Further, since the binding force is strong, it is possible to reduce the thickness of the woven fabric and reduce the water retention.

【0013】本発明においては、製紙面側経糸と走行面
側経糸、製紙面側緯糸と走行面側緯糸の本数を同一にし
て、走行面側織物を3/1綾織で織成して、さらに接結
糸を製紙面側緯糸の両隣に配置し、走行面側緯糸が走行
面側経糸の上側で交差している交差部と、走行面側接結
部とが経糸方向に隣接しない様に配置することが好適で
ある。本発明は前述の接結糸を使用して製紙面側接結部
を全ての製紙面側緯糸ナックルに対応させて同数、従来
に比較しては非常に多く形成させることが、第一の特徴
であって、それによって前述した様な十分に優れた効果
を奏することができるのであるが、走行面側接結部も当
然に製紙面側接結部の間に同数形成されることになる。
In the present invention, the number of papermaking surface side warps and the number of running surface side warps, the number of papermaking side wefts and the number of running surface side wefts are the same, and the running side fabric is woven with 3/1 twill and further knotted. The yarns should be placed on both sides of the weft on the paper making side, and the crossing point where the wefts on the running side intersect above the warp on the running side should not be adjacent to the knot on the running side. Is preferred. The first feature of the present invention is that the above-described binding yarns are used to form the same number of paper-making surface-side binding portions as all the paper-making surface-side weft knuckles, which is much larger than the conventional one. Therefore, although the sufficiently excellent effect as described above can be obtained, the same number of running surface side connecting portions are naturally formed between the paper making surface side connecting portions.

【0014】接結糸が走行面側経糸の下側で交差する走
行面側接結部が、上記の様に形成されると、走行面側織
物を3/1綾織かこれを何倍かして織込み部を減らした
組織、例えば7/1組織等とした組織以外では、走行面
側接結部と走行面側緯糸が走行面側経糸の上側で交差し
ている交差部すなわち走行面側経糸ナックルとが経糸方
向に隣接する部分ができてしまう。この隣接した部分が
できると、製紙面の表面平滑性と、接結糸の耐摩耗性に
多少影響を及ぼすことになるのである。例えば、接結糸
を製紙面側緯糸の片側に2本隣接配置することも可能で
あるが、接結糸を2本隣接配置すると、2本の接結糸が
重なり合って1本の接結糸のように形成される。それゆ
えに、走行面側接結部が経糸1本置きに形成されるよう
になって、やはり走行面側緯糸が走行面側経糸の上側で
交差する交差部と隣接する部分ができてしまう。
When the running surface side binding portion where the binding yarn crosses under the running surface side warp is formed as described above, the running surface side woven fabric is a 3/1 twill weave or a multiple thereof. Except for the design in which the weaving portion is reduced, for example, the design in which the running surface side binding part and the running surface side weft intersect above the running surface side warp, that is, the running surface side warp A part where the knuckle and the knuckle are adjacent to each other is formed. If these adjacent portions are formed, the surface smoothness of the paper-making surface and the abrasion resistance of the binding yarn will be somewhat affected. For example, it is possible to dispose two binding yarns adjacent to one side of the paper-making side weft yarn. However, when two binding yarns are arranged adjacent to each other, two binding yarns overlap and one binding yarn is formed. Is formed. Therefore, the running surface side knots are formed every other warp, and a portion adjacent to the intersection where the running surface side wefts intersect above the running surface side warps is also formed.

【0015】走行面側緯糸が走行面側経糸の上側で交差
する交差部とは、当然、走行面側経糸が走行面側緯糸を
下側から織り込んでいる位置であって、走行面側経糸が
最も走行面側に位置している部分であるので、これに隣
接する走行面側接結部も他の走行面側接結部に比べて、
走行面側に位置することになる。よって、この接結糸は
他の接結糸よりも多少強い力で製紙面を走行面側に引き
込むことになり、従来と比較すれば非常に小さいレベル
であるが製紙面に凹所を形成させてしまう。又、他の走
行面側接結部よりも先に摩耗されることになる。接結糸
が摩耗すると接結強度が低下するので従来の様な問題が
発生して、使用寿命が尽きることになる。しかしなが
ら、接結糸が摩耗し始めるのは、まず走行面側緯糸が摩
耗して次に走行面側経糸が摩耗して、この摩耗がかなり
進行してからなので、耐摩耗性に影響を与えるといって
も、織物使用寿命末期の寿命期間全体からするとごく短
い期間での問題である。したがって、必ず上述の様に走
行面側接結部と走行面側経糸ナックルを隣接させてはい
けないという訳ではないが、避けることが好ましい。上
述の様に、本発明は、第一の特徴によって十分に優れた
効果を奏するが、組織を更に限定することによって、よ
り良い効果を奏することができる。
The crossing point where the running surface side weft intersects with the running surface side warp on the upper side is, of course, the position where the running surface side warp weaves the running surface side weft from below and the running surface side warp is Since it is the portion located on the most traveling surface side, the traveling surface side connecting portion adjacent to this is also compared to other traveling surface side connecting portions,
It will be located on the running surface side. Therefore, this binding yarn pulls the papermaking surface toward the running surface with a slightly stronger force than the other binding yarns. Will end up. In addition, it will be worn before the other running surface side joints. When the binding yarn is worn out, the binding strength is lowered, so that the conventional problems occur and the service life is exhausted. However, the binding yarn begins to wear because the running surface side weft wears first and then the running surface side warp wears, and this wear progresses considerably, so that it affects wear resistance. Even so, it is a problem in a very short period from the end of the service life of the fabric. Therefore, as described above, the running surface side connecting portion and the running surface side warp knuckle should not necessarily be adjacent to each other, but it is preferable to avoid them. As described above, the present invention has a sufficiently excellent effect due to the first characteristic, but can further exhibit a better effect by further limiting the tissue.

【0016】尚、本発明の製紙用織物に使用する線材と
しては特に限定されるものではなく、ポリエステル、ポ
リアミド、ポリフェニレンサルファイド等色々な合成樹
脂が使用でき、線の構成もモノフィラメント、マルチフ
ィラメント等使用できるが、織物の剛性、耐摩耗性等か
ら経糸,製紙面側緯糸にはポリエステルモノフィラメン
ト、走行面側緯糸にはポリエステルノフィラメントとポ
リアミドモノフィラメントを併用し、接結糸には内部摩
耗に強く、接結力を強くする目的で熱収縮が大きく、伸
び難いポリアミドモノフィラメントを使用することが好
ましい。又、高温で使用される場合等には、ポリフェニ
レンサルファイドモノフィラメントを使用することも好
ましい。
The wire material used in the papermaking fabric of the present invention is not particularly limited, and various synthetic resins such as polyester, polyamide, polyphenylene sulfide can be used, and the wire structure can be monofilament, multifilament, etc. However, due to the rigidity and abrasion resistance of the woven fabric, warp yarns, polyester monofilaments for paper side wefts, polyester filaments and polyamide monofilaments for running side wefts are used together, and the binding yarns are resistant to internal wear and For the purpose of strengthening the binding strength, it is preferable to use a polyamide monofilament which has a large heat shrinkage and is hard to stretch. It is also preferable to use polyphenylene sulfide monofilament when it is used at high temperature.

【0017】[0017]

【発明の実施の形態】次に本発明の実施例を図面に基づ
いて、従来例と比較しながら具体的に説明する。第1図
は、本発明の実施例の完全組織を示す意匠図である。意
匠図において、×印は製紙面側経糸が製紙面側緯糸の上
側で交差している部分を示す。すなわち、本発明では、
製紙面側経糸ナックルを示し、×印が無い部分は製紙面
側緯糸ナックルを示す。○印は走行面側経糸が走行面側
緯糸の下側で交差して織り込んでいる部分を示す。▲印
は製紙面側接結部、△印は走行面側接結部を示す。又、
製紙面側経糸と走行面側経糸は上下に重なっており、ダ
ッシュを付さないアラビア数字で示されている。製紙面
側緯糸と走行面側緯糸も上下に重なっており、ダッシュ
を付したアラビア数字で示されている。尚、上下に重な
っている糸は同じ符号で示した。接結糸はダブルダッシ
ュを付したアラビア数字で示されている。
BEST MODE FOR CARRYING OUT THE INVENTION Next, an embodiment of the present invention will be specifically described with reference to the drawings in comparison with a conventional example. FIG. 1 is a design diagram showing the complete design of the embodiment of the present invention. In the design drawing, a cross indicates a portion where the paper-making side warp intersects with the paper-making side weft. That is, in the present invention,
The paper-making-surface-side warp knuckle is shown, and the part without X indicates the paper-making-surface-side weft knuckle. A circle indicates a portion in which the running surface side warp intersects and weaves under the running surface side weft. The ▲ mark indicates the paper-making surface side connecting part, and the Δ mark indicates the running surface side connecting part. or,
The papermaking side warp and the running side warp overlap vertically and are indicated by Arabic numerals without dashes. The papermaking side weft and the running side weft also overlap vertically and are indicated by Arabic numerals with dashes. The yarns which are vertically overlapped are indicated by the same reference numerals. The binding thread is shown in Arabic numerals with a double dash.

【0018】図1について製紙面側織物をみてみると、
製紙面側緯糸2′は、製紙面側経糸1の上側を通り、次
いで製紙面側経糸2の下側を通って平織組織を形成した
後、製紙面側経糸3の上側を通り、次いで製紙面側経糸
4の下側を通って2個目の平織組織を形成している。製
紙面側緯糸ナックルは、製紙面側経糸1と製紙面側経糸
3の部分で形成されている。製紙面側緯糸5′は、製紙
面側経糸1の下側を通り、次いで製紙面側経糸2の上側
を通って平織組織を形成した後、製紙面側経糸3の下側
を通り、次いで製紙面側経糸4の上側を通って2個目の
平織組織を形成している。製紙面側緯糸ナックルは、製
紙面側経糸2と製紙面側経糸4の部分で形成されてい
る。製紙面側緯糸8′,11′も同様平織組織を2個形
成して、それぞれ製紙面側緯糸ナックルを製紙面側経糸
1,3と製紙面側経糸2,4の部分で形成している。
又、製紙面側経糸1,2,3,4も製紙面側緯糸同様、
平織組織を2個形成している。例えば、製紙面側経糸1
は製紙面側緯糸2′の下側を通り、次いで製紙面側緯糸
5′の上側を通って平織組織を形成した後、製紙面側緯
糸8′の下側を通り、次いで製紙面側緯糸11′の上側
を通って2個目の平織組織を形成している。この様に本
実施例では、完全組織の中で平織組織が経糸,緯糸方向
にそれぞれ2個合計4個形成されている。製紙面側緯糸
ナックルは、平織組織の中に2個形成されるので計8個
形成されることになる。
Looking at the fabric on the papermaking side with reference to FIG. 1,
The papermaking surface side weft 2 ′ passes over the papermaking surface side warp 1 and then under the papermaking surface side warp 2 to form a plain weave, and then passes over the papermaking surface side warp 3 and then the papermaking surface. A second plain weave design is formed through the lower side of the side warp yarns 4. The papermaking surface side weft knuckle is formed of a papermaking surface side warp 1 and a papermaking surface side warp 3. The papermaking surface side weft 5 ′ passes under the papermaking surface side warp 1 and then over the papermaking surface side warp 2 to form a plain weave structure, and then passes under the papermaking surface side warp 3 and then the papermaking surface side warp 3. A second plain weave design is formed by passing above the surface side warp 4. The papermaking surface side weft knuckle is formed by the papermaking surface side warp 2 and the papermaking surface side warp 4. Similarly, two plain weave designs are formed for the papermaking surface side wefts 8'and 11 ', and the papermaking surface side weft knuckles are formed by the papermaking surface side warp yarns 1 and 3 and the papermaking surface side warp yarns 2 and 4, respectively.
Also, the paper-making side warps 1, 2, 3, 4 are the same as the paper-making side wefts.
Two plain weave structures are formed. For example, the papermaking side warp 1
Passes under the papermaking surface side weft 2 ', then passes over the papermaking surface side weft 5'to form a plain weave, then passes under the papermaking surface side weft 8', and then the papermaking surface side weft 11 A second plain weave structure is formed through the upper side of ′. As described above, in this embodiment, four plain weave designs are formed in the complete design, two in the warp direction and four in the weft direction. Two weft knuckles on the side of the papermaking side are formed in the plain weave structure, so that a total of eight knuckles are formed.

【0019】次に走行面側織物についてみてみると、走
行面側緯糸2′は、走行面側経糸4によって下側から織
り込まれ、走行面側経糸1,2,3の走行面側経糸3本
分の走行面側緯糸のロングクリンプを形成している。走
行面側緯糸5′,8′,11′も同様走行面側緯糸3本
分の走行面側緯糸のロングクリンプを形成している。走
行面側経糸は、連続する走行面側緯糸3本の上側を通っ
て、次いで走行面側緯糸1本の下側を通って、3/1組
織を形成している。例えば、走行面側経糸1についてみ
ると該経糸は、走行面側緯糸2′,5′,8′の上側を
通って、次いで走行面側緯糸11′の下側を通って3/
1組織を形成している。この様に本実施例では、完全組
織の中で3/1組織を1個形成している。尚、3/1組
織は経糸を緯糸1本分シフトさせて形成した綾織であ
る。
Looking at the running surface side fabric, the running surface side weft 2'is woven from below by the running surface side warp 4, and the running surface side warps 1, 2 and 3 are three running surface side warps. A long crimp of the running surface side weft is formed. Similarly, the running surface side wefts 5 ', 8', and 11 'also form long crimps of the running surface side wefts for three running surface side wefts. The running surface side warp passes through the upper side of three continuous running surface side wefts and then under the one running surface side weft to form a 3/1 design. For example, with respect to the running surface side warp 1, the warp passes through the upper side of the running surface side wefts 2 ', 5', 8 ', and then passes under the running surface side weft 11' 3 /
It forms one tissue. As described above, in this embodiment, one 3/1 structure is formed in the complete structure. The 3/1 design is a twill weave formed by shifting the warp by one weft.

【0020】次に接結糸についてみてみると、製紙面側
緯糸2′の両隣に接結糸1″,3″、製紙面側緯糸5′
の両隣に接結糸4″,6″、製紙面側緯糸8′の両隣に
接結糸7″,9″、製紙面側緯糸11′の両隣に接結糸
10″,12″が配置されており、全ての製紙面側緯糸
の両隣に接結糸が配置されていることが理解される。接
結糸1″は製紙面側経糸1の上側で交差して製紙面側接
結部を形成し、次いで製紙面側経糸2と走行面側経糸2
の間を通った後、走行面側経糸3の下側で該経糸と交差
して走行面側接結部を形成し、次いで製紙面側経糸4と
走行面側経糸4の間を通った後、次に続く完全組織の製
紙面側経糸1の上側で交差して製紙面側接結部を形成す
る。このように接結糸1″が製紙面側接結部を製紙面側
経糸2,3,4の製紙面側経糸3本置きに形成して、こ
の製紙面側接結部間である、走行面側経糸3の位置で走
行面側接結部を形成していることが理解される。
Next, regarding the binding yarns, the binding yarns 1 "and 3" and the papermaking surface side weft 5'are provided on both sides of the papermaking side weft yarn 2 '.
4 "and 6" are arranged on both sides of each of the two, the binding yarns 7 "and 9" are arranged on both sides of the papermaking surface side weft 8 ', and the binding yarns 10 "and 12" are arranged on both sides of the papermaking surface side weft 11'. It is understood that the binding yarns are arranged on both sides of all the weft yarns on the paper making side. The binding yarn 1 ″ intersects with the upper side of the papermaking surface side warp 1 to form a papermaking surface side binding portion, and then the papermaking surface side warp 2 and the running surface side warp 2
After passing between the paper-making side warp 4 and the running-side warp 4 after crossing the warp 3 under the running-side warp 3 to form a running-side knot. , The papermaking surface side warp 1 of the next complete design is crossed to form a papermaking surface side binding portion. In this way, the binding yarn 1 ″ forms the paper-making-surface-side binding portion at every three paper-making-surface-side binding yarns of the paper-making-surface-side warps 2, 3, and 4, and runs between the paper-making-side binding portions. It is understood that the running surface side knot is formed at the position of the surface side warp 3.

【0021】接結糸3″は走行面側経糸1の下側で交差
して、走行面側接結部を形成し、次いで製紙面側経糸2
と走行面側経糸2の間を通った後、製紙面側経糸3の上
側で該経糸と交差して製紙面側接結部を形成し、次いで
製紙面側経糸4と走行面側経糸4の間を通った後、次に
続く完全組織の走行面側経糸1の下側で該経糸と交差し
て製紙面側接結部を形成する。このように、接結糸3″
も製紙面側接結部を製紙面側経糸4、次に続く完全組織
の製紙面側経糸1,2の製紙面側経糸3本置きに形成し
て、この製紙面側接結部間である走行面側経糸1の位置
で走行面側接結部を形成していることが理解される。
又、接結糸1″の製紙面側接結部は製紙面側緯糸2′の
製紙面側経糸1の部分で形成されている製紙面側緯糸ナ
ックルに隣接し、接結糸3″の製紙面側接結部は製紙面
側緯糸2′の製紙面側経糸3の部分で形成されている製
紙面側緯糸ナックルに隣接して形成されており、製紙面
側緯糸2′の製紙面側緯糸ナックル全てに製紙面側接結
部が隣接し、接結糸1″、接結糸3″は製紙面側緯糸
2′に沿うように隣接配置されることが理解される。
The binding yarn 3 "intersects below the running surface side warp 1 to form a running surface side binding portion, and then the papermaking surface side warp 2
After passing between the running surface side warp 2 and the running surface side warp 2, the paper manufacturing surface side warp 3 is intersected with the warp to form a paper manufacturing surface side knot, and then the paper manufacturing surface side warp 4 and the running surface side warp 4 After passing through the space, the papermaking surface side knotting portion is formed below the running surface side warp 1 of the next complete design by intersecting the warp. In this way, the binding yarn 3 "
Also, the paper-making-surface-side knots are formed between the paper-making-surface-side warp 4, the paper-making-surface-side warps 4 and the paper-making-surface-side warps 1 and 2 of the following complete design, which are between the paper-making-side knots. It is understood that the running surface side binding portion is formed at the running surface side warp 1.
Further, the papermaking surface side binding portion of the binding yarn 1 ″ is adjacent to the papermaking surface side weft knuckle formed by the papermaking surface side warp 1 of the papermaking surface side weft 2 ′, and the binding yarn 3 ″ of papermaking. The surface-side connecting portion is formed adjacent to the paper-making-surface-side weft knuckle formed by the paper-making-surface-side warp 3 of the paper-making-surface-side weft 2 '. It is understood that the papermaking surface side binding portion is adjacent to all the knuckles, and the binding yarn 1 ″ and the binding yarn 3 ″ are adjacently arranged along the papermaking surface side weft yarn 2 ′.

【0022】同様に、接結糸4″,6″の製紙面側接結
部は製紙面側緯糸5′の製紙面側緯糸ナックル全てに隣
接して形成され、接結糸7″,9″の製紙面側接結部は
製紙面側緯糸8′の製紙面側緯糸ナックル全てに隣接し
て形成され、接結糸10″,12″の製紙面側接結部
は、製紙面側緯糸11′の製紙面側緯糸ナックル全てに
隣接して形成されており、全ての製紙面側接結部と全て
の製紙面側緯糸ナックルとが1対1に対応して経糸方向
に隣接して形成されていることが理解される。こうして
全接結部が製紙面側緯糸ナックルの全てと隣接し、同じ
力で組織に引き込まれるので、接結糸の引き込みによる
凹みが全く無く、ワイヤーマークを発生させない平滑な
製紙面が形成され織物の接結力が強い製紙用二層織物が
得られるのである。
Similarly, the binders 4 "and 6" on the papermaking side are formed adjacent to all the weft knuckles on the papermaking side of the papermaking side weft 5 ', and the binders 7 "and 9" are formed. The paper-making surface-side connecting portion is formed adjacent to all the paper-making-surface-side weft knuckles of the paper-making-surface-side weft 8 ', and the paper-making-surface-side connecting portions of the binding yarns 10 "and 12" are the paper-making-side weft 11 The papermaking surface side weft knuckle is formed adjacent to all the papermaking surface side weft knuckles, and all the papermaking surface side weft knuckles are formed adjacent to each other in the warp direction in a one-to-one correspondence. Is understood. In this way, all binding parts are adjacent to all of the weft knuckles on the papermaking surface side and are pulled into the tissue with the same force, so there is no dent due to the drawing of the binding yarn, and a smooth papermaking surface that does not generate wire marks is formed. It is possible to obtain a two-layer woven fabric for papermaking having a strong binding force.

【0023】又、本実施例では接結糸の走行面側接結部
を製紙面側接結部間の中心の位置に形成しているが、こ
れに限定される訳ではなく、例えば接結糸1″の走行面
側接結部を走行面側経糸2の部分に形成することもでき
る。この様にすると接結糸の製紙面側接結部から走行面
側接結部への角度が左右対象ではなく、片側の角度がき
つくなり、これを緩和させようとする力が働き、製紙面
側経糸は左方に走行面側経糸は右方に若干移動して重な
りがずれるので、最新の高速で脱水力が大きい抄紙機に
おいて緩慢脱水をさせるには好適である。このほか織物
の厚さを薄くすることができ、保水性を小さくすること
ができる利点もある。又、図1では、走行面側接結部と
走行面側緯糸が走行面側経糸の上側で交差している交差
部、すなわち走行面側経糸ナックルとを、経糸方向に隣
接させてない為、走行面側接結部が最も走行面側に位置
する部分に配置されることなく、耐摩耗性に影響を与え
ることなく、また、隣接された部分と混在することがな
いため、接結糸が製紙面を引き込む力が全て同一となっ
て、表面平滑性が良好となり、前述した様に本発明の中
でも好適な実施例である。
Further, in the present embodiment, the running surface side connecting portion of the connecting yarn is formed at the center position between the paper making surface side connecting portions, but it is not limited to this, and for example, the connecting portion is formed. It is also possible to form the running surface side knot of the yarn 1 ″ in the running surface side warp 2. The angle of the binding yarn from the paper making surface side knotting part to the running surface side knotting part is thus changed. It is not symmetrical to the left and right, and the angle on one side becomes tighter, and the force that tries to mitigate this is working, and the warp on the paper making side moves slightly to the left and the warp on the running side moves slightly to the right, so the latest It is suitable for slow dewatering in a paper machine with high speed and large dewatering power, and also has an advantage that the thickness of the fabric can be reduced and the water retention can be reduced. An intersection where the running surface side binding part and the running surface side weft intersect above the running surface side warp, that is, running Since the side warp knuckles are not adjacent to each other in the warp direction, the running surface side connecting portion is not arranged in the portion located closest to the running surface side, does not affect the wear resistance, and is adjacent. Since the binding yarn does not coexist with the above-mentioned portion, all the forces for pulling the binding yarn to the paper-making surface are the same, and the surface smoothness is good, which is a preferred embodiment of the present invention as described above.

【0024】意匠図にて走行面側経糸が製紙面側緯糸の
下側で交差している部分を示す○印と、走行面側接結部
を示す△印が経糸方向に隣接していないことより良く理
解できる。尚、図1では上述の様に走行面側接結部と、
走行面側緯糸が走行面側経糸の上側で交差している交差
部とを経糸方向に隣接させないが、これに限定されるも
のではなく、例えば、図1に示した接結糸3″を製紙面
側緯糸2′と接結糸1″の間に配置し、接結糸6″を製
紙面側緯糸5′と接結糸4″の間に配置し、接結糸9″
を製紙面側緯糸8′と接結糸7″の間に配置し、接結糸
12″を製紙面側緯糸11′と接結糸10′の間に配置
することもできる。但し、この組織にすると、接結糸
1″と3″がぴったりと隣接して実質1本の様に形成さ
れ、製紙面側緯糸2′の片側に隣接配置されることにな
る。よって、接結糸3″の走行面側接結部と次の意匠図
の走行面側緯糸11′が走行面側経糸1の上側で交差す
る交差部が実質的に隣接する様になり、走行面側接結部
と、走行面側経糸ナックルとが経糸方向に実質的に隣り
合う部分が発生する。尚、図1では走行面側織物の経糸
及び緯糸を製紙面側織物と同じにしたが走行面側織物の
経糸及び緯糸を製紙面側織物に比し、粗く構成すること
も可能である。
In the design drawing, the mark "○" indicating the portion where the running surface side warp intersects with the lower side of the papermaking surface side weft and the mark "△" indicating the running surface side connecting portion are not adjacent in the warp direction. Understand better. In addition, in FIG. 1, as described above, the running surface side connecting portion,
The running surface side weft is not adjacent to the intersection of the running surface side warp above the running surface side warp in the warp direction, but the invention is not limited to this. For example, the binding yarn 3 ″ shown in FIG. The binding yarn 6'is disposed between the surface side weft 2'and the binding yarn 1 ", and the binding yarn 6" is positioned between the papermaking side weft 5'and the binding yarn 4 ".
It is also possible to dispose between the weft yarn 8'on the papermaking side and the binding yarn 7 ", and the binding yarn 12" between the weft yarn 11 'on the papermaking side and the binding yarn 10'. However, with this design, the binding yarns 1 ″ and 3 ″ are formed so as to be exactly adjacent to each other and substantially like one yarn, and are arranged adjacent to one side of the papermaking surface side weft yarn 2 ′. Therefore, the running surface side binding part of the binding yarn 3 ″ and the crossing part where the running surface side weft 11 ′ of the next design drawing intersects above the running surface side warp yarn 1 are substantially adjacent to each other, and the running A part where the surface-side knotted portion and the running surface-side warp knuckle are substantially adjacent to each other in the warp direction occurs, although the warp and weft of the running surface-side fabric are the same as those of the paper-making surface-side fabric in FIG. The warp yarns and the weft yarns of the running surface side fabric may be coarser than the papermaking surface side fabric.

【0025】図2は図1の接結糸のずらし方を少し変え
た織物であり、図1に示した実施例と同様の効果を奏す
る。
FIG. 2 shows a woven fabric in which the binding yarns of FIG. 1 are shifted a little, and has the same effect as that of the embodiment shown in FIG.

【0026】図3は本発明の別の実施例を示す完全意匠
図である。図3は、図1に示した実施例を経糸、緯糸の
本数をそれぞれ2倍にして走行面側緯糸が走行面側経糸
によって下側から織り込まれる部分、意匠図の○印を半
分に減らした組織である。これによって走行面側織物
は、7/1組織となり、走行面側緯糸が走行面側経糸7
本分のロングクリンプを形成することになり、耐摩耗性
が良好である。
FIG. 3 is a complete design diagram showing another embodiment of the present invention. In FIG. 3, the number of the warp yarns and the weft yarns in the embodiment shown in FIG. 1 is doubled, and the running surface side wefts are woven from below by the running surface side warps. It is an organization. As a result, the running surface side woven fabric has a 7/1 design, and the running surface side weft yarn is the running surface side warp 7
A long crimp for the length is formed, and wear resistance is good.

【0027】図4は本発明の織物である図1のA−A線
で切断した横断面図である。製紙面側緯糸2′が平織組
織を形成し、製紙面側経糸1,3の部分で製紙面側緯糸
ナックルが形成されていることが理解され、走行面側緯
糸2′が走行面側に走行面側経糸3本分のロングクリン
プを形成していることが理解される。又、接結糸につい
て見てみると、接結糸1″は製紙面側緯糸2′の手前側
に、接結糸3″は奥側に隣接配置されており、接結糸
1″は製紙面側経糸1の部分で製紙面側経糸2,3,4
の製紙面側経糸3本置きに製紙面側接結部を形成し、製
紙面側接結部の間の走行面側経糸3の部分で走行面側接
結部を形成している。
FIG. 4 is a cross-sectional view of the woven fabric of the present invention taken along the line AA of FIG. It is understood that the papermaking surface side weft 2'forms a plain weave design, and the papermaking surface side weft knuckles are formed at the papermaking surface side warps 1 and 3, and the running surface side weft 2'runs to the running surface side. It is understood that a long crimp corresponding to three face side warps is formed. Further, regarding the binding yarn, the binding yarn 1 ″ is arranged adjacent to the front side of the weft yarn 2 ′ on the paper making side, and the binding yarn 3 ″ is arranged adjacent to the back side. The surface side warp 1 is used to make paper surface side warp 2, 3, 4
The paper-making-surface-side knots are formed every three paper-making-surface-side knots, and the running-surface-side knots are formed by the running-surface-side warp 3 between the paper-making-surface-side knots.

【0028】接結糸3″は製紙面側経糸3の部分で製紙
面側経糸4,1,2の製紙面側経糸3本置きに製紙面側
接結部を形成し、製紙面側接結部の間の走行面側経糸1
の部分で走行面側接結部を形成していることが理解され
る。これによって、接結糸1″が製紙面側経糸1を走行
面側に引き込み、接結糸3″が製紙面側経糸3を走行面
側に引き込むことによって、製紙面側経糸1、製紙面側
経糸3の部分に形成された製紙面側緯糸ナックルを引き
込んで、結果として2本の接結糸1″,3″により全て
の製紙面側緯糸ナックルが引き込まれる。尚且つ、接結
糸1″と3″は同組織なので全てのナックルが同じ力で
引き込まれ、同じ高さに形成されることが理解される。
又、製紙面側経糸2,4が接結糸から受ける影響は、製
紙面側経糸2,4の部分では、どちらも接結糸1″,
3″が走行面側に下がっていく途中であり、、互いに交
差している部分であって、影響をほとんど受けない。
又、受けたとしても、その力は同じである為、製紙面側
経糸2,4も同じ高さに形成されるのである。従って、
全ての製紙面側経糸ナックル、製紙面側緯糸ナックルが
同じ力で走行面側に引き込まれ、接結糸による凹みが全
く無い平滑な製紙面を得ることができる。又、接結部の
数が非常に多い為、接結力も非常に強い。
The binding thread 3 "is a portion of the paper-making surface-side warp 3, and a paper-making-surface-side binding portion is formed at every three paper-making-surface-side warp threads 4, 1 and 2 to form a paper-making-surface-side binding portion. Running surface side warp 1 between parts
It is understood that the running surface side connecting portion is formed at the portion of. As a result, the binding yarn 1 ″ pulls the papermaking surface side warp 1 toward the running surface side, and the binding yarn 3 ″ pulls the papermaking surface side warp 3 toward the running surface side, whereby the papermaking surface side warp 1 and the papermaking surface side The papermaking surface side weft knuckle formed on the warp 3 is pulled in, and as a result, all the papermaking surface side weft knuckles are pulled in by the two binding yarns 1 ″ and 3 ″. Further, since the binding yarns 1 ″ and 3 ″ have the same structure, it is understood that all knuckles are pulled in with the same force and are formed at the same height.
Further, the influence of the binding yarns on the paper-making side warp yarns 2 and 4 is that the binding yarns 1 ″,
3 ″ is on the way down to the running surface side and intersects with each other, and is hardly affected.
Further, even if received, since the force is the same, the papermaking surface side warps 2, 4 are also formed at the same height. Therefore,
All the paper-making-surface-side warp knuckles and the paper-making-surface-side weft knuckles are drawn to the running surface side with the same force, and a smooth paper-making surface free from any dent due to the binding yarn can be obtained. Also, since the number of connecting parts is very large, the connecting force is also very strong.

【0029】図5は、従来の最も良く使用されている走
行面側経糸本数が製紙面側経糸の半分である製紙用二層
織物の横断面図である。製紙面側織物は平織を形成し、
走行面側織物は走行面側に走行面側経糸2本分のロング
クリンプを形成している。図面から理解できる様に製紙
面側緯糸は製紙面側経糸6本で繰り返し単位を構成して
いる。通常、接結糸は製紙面側緯糸2本或いは4本置き
に製紙面側緯糸に1本の接結糸が隣接する様に配置され
る。又、図面から理解されるように繰り返し単位の中で
製紙面側経糸1,3,5の部分で3個の製紙面側緯糸ナ
ックルが形成され、製紙面側接結部は製紙面側経糸1の
部分のみで形成されている。
FIG. 5 is a cross-sectional view of a two-layer paper fabric for papermaking, in which the number of warp yarns on the running surface side, which is the most commonly used, is half that of the warp yarns on the papermaking surface side. The papermaking side fabric forms a plain weave,
On the running surface side, the running surface side fabric has long crimps for two running surface side warps. As can be understood from the drawings, the paper-making surface side weft comprises 6 paper-making surface side warps as a repeating unit. Usually, every two or four weft yarns on the papermaking side are arranged so that one weft yarn is adjacent to the weft yarns on the papermaking side. Further, as can be understood from the drawings, three paper-making surface-side weft knuckles are formed at the paper-making-surface-side warp yarns 1, 3, and 5 in the repeating unit, and the paper-making-surface-side connecting portion has the paper-making surface-side warp 1 It is formed only by the part.

【0030】従って、製紙面側経糸1のみが接結糸1″
により走行面側に引き込まれ、製紙面側経糸1の部分に
形成されている製紙面側緯糸ナックルが引き込まれるの
である。しかし、他の製紙面側経糸3,5は接結糸1″
によっては引き込まれない為、製紙面側経糸1の部分に
形成されている製紙面側緯糸ナックル近傍に凹みが発生
し、結果として製紙面全体に虫食い状の凹みが発生して
ワイヤーマークを発生させてしまう。又、接結糸が少な
く接結糸1本当りの接結部の数も少ない為に、接結力が
小さく、前述した様な内部摩耗等の問題を発生させる。
Therefore, only the warp 1 on the papermaking side is the binding yarn 1 ".
As a result, the weft knuckle on the papermaking side is drawn in on the running surface side, and the weft knuckle on the papermaking side on the papermaking surface side is drawn in. However, the other warp yarns 3 and 5 on the papermaking side are binding yarns 1 ″.
Since it is not drawn in, a dent is formed in the vicinity of the papermaking surface side weft knuckle formed on the papermaking surface side warp 1, and as a result, a worm-like dent is generated on the entire papermaking surface and a wire mark is generated. Will end up. In addition, since the number of binding yarns is small and the number of binding portions per binding yarn is small, the binding force is small and the above-mentioned problems such as internal wear occur.

【0031】図6は、特公平5−77795号に示され
ている製紙用二層織物の横断面図である。本発明と比較
できる様、接結糸を緯糸とした場合の例を使用した。走
行面側経糸本数は製紙面側経糸の半分であり、製紙面側
織物、走行面側織物とも平織組織に形成されている。
又、図面から理解できる様に製紙面側緯糸は、製紙面側
経糸8本で繰り返し単位を構成している。接結糸は、隣
接する2本1組で形成され、1本の製紙面側緯糸の全て
の製紙面側緯糸ナックルの片側の隣接部に製紙面側接結
部が形成される、いわゆる2重ナックルを形成する様に
配置されている。この織物は、このように接結糸を配置
することにより、全ての製紙面側緯糸ナックルを上記2
重ナックルで形成することによって、接結力の合計を接
結部の最大数まで分布させ、これによって各単一の接結
力を最少にして凹みを最少限にすることが目的である。
FIG. 6 is a cross-sectional view of a two-layer fabric for papermaking shown in Japanese Patent Publication No. 5-77795. For comparison with the present invention, an example was used in which the binding yarn was a weft yarn. The number of running surface side warps is half that of the paper making surface side warp, and both the paper making surface side woven fabric and the running surface side woven fabric are formed in a plain weave design.
Further, as can be understood from the drawings, the papermaking surface side weft comprises 8 papermaking surface side warps as a repeating unit. The binding yarns are formed by a set of two adjacent weft yarns, and a papermaking surface-side binding portion is formed at an adjacent portion on one side of all papermaking surface-side weft knuckles of one papermaking surface-side weft yarn. Arranged to form a knuckle. In this woven fabric, by arranging the binding yarns in this way, all the weft knuckles on the papermaking side are
By forming with a heavy knuckle, the purpose is to distribute the total binding force up to the maximum number of bindings, thereby minimizing each single binding force and minimizing the depression.

【0032】しかし、接結糸の組織に重大な問題があ
る。接結糸1″は製紙面側経糸2の部分で製紙面側接結
部を形成し、次いで製紙面側経糸3の下を通ってから、
製紙面側経糸4の部分で製紙面側接結部を形成した後、
走行面側に下がって、走行面側経糸7の部分で走行面側
接結部を形成している。接結糸2″は接結糸1″を製紙
面側経糸4本分ずらした組織であって、製紙面側経糸
6,8の部分で製紙面側接結部を形成している。確かに
製紙面側接結部を形成している製紙面側経糸2,4,
6,8はほぼ同じ力で走行面側に引き込まれ、その上に
形成されている製紙面側緯糸ナックルもほぼ同じ力で引
き込まれて同じ高さに形成される。しかし、製紙面側経
糸1,3,5,7が接結糸から受ける力に問題が有っ
た。製紙面側経糸1と5の部分では接結糸1″,2″は
共に走行面側に下がる途中で互いに交差する部分である
為、それほど影響を受けないのであるが、製紙面側経糸
3,7の部分は接結糸が製紙面側接結部を形成している
間で且つ接結糸が下を通過している部分であって、接結
糸によって上方に押し上げられる部分なのである。すな
わち、製紙面側経糸3は接結糸1″によって、製紙面側
経糸7は接結糸2″によって上方に押し上げられるので
ある。従って、製紙面側経糸1と5は下方に引き込まれ
ないが経糸2と6は下方に引き込まれ、また経糸3と7
は上方に押し上げられるので製紙面側経糸ナックル間に
高低差が発生し、これがワイヤーマーク発生の原因とな
る欠点がある。
However, there is a serious problem in the design of the binding yarn. The binding yarn 1 ″ forms a papermaking surface-side binding portion at the portion of the papermaking surface-side warp yarn 2, and then passes under the papermaking surface-side warp yarn 3,
After forming the paper-making surface-side binding portion at the paper-making surface-side warp 4,
The running surface side warp 7 descends to the running surface side to form a running surface side knot. The binding yarn 2 ″ has a structure obtained by shifting the binding yarn 1 ″ by four paper-making surface-side warps, and the paper-making-surface-side warps 6 and 8 form a paper-making-surface-side binding portion. Certainly, the paper-making surface-side warps 2, 4 forming the paper-making-surface-side binding portion
6 and 8 are pulled in to the running surface side with substantially the same force, and the papermaking surface side weft knuckles formed thereon are also pulled in with substantially the same force to form the same height. However, there is a problem in the force that the warp yarns 1, 3, 5, 7 on the papermaking side receive from the binding yarn. In the papermaking surface side warp yarns 1 and 5, since the binding yarns 1 ″ and 2 ″ intersect with each other on the way to the running surface side, they are not affected so much. The portion 7 is a portion through which the binding yarn passes below while the binding yarn forms the paper-making surface-side binding portion, and is a portion which is pushed upward by the binding yarn. That is, the paper-making side warp 3 is pushed upward by the binding yarn 1 ″, and the paper-making side warp 7 is pushed upward by the binding yarn 2 ″. Therefore, the warp yarns 1 and 5 on the papermaking side are not drawn downward, but the warp yarns 2 and 6 are drawn downward, and the warp yarns 3 and 7 are also drawn.
Since it is pushed upward, a height difference occurs between the warp knuckles on the paper making surface side, which has the drawback of causing wire marks.

【0033】[0033]

【実施例】次に実施例をあげて本発明の効果を従来例と
の比較試験で具体的に示す。
EXAMPLES Next, the effects of the present invention will be concretely shown in comparison tests with conventional examples by showing examples.

【0034】実施例1 製紙面側織物、走行面側織物を表1の材質、線径、密度
の織物とし、接結糸を表1の糸として構成した図1の製
紙用二層織物である。
Example 1 The two-layer papermaking fabric for papermaking shown in FIG. 1 in which the fabric for the papermaking side and the fabric for the running surface are made of the materials, wire diameters and densities shown in Table 1 and the binding yarns are the yarns shown in Table 1. .

【0035】比較例1 表1に示した材質、線径、密度の織物と接結糸で構成し
た図5の製紙用二層織物である。
COMPARATIVE EXAMPLE 1 The two-layer papermaking fabric for papermaking of FIG. 5 which is composed of the fabric, wire diameter and density shown in Table 1 and the binding yarn.

【0036】比較例2 表1に示した材質、線径、密度の織物と接結糸で構成し
た図6の特公平5−77795号に示される製紙用二層
織物である。
Comparative Example 2 A two-layer paper woven fabric for papermaking shown in Japanese Patent Publication No. 5-77795 of FIG. 6 which is composed of woven fabrics having the materials, wire diameters and densities shown in Table 1 and binding yarns.

【0037】[0037]

【表1】 [Table 1]

【0038】(註) *1 シート平滑度;ベック平滑度試験機による紙シー
トの織物サイドの平滑度(秒) *2 剥離強度;巾40mm長さ300mmに織物を切
断して,カッター等で80mm程度の長さを接結糸のみ
を切断して上下織物を分離し、分離した上下織物をそれ
ぞれ、引張試験機のチャックに取付けて引張り、上下網
が剥離する強度を側定 比較試験の結果を表1に示す。以上の比較試験より本発
明の製紙用二層織物は、シート平滑度において従来例に
比し、極めて良好な結果を示し、剥離強度においても、
上下織物が剥離する前に上側織物の製紙面側織物が破断
してしまって剥離強度測定できない程接結力が強く、極
めて優れた密着性、接結力を示した。
(Note) * 1 Sheet smoothness: Smoothness (seconds) of fabric side of paper sheet by Beck's smoothness tester * 2 Peel strength: 80 mm with a cutter etc. after cutting the fabric into width 40 mm and length 300 mm. The upper and lower woven fabrics are separated by cutting only the binding yarn for a certain length, and the separated upper and lower woven fabrics are attached to the chuck of the tensile tester and pulled, and the strength of the upper and lower nets peeling is determined by the side-to-side comparison test results. It shows in Table 1. From the above comparative tests, the two-layer papermaking fabric for papermaking of the present invention shows extremely good results in sheet smoothness as compared with the conventional example, and also in peel strength,
Before the upper and lower woven fabrics were peeled off, the woven fabric on the paper-making side of the upper woven fabric broke, and the binding strength was so strong that the peeling strength could not be measured, and extremely excellent adhesion and binding force were exhibited.

【0039】[0039]

【発明の効果】本発明は、製紙面側織物を平織組織に形
成し、走行面側織物を緯糸摩耗型に形成して、両織物を
接結糸によって一体化した製紙用二層織物であって、接
結糸による接結部の製紙面の凹みがなく、表面が平滑で
あって、紙にワイヤーマークを発生させることがない。
また、接結力が非常に強く、内部摩耗が発生して、製紙
面側織物と走行面側織物の間に間隔が発生したり、シワ
が発生したりすることがない。さらに、接結力が強いた
めに、織物の厚さを薄くして保水性を小さくすることが
でき、水滴を飛び散らすという問題をも解決できた。
Industrial Applicability The present invention is a two-layer papermaking fabric for papermaking in which the papermaking side fabric is formed into a plain weave design, the running face side fabric is formed into a weft wear type, and both fabrics are integrated by binding yarns. In addition, there is no dent on the paper-making surface of the binding portion due to the binding yarn, the surface is smooth, and wire marks are not generated on the paper.
Further, the binding force is very strong, and internal wear does not occur, so that no space is generated between the papermaking side fabric and the running face side fabric, and wrinkles do not occur. Furthermore, since the binding force is strong, the fabric thickness can be reduced to reduce the water retention, and the problem of water droplets being scattered can also be solved.

【図面の簡単な説明】[Brief description of drawings]

【図1】本発明の実施例の完全組織を示す意匠図であ
る。
FIG. 1 is a design diagram showing a complete design of an example of the present invention.

【図2】本発明の他の実施例の完全組織を示す意匠図で
ある。
FIG. 2 is a design diagram showing a complete design of another embodiment of the present invention.

【図3】本発明の他の実施例の完全組織を示す意匠図で
ある。
FIG. 3 is a design diagram showing a complete design of another embodiment of the present invention.

【図4】図1の完全組織をA−A線で切断した横断面図
である。
FIG. 4 is a cross-sectional view of the complete tissue of FIG. 1 taken along the line AA.

【図5】従来例の横断面図である。FIG. 5 is a cross-sectional view of a conventional example.

【図6】特公平5−77795号に示された例の横断面
図である。
FIG. 6 is a transverse sectional view of an example shown in Japanese Patent Publication No. 5-77795.

【符号の説明】[Explanation of symbols]

1 経糸 2 経糸 3 経糸 4 経糸 5 経糸 6 経糸 7 経糸 8 経糸 1′ 緯糸 2′ 緯糸 3′ 緯糸 4′ 緯糸 5′ 緯糸 11′ 緯糸 12′ 緯糸 13′ 緯糸 20′ 緯糸 21′ 緯糸 22′ 緯糸 23′ 緯糸 1″ 接結糸 2″ 接結糸 3″ 接結糸 4″ 接結糸 5″ 接結糸 11″ 接結糸 12″ 接結糸 13″ 接結糸 20″ 接結糸 21″ 接結糸 22″ 接結糸 23″ 接結糸 24″ 接結糸 1 warp 2 warp 3 warp 4 warp 5 warp 6 warp 7 warp 8 warp 1'weft 2'weft 3'weft 4'weft 5'weft 11 'weft 12 'weft 13 'weft 20 'weft 21 'weft 22 'weft 23 'weft 1 ″ binding yarn 2 ″ binding yarn 3 ″ binding yarn 4 ″ binding yarn 5 ″ binding yarn 11 ″ binding yarn 12 ″ binding yarn 13 ″ binding yarn 20 ″ binding yarn 21 ″ binding yarn 22 ″ binding yarn 23 ″ binding yarn 24 ″ binding yarn

フロントページの続き (58)調査した分野(Int.Cl.7,DB名) D21F 1/10 Fターム(4L055)Continuation of front page (58) Fields surveyed (Int.Cl. 7 , DB name) D21F 1/10 F term (4L055)

Claims (8)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 製紙面側経糸と製紙面側緯糸によって平
織組織に織製された製紙面側織物と、走行面経糸と走行
面側緯糸によって走行面側を緯糸のロングクリンプで形
成する緯糸摩耗型に織製された走行面側織物と、製紙面
側経糸の上側と走行面側経糸の下側で交差することによ
り製紙面側織物と走行面側織物とを接結する接結緯糸と
から成る製紙用二層織物において、 各接結緯糸が、1本の製紙面側経糸の上側で交差して形
成する製紙面側接結部を、製紙面側経糸3本置きに形成
し、該製紙面側接結部の各間で走行面側経糸の下側で交
差して走行面側接結部を形成する、製紙面側織物と走行
面側織物を接結する接結緯糸であって、該接結緯糸を全
ての製紙面側緯糸1本に対して2本の割合で隣接配置し
て全ての製紙面側接結部と、製紙面側緯糸ナックルとを
1対1の割合で経糸方向に隣接して形成させた製紙用二
層織物。
1. A paper-making-side fabric woven into a plain weave by a paper-making-side warp and a paper-making-side weft, and weft wear in which the running-side warp and the running-side weft form a running-side long crimp. From the running surface side woven fabric woven in a mold, and the binding weft thread that connects the paper manufacturing side fabric and the running surface side fabric by crossing the upper side of the paper making side warp and the lower side of the running side warp. In a two-layer papermaking fabric for papermaking, each binding weft yarn crosses over one papermaking surface side warp to form a papermaking surface side binding portion at intervals of three papermaking surface side warps. A binding weft yarn that binds a papermaking surface side fabric and a running surface side fabric by forming a running surface side binding part by intersecting under the running surface side warp between each of the surface side binding parts, The binding weft yarns are arranged adjacent to each other at a ratio of one to all the papermaking surface side wefts, and all the papermaking surface side binding portions and the papermaking surface side Two-layer fabric for paper making which is formed adjacent to the warp direction and yarns knuckle at a ratio of 1: 1.
【請求項2】 製紙面側緯糸ナックルが、製紙面側緯糸
が1本の製紙面側経糸の上側で交差して経糸を組織に織
り込むナックルであって製紙面側経糸1本置きに形成さ
れている、請求項1に記載された製紙用二層織物。
2. A papermaking surface side weft knuckle is a knuckle in which a papermaking surface side weft crosses over one papermaking surface side warp and weaves warps into a tissue, and is formed every other papermaking surface side warp. The two-layer fabric for papermaking according to claim 1,
【請求項3】 接結緯糸を製紙面側緯糸の両隣に隣接配
置した、請求項1または2に記載された製紙用二層織
物。
3. A two-layer papermaking fabric for papermaking according to claim 1, wherein the binding weft is arranged adjacent to both sides of the papermaking side weft.
【請求項4】 製紙面側経糸と走行面側経糸、製紙面側
緯糸と走行面側緯糸の本数が同一である、請求項1ない
し3のいずれか1項に記載された製紙用二層織物。
4. A two-layer papermaking fabric for papermaking according to any one of claims 1 to 3, wherein the papermaking side warp and the running side warp are the same in number, and the papermaking side weft and the running side weft are the same in number. .
【請求項5】 走行面側織物が走行面側に走行面側経糸
3本分の走行面側緯糸のロングクリンプを形成する3/
1綾織組織である、請求項1ないし4のいずれか1項に
記載された製紙用二層織物。
5. The running surface side fabric forms a long crimp of running surface side wefts for three running surface side warps on the running surface side 3 /
The two-layer woven fabric for papermaking according to any one of claims 1 to 4, which has a 1-twill weave structure.
【請求項6】 走行面側織物が走行面側に走行面側経糸
7本分の走行面側緯糸のロングクリンプを形成する7/
1組織である、請求項1ないし4のいずれか1項に記載
された製紙用二層織物。
6. The running surface side fabric forms a long crimp of the running surface side weft for the seven running surface side warps on the running surface side.
The two-layer fabric for papermaking according to any one of claims 1 to 4, which has one design.
【請求項7】 走行面側緯糸が走行面側経糸の上側で交
差している交差部と、接結緯糸が走行面側経糸の下側で
交差する走行面側接結部とが経糸方向で隣接せずに配置
された、請求項1ないし6のいずれか1項に記載された
製紙用二層織物。
7. An intersection where the running surface side weft intersects above the running surface side warp and a running surface side binding part where the binding weft intersects below the running surface side warp in the warp direction. The two-layer papermaking fabric for papermaking according to any one of claims 1 to 6, which is arranged not adjacent to each other.
【請求項8】 接結緯糸がポリアミドモノフィラメント
である、請求項1ないし7のいずれか1項に記載された
製紙用二層織物。
8. The two-layer fabric for papermaking according to any one of claims 1 to 7, wherein the binding weft yarn is a polyamide monofilament.
JP27954195A 1995-09-22 1995-09-22 Double layer fabric for papermaking Expired - Fee Related JP3474039B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP27954195A JP3474039B2 (en) 1995-09-22 1995-09-22 Double layer fabric for papermaking

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP27954195A JP3474039B2 (en) 1995-09-22 1995-09-22 Double layer fabric for papermaking

Publications (2)

Publication Number Publication Date
JPH0987990A JPH0987990A (en) 1997-03-31
JP3474039B2 true JP3474039B2 (en) 2003-12-08

Family

ID=17612437

Family Applications (1)

Application Number Title Priority Date Filing Date
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Country Status (1)

Country Link
JP (1) JP3474039B2 (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5709250A (en) * 1994-09-16 1998-01-20 Weavexx Corporation Papermakers' forming fabric having additional fiber support yarns
JP3474042B2 (en) * 1995-10-05 2003-12-08 日本フイルコン株式会社 Two-layer papermaking fabric with auxiliary wefts arranged on the papermaking side fabric
US5937914A (en) * 1997-02-20 1999-08-17 Weavexx Corporation Papermaker's fabric with auxiliary yarns
JP4090587B2 (en) * 1997-09-19 2008-05-28 日本フイルコン株式会社 Industrial fabric
US6112774A (en) * 1998-06-02 2000-09-05 Weavexx Corporation Double layer papermaker's forming fabric with reduced twinning.
JP4584397B2 (en) * 2000-02-24 2010-11-17 日本フイルコン株式会社 2-layer fabric for papermaking
JP4584398B2 (en) * 2000-02-24 2010-11-17 日本フイルコン株式会社 2-layer fabric for papermaking
JP4584402B2 (en) * 2000-03-03 2010-11-24 日本フイルコン株式会社 2-layer fabric for papermaking
JP4450488B2 (en) * 2000-06-12 2010-04-14 日本フイルコン株式会社 2-layer fabric for papermaking
JP2003013384A (en) * 2001-06-29 2003-01-15 Nippon Felt Co Ltd Woven fabric for paper manufacture
US7384513B2 (en) * 2004-11-11 2008-06-10 Albany International Corp. Forming fabrics
JP4573168B2 (en) * 2005-05-26 2010-11-04 日本フイルコン株式会社 Industrial two-layer fabric
JP4570090B2 (en) * 2005-05-19 2010-10-27 日本フイルコン株式会社 Industrial two-layer fabric
JP4684849B2 (en) * 2005-10-28 2011-05-18 日本フイルコン株式会社 Industrial two-layer fabric
EP1991735B1 (en) * 2006-02-25 2014-04-02 Voith Patent GmbH Fabric belt for machine for producing web material, especially paper or card
US8267125B2 (en) * 2010-12-13 2012-09-18 Huyck Licensco Inc. Papermaking forming fabric with long bottom CMD yarn floats

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DE3478319D1 (en) * 1984-06-14 1989-06-29 Oberdorfer Fa F Papermachine cloth
JPS61289195A (en) * 1985-06-17 1986-12-19 日本フイルコン株式会社 Papermaking double fabric
JPS62162091A (en) * 1986-01-09 1987-07-17 日本フイルコン株式会社 Papermaking double fabric
CA1277209C (en) * 1986-11-28 1990-12-04 Dale B. Johnson Composite forming fabric
JPS63145496A (en) * 1986-12-02 1988-06-17 日本フイルコン株式会社 Papermaking multilayer fabric
JP3474042B2 (en) * 1995-10-05 2003-12-08 日本フイルコン株式会社 Two-layer papermaking fabric with auxiliary wefts arranged on the papermaking side fabric

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