JP4187852B2 - 2-layer fabric for papermaking with auxiliary weft arranged on the fabric side - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a papermaking fabric, and more particularly to a papermaking fabric.
[0002]
[Prior art]
The papermaking method is a well-known technique. First, a papermaking raw material containing pulp fibers and the like is formed endlessly from a head box, placed between rolls of a papermaking machine, and supplied onto a running papermaking fabric. The side on which the raw material for the papermaking fabric is supplied is the papermaking surface, and the opposite side is the running surface.
The supplied raw material moves with the traveling of the papermaking fabric, and during the movement, moisture is removed by a dehydrating device such as a suction box or a foil installed on the traveling surface side of the fabric to form a wet paper web. That is, the papermaking fabric functions as a filter and separates pulp fibers and water.
The wet paper formed in this papermaking zone is then transferred to the press zone and the dryer zone.
In the press zone, the wet paper is transferred by a papermaking felt and squeezed together with a papermaking felt by a nip pressure between press rolls, and further moisture is removed.
In the dryer zone, the wet paper is transported by a papermaking canvas and dried to produce paper.
[0003]
Papermaking fabrics are woven with a loom using warps and wefts such as synthetic resin monofilaments. In order to form it endlessly, it is formed endlessly by a known weaving joint, pin seam or the like, or endlessly formed by a bag weaving machine at the stage of weaving.
In the case of bag weaving, the relationship between warp and weft is reversed on the loom and in use.
In this specification, the warp is a yarn extending in the machine direction of the papermaking machine, that is, the fabric traveling direction, and the weft is a thread extending in the cross machine direction of the papermaking machine, that is, the width direction of the fabric.
[0004]
There are more demands than ever for papermaking fabrics, especially papermaking fabrics.
These include improved surface smoothness, prevention of paper wire mark generation, improved papermaking yield, good drainage, wear resistance, dimensional stability, and running stability.
In recent years, with the increase in papermaking speed, the increase in neutral papermaking, the increase in the amount of filler used, and the paper company's cost reduction policy, an early solution to the above demand is strongly desired.
[0005]
When the papermaking speed is increased, the dehydration speed is inevitably increased and the dehydration power is increased. Since the papermaking raw material is dehydrated through the papermaking fabric, moisture is removed through the mesh formed between the yarns of the papermaking fabric. This is the drainage space.
However, not only moisture but also fine fibers and fillers are removed together from the papermaking raw material, and the retention (papermaking yield) decreases. Also, the wet paper that remains on the fabric is pressed against the surface of the paper by the dehydration force, so the yarn is difficult to wet in the part where the yarn is present, and conversely between the meshes where the yarn is not present The wet paper is difficult to get between the meshes, and threads and mesh marks are generated on the surface of the wet paper.
[0006]
Further, since the fibers are more retained between the meshes, the fiber density becomes excessively dense, and the density of the fiber density is also generated. This is called a wire mark or drainage mark.
In addition, if the fiber stays, the drainage decreases and excessive dehydration is required, resulting in a vicious cycle, which affects the paper quality such as paper formation and printing suitability.
In addition, when the wet paper becomes deeper or when the fibers are caught, the wet paper peelability when the wet paper is transferred to the felt also deteriorates. Although it is impossible to eliminate the wire mark completely, in order to make it as small and inconspicuous as possible, the paper-making surface of the fabric must be made fine to improve the fiber support and smoothness.
When the dehydration speed becomes high and the dehydration power becomes strong, naturally, the occurrence of fibers and the occurrence of wire marks become conspicuous, so further improvement is necessary.
Further, since the fibers are oriented in the running direction of the woven fabric, it is very important to improve the fiber support of the weft yarn.
[0007]
Also, excellent drainage is required for good dehydration under high-speed conditions. If it has excellent freeness, the vacuum pressure of dehydration can be suppressed, and the above-mentioned fibers are not trapped or pulled out, the occurrence of wire marks can be eliminated, and the retention can be improved. It is.
In addition, when the paper making speed is increased, water contained in the fabric is scattered by the roll rotating part and the like, and the water spray is generated. It is also required to reduce the water retention of the fabric.
[0008]
On the other hand, the increase in neutral papermaking has further increased the demand for improved wear resistance. Neutral papermaking often uses calcium carbonate as a filler, which severely wears the yarn on the running surface. In addition, excessive dehydration accompanying the increase in papermaking speed and the decrease in freeness due to fiber retention makes the conditions more severe.
In order to improve the wear resistance, measures are taken such as changing the fabric structure to a weft-worn type structure or changing the material of the thread.
[0009]
In general, from the standpoint of improving the wear resistance and maintaining the posture stability of the woven fabric in use, it is preferable to give the weft yarn of the woven fabric a wear resistance action. Naturally, when the warp is worn, the tensile strength is lowered, the dimension of the fabric is increased, and when the warp is worn and cut, the fabric itself is cut and the service life is exhausted.
Attempts have also been made to use polyamide monofilaments with excellent wear resistance in wefts, but this attempt does not improve the structure of the fabric itself, but simply utilizes the properties of the materials used. Thus, the epoch-making effect was not obtained, and on the other hand, the fabric using the polyamide monofilament had a drawback of poor posture stability.
Attempts have also been made to use thick yarn for the weft on the running surface. However, there is a problem in practical use due to the disadvantage that the balance between the warp and the weft is lost, the crimping property is deteriorated and the wire mark is generated. It was.
[0010]
In order to prevent the occurrence of paper wire marks, it is conceivable to increase the number density of warps and wefts and improve the support of the fibers. To that end, it is necessary to reduce the diameters of the warps and wefts.
However, in a well-known warp / single weft / double woven fabric generally used at present, the wear resistance, rigidity, and posture stability are reduced when the wire diameter is reduced.
In this way, the papermaking fabric loses surface properties when the wire diameter is increased in order to improve wear resistance and rigidity, and wire marks are generated on the paper. When the wire diameter is reduced and the number density is increased, the wear resistance and rigidity are lowered, so there is a conflicting problem.
[0011]
In order to solve the above-mentioned problems, an attempt has been made with a woven fabric in which the papermaking surface side and the traveling surface side are configured using separate warp and weft yarns, and the fabrics of both layers are integrated by binding yarns. Yes. In other words, a warp and weft with a small wire diameter are used for the fabric on the paper surface side to form a dense paper making surface, and a warp and weft with a large wire diameter are used for the fabric on the running surface side for running with high wear resistance. A surface is formed.
However, this was not always satisfactory. This is because, in the binding portion where the binding yarn intersects with the yarn on the paper surface side, the binding yarn pulls the paper surface side fabric toward the running surface side, so that a dent is generated on the paper surface side fabric surface, and the paper actually When the paper is drawn, the dent mark is generated as a wire mark so as to be transferred to paper.
[0012]
In addition, if the wire diameter of the binding yarn is reduced or the number of binding yarns is reduced in order to reduce this dent as much as possible, the binding force will be weakened. There is a problem that internal wear occurs between the surface side fabrics and the binding force is weakened, resulting in a gap or separation between the paper surface side fabric and the running surface side fabric. The service life has expired.
By the way, in order to effectively improve the support of the fiber and to produce a good quality paper without generating a wire mark on the paper, it is necessary to support the fiber with a weft.
This is because the pulp fibers generally supplied from the head box onto the papermaking fabric are oriented in the machine direction, that is, the warp direction. By supporting the fiber by dividing the recess between the warp yarns with the weft yarn, the fibers are prevented from staying between the warp yarns.
[0013]
[Problems to be solved by the invention]
In view of the above problems, the present invention is a woven fabric in which the papermaking surface side and the traveling surface side are configured using separate warps and wefts, and the woven fabrics of both layers are integrated by binding yarns. At the intersection of the binding yarn and the yarn on the paper surface side, an attempt is made to provide a paper fabric having no surface dents, good surface smoothness and improved weft fiber support. Is.
[0014]
[Means for Solving the Problems]
The present invention
“1. a paper surface side fabric composed of a paper surface side warp and a paper surface side weft, a traveling surface side fabric composed of a traveling surface side warp and a traveling surface side weft, and an auxiliary weft disposed between the paper surface side wefts, In the two-layer woven fabric for papermaking, the papermaking surface side weft is a repetition of the structure passing through the upper side of three or four continuous papermaking surface side warps and then the lower side of one papermaking surface side warp. Auxiliary wefts are arranged in two pairs to form the individual auxiliary wefts forming the pair alternately on the papermaking surface and pass above the three papermaking surface side warps where the papermaking surface side wefts are continuous. In the case of a structure, it passes through the upper side of three continuous or four papermaking surface side warps, and in the case of a structure that passes the upper side of four continuous papermaking surface side warps, The upper part of the five papermaking surface side warps passes down to the traveling surface side and does not appear on the papermaking surface side. Surface side warp and interwoven with the papermaking side fabric and the running surface side papermaking 2-layer fabric disposed an auxiliary weft papermaking side fabric, which comprises coupling the fabric.
2. The papermaking surface side according to claim 1, wherein two sets of auxiliary wefts form a structure passing through the lower side of one papermaking surface side warp after passing through the upper side of three or four papermaking surface side warps. A two-layer fabric for papermaking with auxiliary wefts arranged on the fabric.
3. The two-layer woven fabric for papermaking in which the auxiliary wefts are arranged on the papermaking surface side woven fabric according to claim 1, wherein a set of two auxiliary wefts forms a structure passing above the upper side of all the papermaking surface side warps.
4). 4. The two layers for papermaking in which the auxiliary wefts are arranged on the paper surface side fabric according to claim 1, wherein the individual auxiliary wefts forming the set are auxiliary wefts of the same structure arranged so as to be shifted from each other by several warps. fabric.
5. The repeating unit of the individual auxiliary wefts forming the pair is twice the repeating unit of the paper-making side wefts, and the two auxiliary wefts cooperate to form two repeating units of the paper-making side wefts on the paper-making side. A two-layer fabric for papermaking, in which auxiliary wefts are arranged on the papermaking surface side fabric according to claim 1, 2, 3, or 4 forming a structure having a length of.
6). The two-layer fabric for papermaking, wherein the running surface side fabric is a weft-wearing type, and auxiliary wefts are arranged on the paper surface side fabric according to claim 1, 2, 3, 4, or 5.
7). 6. A two-layer fabric for papermaking, wherein auxiliary wefts are arranged on the papermaking surface side fabric according to claim 1, wherein the running surface side fabric has a plain weave structure.
8). The two-layer fabric for papermaking, wherein the running surface side warp is a warp weave structure in which two of the running surface side warps are arranged in parallel with the same structure.
".
[0015]
The papermaking surface side fabric of the papermaking fabric of the present invention has a structure in which the papermaking surface side weft passes through the upper side of three or four papermaking surface side warps and then passes under one papermaking surface side warp. It is repetition. Since the papermaking surface side wefts form a long crimp of three or four continuous papermaking surface side warps, the fiber supportability of the wefts is very good. If a crimp longer than this is formed, weft looseness or movement occurs, which is not preferable. When the paper surface side fabric is configured as described above, the paper surface side warp crimp is equivalent to one paper surface side weft (usually called a knuckle), and the paper surface side weft is strongly woven into this knuckle portion. Therefore, a dent occurs in this part, and the crimp on the paper surface side weft protrudes, and a large height difference occurs between the paper surface side warp and the paper surface side weft, so that the same plane cannot be formed and a smooth paper surface is formed. Can't get. In other words, in order to improve the fiber support of the paper surface side weft, it is necessary that the paper surface side weft is positioned above the warp to increase the part that forms the paper surface, but it is simply increased. Then, only the weft will protrude.
[0016]
Therefore, in the present invention, the auxiliary weft is arranged on the paper-making side warp so as to compensate for the dent, thereby improving the smoothness and improving the fiber support of the weft.
Originally, the same plane of the papermaking surface is formed with auxiliary wefts instead of the papermaking surface side warps that should form the same plane as the papermaking surface side wefts.
In addition, since the continuous crimp for 3, 4, or 5 on the paper-making surface side warp is also formed on the auxiliary weft, it is possible to maximize the fiber support of the weft. The papermaking surface is formed substantially only by the yarns in the weft direction.
Further, in the present invention, two auxiliary wefts are formed and arranged in a set, and the individual auxiliary wefts forming the set alternately appear on the papermaking surface, and the portion not appearing on the papermaking surface side falls to the running surface side. The paper surface side fabric and the running surface side fabric were connected to each other by being woven with the running surface side warp.
[0017]
That is, the auxiliary weft according to the present invention has both the original function of the auxiliary weft and the function of the binding yarn. By forming a set of auxiliary wefts in this way, it is possible to arrange auxiliary wefts that are substantially continuous on the papermaking surface side. That is, by forming a structure for one auxiliary weft on the paper-making surface side with a set of two auxiliary wefts, one auxiliary weft can be arranged. In the present invention, a set of two auxiliary wefts is used to form a structure that passes the upper side of the three or four paper-making side warps and then passes the lower side of the one paper-side side fabric. A structure passing through the upper side of the surface side warp is formed. For the former case, which can be interposed one papermaking side warps of between crimp two auxiliary wefts, formed as one auxiliary weft Ri adhesion is good between the auxiliary wefts are arranged In the latter case, the fiber support of the weft is exhibited most efficiently.
[0018]
As described above, in the conventional two-layer papermaking fabric, the binding yarn draws the papermaking surface side fabric toward the running surface side, so that a dent is generated on the surface of the papermaking surface side fabric. The problem of generating the wire mark as a wire mark so as to be transferred onto paper could not be solved.
The conventional binding yarn of a two-layer woven fabric for papermaking has had an adverse effect that it appears in dots at positions where the original yarn does not exist on the papermaking surface side fabric and draws in the papermaking surface to generate a dent. In this case, the auxiliary weft and the binding yarn are the same yarn, and the position where the auxiliary weft appears on the paper surface side and functions as the auxiliary weft is the binding portion. Since it becomes a knot, it does not have an adverse effect like a conventional binding yarn.
[0019]
In the present invention, one of the characteristics is that the force for connecting the paper surface side fabric and the running surface side fabric is strong. In the present invention, there are two binding yarns between the wefts on the paper-making surface side, so that the binding force is stronger than in the case of the conventional one.
Also, conventionally, the number of binding yarns is small, such as the ratio of one binding yarn to four wefts on the paper-making side, whereas it has been woven with a single warp on the paper-making side. In the present invention, since the plurality of paper surface side warps are woven together and drawn, the strength is further increased.
When the binding force is increased, the binding yarn as described above is not entangled between the paper surface side fabric and the running surface side fabric, so that internal wear does not occur, and a gap is generated between the fabrics or separated. The problem of end up does not occur.
[0020]
If the individual auxiliary wefts forming the set are made of auxiliary wefts of the same structure that are shifted by several warps, the force with which each auxiliary weft pulls the fabric on the paper side becomes equal, so the smoothness of the paper surface is good It is preferable.
In addition, if the auxiliary weft is formed so as to be pulled in every repeating unit (repeating unit when the auxiliary weft is formed with one piece) in the portion functioning as the auxiliary weft on the paper-making side, the repeating unit of the weft on the paper-making side Since the papermaking surface can be drawn in the same condition for each repeating unit, which is the smallest unit, the entire papermaking surface can be formed uniformly and smoothly, which is preferable.
[0021]
For example, the repeat unit of each auxiliary weft is double the repeat unit of the weft on the paper side (same as the repeat unit of the auxiliary weft when one auxiliary weft is formed), and each auxiliary weft is on the paper side A structure of one repeating unit of the paper surface side weft is formed, and the two auxiliary wefts cooperate to form an auxiliary weft structure of two repeating units of the paper surface side weft on the paper surface side. To do.
[0022]
The running surface side fabric is not particularly limited, but as described above, a weft wear type structure having good wear resistance is preferable.
However, it is preferable to adopt a plain weave structure when it is required that the net thickness is thin as in the case of tissue production or the like. A warp weave structure may be used in which a plurality of warps are arranged in the same structure.
The density of the number of yarns for the paper surface side fabric is not particularly limited, and the traveling surface side warp and the traveling surface side weft may be ½ or 2/3 of the paper surface side.
However, since the density of the running surface side weft is particularly related to the wear resistance, the same density is preferable. If the amount is too small, the wear resistance is lowered.
[0023]
The yarn used in the present invention can be freely selected depending on the properties desired for the papermaking fabric and is not particularly limited. For example, in addition to monofilament, multifilament, spun yarn, crimped or bulky processed textured yarn, bulky yarn, processed yarn called stretch yarn, mould yarn, or more together thread, etc. that combines and can be used. In addition, the cross-sectional shape of the yarn is not limited to a circle, and a rectangular yarn such as a square shape or a star shape, an elliptical shape, a hollow yarn, or the like can be used . Further, the material of the yarn can be freely selected, and polyester, nylon, polyphenylene sulfide, polyfluorinated vinylidene, polypro, aramid, polyetheretherketone, polyethylene naphthalate, cotton, wool, metal and the like can be used. Of course, you may use the thread | yarn which blended and contained various substances according to the objective to these copolymers or these materials.
[0024]
In general, it is preferable to use a polyester monofilament having rigidity and excellent dimensional stability for the paper surface side warp, the traveling surface side warp, and the paper surface side weft. The auxiliary weft is preferably made of nylon monofilament because the wire diameter is small and shower resistance, fibrillation resistance, and wear resistance against internal wear described above are required. Further, it is preferable to interweave polyester monofilaments and nylon monofilaments on the running surface side wefts that require abrasion resistance, such as by alternately arranging polyester monofilaments and nylon monofilaments, because the abrasion resistance can be improved while ensuring rigidity.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described based on examples with reference to the drawings. 1 , 2 , 3 and 4 are design diagrams showing the complete structure of the embodiment of the present invention. The complete structure is a minimum repeating unit of the woven structure, and this complete structure is connected vertically and horizontally to form the entire structure of the woven fabric. In the design drawing, warps are indicated by Arabic numerals, for example 1, 2, 3, and wefts are indicated by Arabic numerals with dashes, for example, 1 ′, 2 ′, 3 ′. The x mark indicates that the paper surface side warp is located above the paper surface side weft, the? Mark indicates that the running surface side warp is located below the running surface side weft, and? The black square? Indicates that the auxiliary weft is positioned above the paper surface side warp, and the? Indicates that the auxiliary weft is positioned below the running surface side warp.
[0026]
The warp and weft yarns on the papermaking surface side and the running surface side are arranged one above the other. In this embodiment, since the number density is the same, the warp and weft on the running surface side are arranged directly below the warp and weft on the papermaking surface side.
It should be noted that in the design drawing, the warp on the paper surface side and the warp on the running surface side, and the weft on the running surface side are arranged just below the weft, with the yarns accurately overlapping in the vertical direction. In an actual fabric, it may be displaced.
[0027]
Example 1
FIG. 1 is a design diagram showing the complete structure of Example 1 of the present invention.
In the design diagram of FIG. 1, 1, 2, 3, 4, 5, 6, 7, and 8 are warps, and the paper surface side warp and the running surface side warp are arranged vertically.
Reference numerals 3 ', 6', 9 ', 12', 15 ', 18', 21 ', 24' denote wefts, and the papermaking surface side wefts and the traveling surface side wefts are arranged vertically.
1 ', 2', 4 ', 5', 7 ', 8', 10 ', 11', 13 ', 14', 16 ', 17', 19 ', 20', 22 ', 23' are auxiliary wefts 1 'and 2', 4 'and 5', 7 'and 8', 10 'and 11', 13 'and 14', 16 'and 17', 19 'and 20', 22 'and 23' Each form a set.
From the design drawing, it can be seen that the present embodiment is a 16-shaft fabric together with the paper-making surface side fabric and the running surface side fabric. However, the paper surface side fabric and the running surface side fabric itself are 4-shaft fabrics, and two complete structures are arranged vertically and horizontally, for a total of four. Details will be described later.
Auxiliary wefts are arranged in pairs between the paper surface side wefts.
[0028]
First, looking at the paper surface side fabric, the paper surface side weft 12 ′ passes below the paper surface side warp 1, then passes above the paper surface side warps 2, 3, 4, and then the paper surface side warp 5. Passes the lower side, then passes the upper side of the papermaking surface side warps 6, 7, 8 and passes the lower side of one papermaking surface side warp after passing the upper side of three continuous papermaking surface side warps. It can be seen that the organization is repeated twice.
It can be seen that the structure passing through the upper side of one papermaking side weft after passing through the lower side of the three successive papermaking side wefts is repeated twice. The side woven fabric is formed by arranging a total of four of the same complete structure side by side in the vertical and horizontal directions. The papermaking side fabric is a four-shaft fabric when viewed only from the papermaking side fabric.
[0029]
Next, looking at the auxiliary wefts, for example, the auxiliary wefts 13 'are arranged above the paper surface side warps 1, 2, 3 to form a crimp for three paper surface side warps, and the auxiliary wefts 13' an auxiliary weft 14 that form a set 'forms a crimp placed manufactured paper side warp 3 duty above the papermaking side warp 5, 6, 7. Then, the auxiliary wefts 13 'and 14' forming the set cooperate to form a crimp for three paper side warps every other paper side warp, forming a structure substantially equivalent to one auxiliary weft. It is doing. Further, the auxiliary weft 10 'is arranged above the paper surface side warps 8, 1, 2 to form a crimp for three paper surface side warps, and the auxiliary weft 10' forms a set with the auxiliary weft 10 '. The weft 11 ′ is disposed above the papermaking surface side warps 4, 5, 6 and forms a crimp for three papermaking surface side warps.
[0030]
These auxiliary wefts are arranged so as to form crimps on both sides of the portion passing through the lower side of the paper surface side wefts 12 'and the paper surface side warps 1 and 5, which are recessed between the crimps of the paper surface side wefts 12'. Thus, it can be well understood that the recess is filled to smooth the paper-making surface.
Therefore, the auxiliary weft forms a smooth paper-making surface together with the paper-making surface-side weft of the paper-making side fabric, and both the auxiliary weft and the paper-making side weft form a long crimp in the weft direction, thereby supporting the fiber in the weft direction. Is very good.
The papermaking surface is formed of yarns in the weft direction.
[0031]
Further, the paper surface side fabric and the traveling surface side fabric are connected by passing the lower side of the auxiliary weft 13 'traveling surface side warp 6 below the auxiliary weft 14' traveling surface side warp 2, and the binding yarn is connected. It is functioning as.
In addition, the auxiliary wefts 13'14 'are also formed with a crimp passing through the upper side of the three papermaking side warps, passing under the one running side warp, and are offset from each other by four warps. It can be seen that this is an auxiliary weft of the same structure.
[0032]
Further, the auxiliary weft structure formed substantially in cooperation with the auxiliary weft yarns 13 'and 14' on the paper-making surface side is formed with every other three warp yarns on the paper-making surface side. The repeating unit is formed by four paper side warps and the length of the repeating unit is the same as the repeating unit of the paper side fabric (when viewed from the paper side fabric only). I understand.
Therefore, since each auxiliary weft is pulled in every repeating unit of the paper surface side fabric with the same force, the paper surface is pulled in the same condition for every minimum unit, and the entire paper surface is formed uniformly and smoothly. it can.
Next, looking at the running surface side fabric, it can be seen that the running surface side weft is a weft wear type in which the traveling surface side weft forms a crimp of three running surface side warps on the running surface side, and has good wear resistance.
However, it is preferable to adopt a plain weave structure when it is required that the net thickness is thin as in the case of tissue production or the like.
For example, in Example 1, a plurality of warp yarns 1, 2, warp yarns 3, 4, warp yarns 5, 6, warp yarns 7, 8 are arranged in the same structure to form a plain weave texture.
[0033]
Example 2
FIG. 2 is a design diagram showing the complete structure of Example 2 of the present invention.
In this embodiment, the arrangement of the upper layer fabric and the lower layer fabric is the same as that of the first embodiment. The relationship between the yarn and the code is the same, only the texture of the auxiliary weft is different.
In Example 1, the auxiliary weft formed a crimp for three upper layer warps on the paper making surface side, whereas the auxiliary weft of this example formed a crimp for four upper layer warp on the paper making surface side. It is.
In addition, a crimp is formed on the upper side of all the papermaking side warps with two auxiliary wefts. The fiber support in the weft direction is better than that of Example 1.
[0034]
By the way, unlike the case of the present embodiment, in Example 1 described above, the portions where the individual auxiliary wefts forming the set intersect each other are not the same mesh (between the same warps) but are spaced by one warp. In addition, since the portion that does not appear on the papermaking side at the bottom of the upper layer warp crimp, the portion that appears on the papermaking side and forms the crimp tends to be located at the center between the upper wefts slightly crossing each other. In this case, one auxiliary weft is arranged at a substantially central position between the upper wefts. Therefore, there is an advantage that uniform fiber supporting property, the filtrate water space obtained. Whether the pattern of Example 1 or the pattern of Example 2 is adopted can be freely selected according to the characteristics required for the papermaking fabric.
[0035]
Example 3
FIG. 3 is a design diagram showing the complete structure of Example 3 of the present invention.
In the present embodiment, four papermakings in which auxiliary wefts are continuous in a structure passing through the upper side of four papermaking surface side warps after passing through the upper side of one papermaking surface side warp. Forms a structure passing through the upper side of the surface side warp, passing through the upper side of the four paper surface side warps continuous with two sets of auxiliary wefts, and then passing under the one paper surface side warp This is an example. The entire fabric has 20 shafts.
[0036]
Example 4
FIG. 4 is a design diagram showing a complete structure of Example 4 of the present invention.
In this embodiment, the papermaking surface side weft passes through the upper side of the four papermaking surface side warps and then passes through the lower side of one papermaking surface side warp. This is an embodiment in which a structure passing through the upper side of the surface side warp and forming a structure passing through the upper side of all the paper surface side warp with a set of two auxiliary wefts. The entire fabric has 20 shafts.
[0037]
【The invention's effect】
Even if the two-layer fabric for papermaking of the present invention is a woven fabric in which the upper layer and the lower layer are composed of separate warps and wefts as described above and the fabrics of both layers are integrated, the surface of the upper layer fabric is Smooth, excellent weft and auxiliary weft fiber support, can produce smooth paper without wire marks, strong binding force, and can respond to high papermaking speed Is played.
[Brief description of the drawings]
FIG. 1 is a design diagram showing a complete structure of Example 1 of the present invention.
FIG. 2 is a design diagram showing a complete structure of Example 2 of the present invention.
FIG. 3 is a design diagram showing a complete structure of Example 3 of the present invention.
FIG. 4 is a design diagram showing a complete structure of Example 4 of the present invention.
[Explanation of symbols]
1, 2, 3, 4, 5, 6, 7, 8, 9, 10 Warp 3'6 ', 9', 12 ', 15', 18 ', 21', 24 ', 27', 30 'weft 1 ', 2', 4 ', 5', 7 ', 8', 10 ', 11', 13 ', 14', 16 ', 17', 19 ', 20', 22 ', 23', 25 ', 26 ', 28', 29 'auxiliary weft

Claims (8)

A papermaking side fabric comprising a papermaking surface side warp and a papermaking surface side weft, a paper surface side fabric comprising a traveling surface side warp and a traveling surface side weft, and an auxiliary weft disposed between the papermaking surface side wefts. In the two-layer fabric, the weft of the paper-making side is a repetitive structure in which the paper weft-side weft passes through the upper side of three or four consecutive paper-making side warps and then passes under the one paper-making side warp In the case of a structure in which the two auxiliary wefts forming a set are alternately arranged, and the individual wefts forming the set alternately appear on the papermaking surface, and the papermaking surface side wefts pass through the upper side of the three papermaking surface side warps In the case of a structure passing through the upper side of four continuous papermaking side warps and passing through the upper side of four continuous papermaking side warps, the four or five continuous papermaking side warps The upper part of the paper surface side warp passes through the upper side of the paper surface and does not appear on the paper surface side. Yarns and interwoven with the papermaking side fabric and the running surface side papermaking 2-layer fabric disposed an auxiliary weft papermaking side fabric, which comprises coupling the fabric. The papermaking surface side according to claim 1, wherein two sets of auxiliary wefts form a structure passing through the lower side of one papermaking surface side warp after passing through the upper side of three or four papermaking surface side warps. A two-layer fabric for papermaking with auxiliary wefts arranged on the fabric. The two-layer woven fabric for papermaking in which the auxiliary wefts are arranged on the papermaking surface side woven fabric according to claim 1, wherein a set of two auxiliary wefts forms a structure passing above the upper side of all the papermaking surface side warps. 4. The two layers for papermaking in which the auxiliary wefts are arranged on the paper surface side fabric according to claim 1, wherein the individual auxiliary wefts forming the set are auxiliary wefts of the same structure arranged so as to be shifted from each other by several warps. fabric. The repeating unit of the individual auxiliary wefts forming the pair is twice the repeating unit of the paper-making side wefts, and the two auxiliary wefts cooperate to form two repeating units of the paper-making side wefts on the paper-making side. A two-layer fabric for papermaking, in which auxiliary wefts are arranged on the papermaking surface side fabric according to claim 1, 2, 3, or 4 forming a structure having a length of. 6. A two-layer fabric for papermaking, wherein the running surface side fabric is a weft-wearing type, and auxiliary wefts are arranged on the paper surface side fabric according to claim 1, 2, 3, 4, or 5. 6. A two-layer fabric for papermaking in which auxiliary wefts are arranged on the paper surface side fabric according to claim 1, wherein the running surface side fabric has a plain weave structure. The two-layer fabric for papermaking, wherein the running surface side warp is a warp weave structure in which two of the running surface side warps are arranged in parallel with the same structure.

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