The present application relates to the technical field of engineering textiles.
The main process flow of paper manufacturing comprises paper forming, pressing (including wiping, vacuum and dehydration) and drying. In the drying process, wet paper sheet is sandwiched between the dryer web and the drying cylinder, the wet paper on the surface of the drying cylinder is exerted a certain amount of pressure by the dryer web, the fibers in the wet paper layer form a larger contact area with the surface of the drying cylinder under the pressure of the dryer web, and under the action of the high temperature and pressure of the surface of drying cylinder, the moisture in wet paper sheet is rapidly evaporated to reach the purpose of page drying. With the development of papermaking technology, paper machine manufacturers have successfully invented the shoe-type press technology. This technology can successfully expand the press area of paper machine to 20 times the original, the pressure area can reach more than 100 mm, the paper machine speed can reach 3,000 m/min, while the speed of the paper machine is improved, the requirement of the manufacturing technology of the dryer web is also improved correspondingly.
When the paper machine runs at a high speed, that is, when the machine runs at a speed over 800/minute, any defect on the surface of the dryer web will have an impact on the paper sheet, resulting even rupture of the paper sheet and stopping the machine. Especially in single-hung or single-row dryer parts of the first group and the second group in the paper machine, where the moisture of the wet paper layer is larger and the paper sheet is extremely easy to break. The existing dryer webs are single-layer fabrics that often run off an upper surface due to a yarn ends, resulting in the waste of tons of paper and significant waste.
In addition, because of the unreasonable structure, sometimes the tension of the web edge and the tension of the web body are often inconsistent. When the tension is too loose or too tight, the normal operation of the paper machine and the drying effect of the paper sheet will be affected, and even the edge of the paper will be damaged or broken, leading to premature disembarkation of the dryer web, seriously affecting the production and resulting in economic losses. The existing structure of dryer webs for paper manufacturing, some have only one layer, some have two layers, but since the upper and lower layer of the structure are different and have no complementarity, the overall structure is of poor consistency, the structural stability is poor, at the same time, it is very easy to produce stress concentration, so as to break or destroy the surface quality of paper.
Moreover, in the process of paper drying, the paper must be kept flat, but the dryer section of the paper machine requires that dry web must have terminal seams, some of the seams are not smooth, resulting in seam traces, as well as a “seersucker” and other convex and uneven paper disease. In the installation process, if the tension consistency of the seam loops is poor, which can also cause the crease of the dry web and affect the quality of papermaking. The air permeability of the dry web seam is too large or too small, which will also lead to paper breakage in high speed operation and affect papermaking efficiency of the paper machine.
At present, the common designs of the dry webs in the market are divided into two categories. The first category is that the warp yarn system is in an upper and lower penetrating direction and interlace with the weft yarn system to form a woven texture; the second category is that the warp yarn system is an upper and lower of the tape yarn design, warp yarn system of the upper flat yarns interlace with the weft yarn system on the upper layer; warp yarn system of the lower flat yarns interlace with the weft yarn system on the lower layer.
In the dryer web seam, whether it is the pin loop seam or the spiral loop seam, all the warp yarns after being return-plugged form a 4-row butted breakpoints in the cross direction (CD) on the back of the dryer web. The yarn ends of these butted breakpoints, as the damaged paper sheet will be wrapped around the drying cylinder or guide roller in the operational process of dryer web, resulting in an excessive local stress and that dryer web will be over-stretched. The butted breakpoints on the back of the part of the over-stretched dryer web will return to the front of the dryer web, resulting the paper sheets to be scratched and forming holes in the surface of the paper sheets. In the paper-making market in Korea, some papermakers once returned the purchased dryer webs due to such defects on paper sheets, which causes huge losses to paper providers and dryer web providers.
All these kinds of things happen frequently in the existing technology, people are trying to find solutions, but they have never been completely solved, which has seriously affected the quality of paper making and the improvement of efficiency. As the rejection rate is high, the production cost is greatly increased.
The main technical problem solved by the present application is to provide an industrial fabric for the problems existing in the prior art. Through the improvement of the structure of the industrial fabric, the industrial fabric has the advantages of stable structure and good overall consistency, does not deform easily, and is durable, and improves the quality and the strength of the fabric, such that the quality and efficiency of paper making are guaranteed, the rejection rate is reduced, and the cost is greatly reduced. The industrial fabric is especially suitable for the papermaking dryer web, can also serve as a conveyor belt, and is widely applied to the industries such as paper making, chemical engineering, medicine and machinery.
The technical scheme of the application is as follows: an industrial fabric which is a web woven from warp yarns made of monofilaments and weft yarns made of monofilaments, wherein, the structure or texture of the warp yarns are of a double-layer structure, i.e., an upper layer in which upper layer warp yarns interlace with the weft yarns, and a lower layer in which lower layer warp yarns interlace with the weft yarns, wherein the upper layer warp yarns do not intersect with the lower layer warp yarns; one of warp yarn basic units comprises four sub-units, wherein two sub-units being located on the upper layer, the other two sub-units being located on the lower layer, the warp yarns on the upper layer and the warp yarns on the lower layer are vertically overlapped, wherein at least two sub-units comprise two parallel narrow warp yarns; and wherein the warp yarns have flat cross-sections respectively;
upper warp yarns and lower warp yarns, namely front warp yarns and back warp yarns, are identical in texture structure, or one surface is identical to the other surface after rotating by 180 degrees.
Preferably, the web is of a web with ends.
Preferably, the seam structure of the web with ends is a pin loop seam or a spiral loop seam.
Preferably, the cross-section of the warp yarns is rectangular.
Preferably, the double-layer structure is that: one sub-unit of upper warp yarns has two parallel narrow warp yarns and the other sub-unit also has two parallel narrow warp yarns; one sub-unit of lower warp yarns has two parallel narrow warp yarns and the other sub-unit also has two parallel narrow warp yarns; two narrow warp yarns of the upper sub-unit and two narrow warp yarns of the lower sub-unit are vertically overlapped.
Preferably, the double-layer structure is that one sub-unit of upper warp yarns has one wide warp yarn and the other sub-unit has two narrow warp yarns; one sub-unit of lower warp yarns has two narrow warp yarns and the other sub-unit has one wide warp yarn; one wide warp yarn on the upper layer and two narrow warp yarns on the lower layer are vertically overlapped, the width of the wide warp yarn is 0.6-1.5 times the sum of the widths of the two narrow warp yarns; two narrow warp yarns on the upper layer and one wide warp yarn on the lower layer are vertically overlapped, the width of the wide warp yarn is 0.6-1.5 times the sum of the widths of the two narrow warp yarns.
Preferably, the double-layer structure is that one sub-unit of upper warp yarns has one wide warp yarn and the other sub-unit has two narrow warp yarns; one sub-unit of lower warp yarns has two narrow warp yarns and the other sub-unit has one wide warp yarn; one wide warp yarn on the upper layer and one wide warp yarn on the lower layer are vertically overlapped; two parallel narrow warp yarns on the upper layer and two parallel narrow warp yarns on the lower layer are vertically overlapped.
Preferably, the double-layer structure is that the cross-section of the web has the following arrangement sequence: upper warp yarns in warp yarn sub-units have two wide warp yarns and four narrow warp yarns, the corresponding lower warp yarns have four narrow warp yarns and two wide warp yarns; or upper warp yarns have three wide warp yarns and six narrow warp yarns, the corresponding lower warp yarns have six narrow warp yarns and three wide warp yarns.
Preferably, the cross-section of weft yarns is circular or rectangular, of which the diameters or thicknesses are the same or different to each other.
The monofilaments are made of polymeric resins.
Preferably, the polymeric resins comprise one or more of polyester monofilaments, PPS monofilaments, PEEK, PCTA and nylon monofilaments.
The positive effect of the application is that: compared with the prior art, the problem existing in the prior art is well solved. Through the improvement of the structure of the industrial fabric, the industrial fabric has the advantages of stable structure and good overall consistency, does not deform easily, and is durable. The upper surface is good in flatness, the surface is free from defects, and the quality and intensity of the fabric are improved, such that the quality and efficiency of paper making are guaranteed, the rejection rate is reduced, and the cost is greatly reduced.
With the reasonable configuration of warp yarn units, the present application ensures that front warp yarns and back warp yarns are identical in texture structure, or one surface is identical to the other surface after rotating by 180 degrees. Compared with the traditional design with different back and front textures, the present application can effectively eliminate the stress difference caused by the difference of the front and back textures, improve the consistency of the web texture remarkably, and obtain the smoother and flatter surface of the web.
With the use of independent upper and lower structure, the upper and lower warp yarns will never intersect with each other, and the plugging connector will always remain on the machine surface without penetrating the web body to the sticker surface and damaging the page sheets. The introduction of parallel double warp yarn units, compared with a single wide warp yarn, the parallel double narrow warp yarns with the same total width, which can provide more warp and weft interweave points and effectively improve the latitudinal stability of the web. The flexible plug-in scheme or combination can be obtained, at the same time, the additional filling-yarns in the seam loops can be added to reduce the gap in the seam area and avoid the occurrence of paper prints while ensuring the convenience of accessing to the web.
The present application is especially suitable for the paper making dryer web, can also serve as a conveyor belt, and is widely applied to the industries such as paper making, chemical engineering, medicine and machinery.
The following embodiments are described in detail with reference to the accompanying drawings, but are not intended to limit the present application.
In order to describe clearly, the same numbers or letter numbers are used for the same elements in the figures. The L and R with arrows in the figure represent the left and right sides of the fabric, respectively, only for the convenience of the reader to identify the corresponding relationship in the figures.
The dryer web described in the present application is a double-layer structure with warp yarns texture, i.e., an upper layer in which upper layer warp yarns interlace with the weft yarns, and a lower layer in which lower layer warp yarns interlace with the weft yarns, and the upper layer warp yarns do not intersect with the lower layer warp yarns. The warp yarns in all warp yarn textures have noncircular or generally rectangular cross-sections. The cross-section of weft yarns can be circular or rectangular or any other shape. Weft yarns of different sizes can be applied to the present fabric at the same time.
The dryer web fabric in the present application is made of monofilaments and woven according to the designed texture structure. In the design of dryer web fabrics, different synthetic polymer resin monofilaments are selected according to different paper machines, different paper types and the special needs of different users. Commonly used monofilaments include polyester monofilaments and PPS monofilaments, other materials include polymers such as PEEK, PCTA, nylon and the like. Two or more different types of monofilament can be selected for warp yarns, and two or more different types of monofilament can also be selected for weft yarns.
The front and the back texture of the present application are exactly the same, or the front texture is identical to the back texture after being rotated by 180 degrees, so that both the front side and the back side can be used as the sticker surface.
The double-layer structure is that one sub-unit of upper warp yarns has one wide warp yarn and the other sub-unit has two narrow warp yarns; one sub-unit of lower warp yarns has two narrow warp yarns and the other sub-unit has one wide warp yarn; one wide warp yarn on the upper layer and two narrow warp yarns on the lower layer are vertically overlapped, the width of the wide warp yarn is 0.6-1.5 times the sum of the widths of the two narrow warp yarns; two narrow warp yarns on the upper layer and one wide warp yarn on the lower layer are vertically overlapped, the width of the wide warp yarn is 0.6-1.5 times the sum of the widths of the two narrow warp yarns.
That is, one sub-unit of upper warp yarns is a wide warp yarn 4t with a rectangular cross-section, the other sub-unit is two parallel narrow warp yarns 1t, 2t with a rectangular cross-section; one sub-unit of lower warp yarns is two parallel narrow warp yarns 5b, 6b with a rectangular cross-section, the other sub-unit is a wide warp yarn 3b with a rectangular cross-section. The four warp yarn sub-units are woven in accordance with the texture diagram in Table 2 to form dryer web fabrics and are alternately arranged in the entire web.
It can also be seen from
The double-layer structure is that: one sub-unit of upper warp yarns has two parallel narrow warp yarns and the other sub-unit also has two parallel narrow warp yarns; one sub-unit of lower warp yarns has two parallel narrow warp yarns and the other sub-unit also has two parallel narrow warp yarns; two parallel narrow warp yarns of the upper sub-unit and two parallel narrow warp yarns of the lower sub-unit are vertically overlapped.
That is, one sub-unit of upper warp yarns is two parallel warp yarns 11t, 12t with a rectangular cross-section, the other sub-unit is two parallel narrow warp yarns 13t and 14t with a rectangular cross-section; one sub-unit of lower warp yarns is two parallel narrow warp yarns 15b, 16b with a rectangular cross-section, the other sub-unit is two parallel narrow warp yarns 17b, 18b with a rectangular cross-section. The warp yarns in the 4 sub-units are woven in accordance with the texture diagram in Table 1 to form dryer web fabrics and are alternately arranged in the entire web.
It can also be seen from
In the third embodiment of the present application, one sub-unit of upper warp yarns is a wide warp yarn with a rectangular cross-section, the other sub-unit is two parallel narrow warp yarns with a rectangular cross-section; one sub-unit of lower warp yarns is two parallel narrow warp yarns with a rectangular cross-section, the other sub-unit is a wide warp yarn with a rectangular cross-section. Wherein one wide warp yarn on the upper layer and one wide warp yarn on the lower layer are vertically overlapped, and the widths of the upper wide warp yarns and lower wide warp yarns are basically the same.
the double-layer structure is that the cross-section of the web has the following arrangement sequence: upper warp yarns in warp yarn sub-units have two wide warp yarns and four narrow warp yarns, the corresponding lower warp yarns have four narrow warp yarns and two wide warp yarns (not shown)
the double-layer structure is that the cross-section of the web has the following arrangement sequence: upper warp yarns in warp yarn sub-units have three wide warp yarns and six narrow warp yarns, the corresponding lower warp yarns have six narrow warp yarns and three wide warp yarns (not shown).
Number | Date | Country | Kind |
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2015 1 0265257 | May 2015 | CN | national |
This is a continuation of International Application PCT/CN2015/093035, with an international filing date of Oct. 28, 2015, which International Application claims priorities from Patent Application No. 201510265257.4 filed in The People's Republic of China on May 22, 2015.
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International Search Report (Form PCT/ISA/210) dated Jan. 21, 2016, by the State Intellectual Property Office of People's Republic of China in corresponding International Application No. PCT/CN2015/093035 and English Translation. (9 pages). |
Number | Date | Country | |
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20180094366 A1 | Apr 2018 | US |
Number | Date | Country | |
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Parent | PCT/CN2015/093035 | Oct 2015 | US |
Child | 15821046 | US |