RU2482232C1 - Grill for reinforcement - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: grill comprises vertical and horizontal weft reinforcing high-module threads, which form cells of rectangular shape, threads of soil "cord" structure and a binding thread. The "cord" structure soil thread covers vertical weft threads and fixes horizontal weft threads, and the binding thread of soil is connected to threads of the "cord" structure soil. The total length of the grill L contains several repeats, location of horizontal weft threads in which is determined by mathematical relation.

EFFECT: improved shape stability of a grill with simultaneous reduction of relative extension along a vertical line due to reliable fixation of vertical weft threads, which twist around a structure "closed tricot" laps, ability to perceive higher loads in the specified zones of each repeat due to uneven laying of horizontal weft threads, providing for alternate specified flexibility along the entire length of a grill.

5 cl, 2 dwg, 1 tbl, 4 ex

Description

The invention relates to gratings for reinforcement and can find application in shipbuilding, aviation, automotive and other sectors of the economy, including in the manufacture of products of complex configuration.

It is known that in the production of reinforced structural materials, various types of reinforcement are used to improve their strength characteristics. The following types of reinforcement:

- reinforcement in the transverse direction across the entire width;

- reinforcement in the longitudinal direction along the entire length;

- reinforcement in the transverse and longitudinal directions along the entire width and length;

- discrete reinforcement by pieces of thread or fibers randomly located in the matrix of the composite material.

From patent US 6706376, CL ВВВ 7/02 (03/17/2000), a lattice is known that consists of a chain of vertical and horizontal reinforcing high-modulus synthetic weft threads intersecting at right angles and fastened together with soil strands. The load-bearing vertical and horizontal weft gratings are made of high-modulus polyester fibers, for example polyamide, and the strands of ground weave are made from less durable raw materials.

The described lattice can then be filled with a soft plastic material, for example a bitumen emulsion or rubber. Vertical weft yarns are combined into groups containing at least two yarns, each of which is encircled by a fixing ground weaving thread chain. The additional combining thread has a zigzag position to prevent the vertical weft threads from moving in the transverse direction. Also, the lattice may have a non-woven substrate, which is attached to the lattice using ground filaments on a rachel machine.

A drawback of the existing grating for reinforcement is that pound yarns, wrapping around vertical weft yarns, do not provide its reliable fixing and the weft yarns can be freely extended. Also, laying of ground filaments is carried out in one direction, and this leads to a zigzag structure and indirectness of the vertical weft threads and, consequently, to an increase in the relative elongation when a load is applied along the vertical weft threads. The flexibility of such a lattice is the same over its entire length and width.

The technical result of the invention is to eliminate the disadvantages of the prototype, namely, providing a set of properties: improving the shape stability of the lattice while reducing the relative elongation vertically due to the reliable fastening of the vertical weft threads, which entwine the broaches of the weave in a closed leotard; the ability to absorb large loads in the specified areas of each rapport due to the uneven laying of horizontal weft threads, thus providing a variable set flexibility along the entire length of the grate.

The task is achieved by the fact that in the grating for reinforcement, consisting of vertical and horizontal weft reinforcing high-modulus threads, forming rectangular cells, weave threads of the chain weave and binder threads, and the weave of the soil chain covers the vertical weft threads and fixes the horizontal weft threads, and soil binder is connected to the weave soil threads chain, according to the invention, the total lattice length L consists of several rapports m, the horizontal arrangement GOVERNMENTAL weft yarns which define the relationship:

where R _B is the height of the rapport, mm;

In - the height of the loop, mm;

P ₁ - the number of rows of the first plot of rapport, pcs .;

d is the step with which the number of rows of each subsequent rapport section changes;

n is the number of plots in rapport, pcs.

Moreover, the vertical and horizontal weft reinforcing yarns are made of high-modulus complex polyester monofilaments with a strength of at least 0.5 kN, and the weaving soil of the weave chain and the ground filament are made of polyester yarns. In this case, the soil connecting thread is made by weaving a closed leotard. Moreover, vertical weft reinforcing high-modular complex monofilaments wrap a closed leotard of polyester yarns on the weave of binder ground, and an open chain forms plated loops together with loops of a weave ground of a closed tricot through a row in one loop column with a shift of one row in the adjacent loop post.

, что обеспечивает в целом вместе с использованием уточных усилительных нитей из высокомодульных комплексных полиэфирных мононитей с прочностью не менее 0,5 кН и нитей грунта из полиэфирных нитей достижение технического результата, указанного выше при известности переплетений.An essential feature of the claimed technical solution is the mutual arrangement of the threads forming the lattice, including the formation of rapports m with the location of the horizontal weft threads, determined by the dependence

, which ensures, in general, together with the use of weft reinforcing threads from high-modulus complex polyester monofilaments with a strength of at least 0.5 kN and soil threads made of polyester threads, achieving the technical result indicated above when the weaves are known.

The figure 1, a shows a General view of the lattice, where L is the total length of the lattice, mm, K is the total width of the lattice, mm, R _in - the height of the rapport of the lattice, mm. The total lattice length L is calculated by the formula: L = R _in × m, where m is the number of rapports in the lattice.

The figure 1, b shows the rapport of the lattice, where R _in - the height of the rapport of the lattice, mm, R _W - the width of the rapport of the lattice, mm, B - the height of the loop series, mm, x _i - the height of the i-th section of the rapport, mm, P _i - the number of rows of the i-th section of the rapport. The vertical 1 weft threads intersect with the horizontal 2 weft threads, are fixed in the lattice structure by an open chain 3 system of ground weave threads and a closed tricot of binder 4. Broaches 5 weave closed leotards entwined with vertical 1 weft threads.

. Общая длина решетки L составляет 5000 мм, общая ширина решетки - 1000 мм, высота раппорта - 500 мм, высота первого участка раппорта - 50 мм, шаг d, с которым изменяется число рядов каждого последующего участка раппорта, - 1. Поверхностная плотность раппорта решетки шириной 20 мм, длиной 500 мм равняется 30,45 г. Вертикальные и горизонтальные уточные усилительные нити выполнены из высокомодульных комплексных полиэфирных мононитей с прочностью 0,5 кН. Прочность раппорта решетки на высоком участке составляет 11000 кН, в середине раппорта - 5500 кН, на маленьком участке - 1833,30 кН.Example 1. The warp knitting lattice for reinforcement was produced by the warp knitting method by weaving, open chain weaving and closed leotard with vertical and horizontal weft high modulus complex polyester monofilaments of linear density 440 tex. As a ground weave, an open chain was used polyester yarn with a linear density of 11.2 tex. The lattice cells are filled with open chain and closed tights weave systems. The lattice is made on a knitting machine of class 6 and is formed by knitting ground yarns and simultaneously laying vertical weft threads along the loop stitches with a rapport of 20 mm and horizontal weft threads, the location of which is determined taking into account the dependence by the formula

. The total length of the lattice L is 5000 mm, the total width of the lattice is 1000 mm, the height of the rapport is 500 mm, the height of the first section of the rapport is 50 mm, the step d with which the number of rows of each subsequent section of the rapport is changed is 1. The surface density of the rapport of the lattice is wide 20 mm, a length of 500 mm is 30.45 g. Vertical and horizontal weft reinforcing threads are made of high-modulus complex polyester monofilaments with a strength of 0.5 kN. The strength of the lattice rapport in a high section is 11000 kN, in the middle of the rapport - 5500 kN, in a small section - 1833.30 kN.

. Общая длина решетки составляет 10000 мм, общая ширина решетки - 1000 мм, высота раппорта - 1000 мм, высота первого участка раппорта - 30 мм, шаг d, с которым изменяется число рядов каждого последующего участка раппорта, - 2. Поверхностная плотность раппорта решетки шириной 50 мм, длиной 1000 мм равняется 290,45 г. Вертикальные и горизонтальные уточные усилительные нити выполнены из высокомодульных комплексных полиэфирных мононитей с прочностью 0,5 кН. Прочность раппорта решетки на высоком участке составляет 9000 кН, в середине раппорта - 4500 кН, на маленьком участке - 1500 кН.Example 2. The warp knitting lattice for reinforcement was produced by the warp knitting method by weaving, open chain weaving and closed tights with vertical and horizontal weft high modulus complex polyester monofilaments of linear density 900 tex. As ground weave, an open chain was used polyester yarn with a linear density of 16.7 tex. The lattice cells are filled with open chain and closed tights weave systems. The lattice is made on a knitting machine of class 6 and is formed by knitting ground yarns and simultaneously laying vertical weft yarns along the loop stitches with a rapport of 50 mm and horizontal weft yarns, the location of which is determined taking into account the dependence by the formula

. The total length of the grating is 10,000 mm, the total width of the grating is 1000 mm, the height of the rapport is 1000 mm, the height of the first section of the rapport is 30 mm, the step d, with which the number of rows of each subsequent section of the rapport is changed, is 2. The surface density of the rapport of the lattice is 50 wide mm, length 1000 mm equals 290.45 g. Vertical and horizontal weft reinforcing threads are made of high-modulus complex polyester monofilaments with a strength of 0.5 kN. The strength of the rapport of the lattice in the high section is 9000 kN, in the middle of the rapport - 4500 kN, in the small section - 1500 kN.

. Общая длина решетки составляет 10000 мм, общая ширина решетки - 1000 мм, высота раппорта - 750 мм, высота первого участка раппорта - 30 мм, шаг d, с которым изменяется число рядов каждого последующего участка раппорта, - 3. Поверхностная плотность раппорта решетки шириной 35 мм, длиной 750 мм равняется 28,03 г. Вертикальные и горизонтальные уточные усилительные нити выполнены из высокомодульных комплексных полиэфирных мононитей с прочностью 0,5 кН. Прочность раппорта решетки на высоком участке составляет 1614 кН, в середине раппорта - 807 кН, на маленьком участке - 269 кН.Example 3. The warp knitted grating for reinforcement was produced by the warp knitting method by weaving, open chain weaving and closed tights with vertical and horizontal weft high modulus complex polyester monofilaments of linear density 113 tex. As ground weave, an open chain was used polyester yarn with a linear density of 16.7 tex. The lattice cells are filled with open chain and closed tights weave systems. The lattice is made on a knitting machine of class 6 and is formed by knitting ground yarns and simultaneously laying vertical weft yarns along loops with a rapport of 35 mm and horizontal weft yarns, the location of which is determined taking into account the dependence by the formula

. The total length of the lattice is 10,000 mm, the total width of the lattice is 1000 mm, the height of the rapport is 750 mm, the height of the first section of the rapport is 30 mm, the step d, with which the number of rows of each subsequent section of the rapport is changed, is 3. The surface density of the rapport of the lattice is 35 wide mm, length 750 mm equals 28.03 g. Vertical and horizontal weft reinforcing threads are made of high-modulus complex polyester monofilaments with a strength of 0.5 kN. The strength of the rapport of the lattice in the high section is 1614 kN, in the middle of the rapport - 807 kN, in the small section - 269 kN.

. Общая длина решетки составляет 5000 мм, общая ширина решетки - 1000 мм, высота раппорта - 350 мм, высота первого участка раппорта - 20 мм, шаг d, с которым изменяется число рядов каждого последующего участка раппорта, - 1. Поверхностная плотность раппорта решетки шириной 45 мм, длиной 350 мм равняется 16,06 г. Вертикальные и горизонтальные уточные усилительные нити выполнены из высокомодульных комплексных полиэфирных мононитей с прочностью 0,5 кН. Прочность раппорта решетки на высоком участке составляет 4889 кН, в середине раппорта - 2444,43 кН, на маленьком участке - 814,83 кН.Example 4. The warp knitting lattice for reinforcement was produced by the warp knitting method by weaving, open chain weaving and closed tights with vertical and horizontal weft high modulus complex polyester monofilaments of linear density 440 tex. As ground weave, an open chain was used polyester yarn with a linear density of 28.3 tex. The lattice cells are filled with open chain and closed tights weave systems. The lattice is made on a knitting machine of class 6 and is formed by knitting ground yarns and simultaneously laying vertical weft yarns along loops with a rapport of 45 mm and horizontal weft yarns, the location of which is determined taking into account the dependence by the formula

. The total length of the lattice is 5000 mm, the total width of the lattice is 1000 mm, the height of the rapport is 350 mm, the height of the first section of the rapport is 20 mm, the step d with which the number of rows of each subsequent section of the rapport changes is 1. The surface density of the rapport of the lattice is 45 wide mm, 350 mm long is 16.06 g. Vertical and horizontal weft reinforcing threads are made of high-modulus complex polyester monofilaments with a strength of 0.5 kN. The strength of the lattice rapport in the high section is 4889 kN, in the middle of the rapport - 2444.43 kN, in the small section - 814.83 kN.

Comparative characteristics of the samples of warp knitted grating for reinforcement are presented in the table.

Comparative characteristics of samples of warp knitted reinforcement lattice Example 1 Example 2 Example 3 Example 4 Linear density of weft yarns, tex 440 900 113 440 Linear density of filament, tex 11.2 16.7 16.7 28.3 The total length of the grating, mm 5000 10,000 10,000 5000 The total width of the grating, mm 1000 1000 1000 1000 The step with which the number of rows of each subsequent rapport changes. one 2 3 one Rapport height, mm 500 1000 750 350 Rapport width, mm twenty fifty 35 45 The surface density of rapport, g 30.45 290.45 28.03 16.06 The surface density of the entire canvas, kg 15.23 58.09 10.68 5.09 The strength of the rapport of the lattice in the area m, kN 11000 9000 1614 4889 The strength of the rapport lattice in the middle of rapport, kN 5500 4500 807 2444,43 The strength of the rapport lattice in the first section, kN 1833.30 1500 269 814.83

Thus, the created lattice for reinforcement can be used in structures with a curved surface, requiring high flexibility of the reinforcing component and at the same time its high strength in width and length. The surface density and strength of the grating are adjusted in accordance with the necessary conditions by selecting the linear density of the threads, the size of the cells of the grating, the frequency of laying horizontal weft threads in the rapport of the grating.

Claims (5)

1. The reinforcing lattice, consisting of vertical and horizontal weft reinforcing high-modulus threads, forming rectangular cells, weave chain weave threads and a binder thread, the weave soil thread chain covering vertical weft threads and fixes horizontal weft threads, and the ground binder thread is connected to the weaving threads of the chain, characterized in that the total lattice length L includes a given number of rapports m with the location of the horizontal weft threads, determined x relationship:

where R _in - the height of the rapport, mm;
In - the height of the loop series, mm;
P ₁ - the number of rows of the first plot of rapport, pcs .;
d is the step with which the number of rows of each subsequent rapport section changes;
n is the number of plots in rapport, pcs. 2. The reinforcing grate according to claim 1, characterized in that the vertical and horizontal weft reinforcing threads are made of high modulus complex polyester monofilaments with a strength of at least 0.5 kN. 3. The grating for reinforcement according to claim 1, characterized in that the soil connecting thread is made by weaving a closed leotard. 4. The reinforcing grate according to claim 1, characterized in that the soil weaving strands the chain and the soil binding thread are made of polyester yarns. 5. The reinforcing grate according to claim 1, characterized in that the vertical weft reinforcing high-modular complex monofilaments entwine the broaches of the binder ground filament with a closed leotard of polyester filaments, and the weave ground filaments of an open chain form plated loops together with the loops of the binder ground filament of a closed tricot through a row in one loop post with an offset of one row in an adjacent loop post.