RU2664556C1 - Blank for cellular bulk non-welded seamless geogrid - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to construction, namely to construction of geogrids, and can find application in road construction, in particular for strengthening earthen slopes, especially having a sufficiently large angle of inclination, as well as to strengthen coastal lines and channels of reservoirs, and some other areas of construction, requiring increased stable indicators for the strength and longevity of the geogrid for strengthening slopes. Workpiece for a cellular volumetric non-welded seamless geogrid is made of a polymer tape of a given thickness t, provided with cuts arranged in rows R, R…Rwith the displacement of the cut lines. Foregoing blank is characterized by performing cuts in the form of a triangular denticle having lateral and forming sides, or a combination of triangular teeth, which are a serrated sawtooth profile, with the angle of the triangular tooth at its base γ in the range from 20 to 175° at a ratio of the cut length of the serrated sawtooth profile constituting the length of the generatrix of the triangular tooth side or the total length of the forming sides of the serrated sawtooth profile, to the thickness of the band t equal to 1:(100–600). Number of triangular teeth in the section of the serrated sawtooth profile is from 1 to 40, and the displacement of the cut lines is characterized by the ratio of the lengths of the cut lines equal to 1:(0.3–0.9).EFFECT: technical result consists in increasing strength of the billet to produce a universal, non-welded, volumetric seamless geogrid for strengthening the tear-off slots and, accordingly, an ungainly volumetric seamless geogrid as a whole.1 cl, 1 dwg

Description

The invention relates to the field of construction, namely, the construction of geogrids, and can find application in road construction, in particular for strengthening earthen slopes, especially those with a sufficiently large angle, as well as for strengthening coastlines and channels of water bodies, and some other construction areas, requiring increased stable performance in terms of strength and durability.

Known geogrid according to patent RU 2152479, publ. in 2000, designed to strengthen the slopes, made in the form of ribbons made of polymeric material connected to each other in a checkerboard pattern on their lateral surfaces, fixed on the slope in an extended position with the formation of diamond-shaped cells.

Known geogrid of a polymeric material with diamond-shaped cells according to the application JP 56016730, publ. in 1981, which are formed by interconnected perforated polymer tapes when stretching the grating, while the position of the cells on the slope is fixed, and the cells themselves are filled with bulk material.

Known technical solutions have a major serious drawback, namely, they have low strength characteristics for fixing the material (soil, peat sand mixtures, etc.) due to the possible geogrid downward slope under the influence of the above fixed material, which in turn can lead to destruction of the used geogrid due to its plastic deformation.

Known sheet stock obtained from it seamless geogrid according to patent for invention RU 2090702, publ. in 1997. The workpiece was made in the form of a polymer sheet with slit slits located with an offset. Seamless lattice obtained by stretching the above workpiece. A significant drawback of the technical solution of the analogue is the insufficient tensile strength of the geogrid obtained on the basis of the known workpiece.

The closest technical solution to the claimed one is a blank for obtaining an innovative seamless geogrid with a cellular structure for strengthening the soil according to RU 2579090, publ. in 2014. In accordance with the solution of the prototype, the blank for producing a seamless geogrid is made of sheet polymer material (in the particular case of the invention in the form of a strip), in which cuts are made in the form of segments of straight parallel lines of the same length, arranged in rows with a displacement of the cut lines of adjacent rows along the direction of the cuts, while adjacent cuts in the same row are made at a given distance between their ends for a given ratio of lengths of cuts to the distance between their ends, and cuts with the adjacent rows are made at a distance equal to the ratio of the distance between the rows to the length of the cut in the range of 0.1-0.7, with oval or round holes made at the ends of the cuts. A serious drawback of the technical solution of the prototype is the insufficient strength of the seamless geogrid, especially when applied on steep slopes of roads, etc.

The essence of the invention is as follows.

The technical problem to which the claimed invention is directed is the development of the design of the workpiece to obtain a universal welded volumetric seamless geogrid.

The technical result of the claimed invention is to increase the strength of the workpiece for a cellular volumetric non-welded seamless geogrid for breaking and, accordingly, a cellular volumetric non-welded seamless geogrid as a whole.

The technical result of the claimed invention is achieved by making a blank for a mesh volumetric non-welded seamless geogrid made of a polymer tape of a given thickness t, equipped with cuts arranged in rows R ₁ , R ₂ ... R _n with a shift of the cut lines, while the above workpiece is characterized by making cuts in in the form of a triangular tooth having lateral and forming sides, or a combination of triangular teeth, representing a serrated sawtooth profile, with an adjacent angle of the triangular tooth tsa γ in the range from 20 to 175 ° with a ratio of the cut length constituting the length of the generatrix side of the triangular tooth or the total length of the generatrix sides of the serrated sawtooth profile to the tape thickness t equal to 1: (100-600), while the number of triangular teeth in the section the serrated sawtooth profile is from 1 to 40, and the displacement of the cut lines is characterized by the ratio of the lengths of the cut lines equal to 1: (0.3-0.9).

It should be noted that all types of cuts can be made both in the longitudinal and transverse directions of the polymer tape.

Additional geometric parameters that must be observed in the manufacture of the inventive workpiece are:

- the ratio of the distance between the cuts in adjacent rows (for example, R ₁ , R ₂ ) to the distance between the cuts in the row (R ₁ ) 1: (0.4-2);

- the distance between the rows R ₁ , R ₂ ... R _{n of the} cuts must be a multiple of the width of the polymer tape.

The invention is illustrated in the figure, where

1 - polymer tape;

2 - section;

γ is the angle at the base of the triangular tooth;

R ₁ , R ₂ ... R _n - rows of sections;

t is the thickness of the polymer tape.

The invention can be implemented on an industrial scale from traditionally used for this type of construction of polymer sheet materials by applying cuts of a given configuration on a press, punching or other equipment or using known cutting tools.

The use of the claimed invention allows the use of the resulting seamless geogrid on steeper slopes while maintaining the necessary operational strength and frame of the seamless geogrid at various slope angles and types of filler.

Claims (1)

A blank for a mesh volumetric non-welded seamless geogrid made of a polymer tape of a given thickness t, equipped with cuts arranged in rows R ₁ , R ₂ ... R _n with a displacement of the cut lines, characterized in that the aforementioned blank is characterized by making cuts in the form of a triangular tooth having side and forming sides, or a combination of triangular teeth, representing a serrated sawtooth profile, with an angle of a triangular tooth at its base γ in the range from 20 to 175 ° with respect to the length of the cut section of the sawtooth profile constituting the length of the forming side of the triangular tooth or the total length of the forming sides of the serrated sawtooth profile to the tape thickness t equal to 1: (100-600), while the number of triangular teeth in the section of the serrated sawtooth profile is from 1 to 40, and the displacement of the cut lines is characterized by the ratio of the lengths of the cut lines equal to 1: (0.3-0.9).

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