RU2172444C2 - Armored flexible hose - Google Patents

Abstract

FIELD: flexible hoses. SUBSTANCE: armored flexible hose has, at least, one internal tubular layer from plastic or rubber, layer of reinforcing braid of knitted type with chain weave containing rows and columns, in essence, of parallel loops with respective density of loops per unit of length (Nm, Nr) in longitudinal direction, and external layer placed on layer of reinforcing braid for its protection. Layer of reinforcing braid is made in form of single tubular layer. Rows of loops and loop columns are located, in essence, over spiral lines with respective spacing (Pm,Pr) and at corresponding mutually opposite angles (α,β) relative to longitudinal axis (Y). Longitudinal spacing (Pr) of loop columns in essence is proportional to square of outer diameter (⌀_o) of internal layer. Density of loop columns per unit of length (Nr) is, in essence, in direct proportion to outer diameter (⌀_o) of said internal layer. As a result, twisting caused in knitted material is excluded without reduction of flexibility and resistance to hose rupture under effect of pressure. EFFECT: higher efficiency. 8 cl, 3 dwg

Description

 The invention relates to a flexible hose made of plastic or reinforced rubber, with a tubular braid made of textile material, which can be used in the field of irrigation or in the field of fluid supply under pressure in open or closed systems.

 Conventional flexible hoses of the type described above are typically formed from a first tubular inner layer made of plastic or rubber onto which tubular textile material is applied to increase the resistance of the flexible hose to pressure, reduce its deformation and increase its throughput.

 One of the most widespread and most used conventional hoses is the so-called “mesh braid” hose, in which the tubular reinforcing fabric is formed from a variety of threads wound in a spiral pattern on the flexible hose in the form of parallel and equally spaced rows and superimposed on equal the number of transversely directed columns, also located along parallel and equally spaced lines from each other, which are located symmetrically relative to the axis of the hose so as to form a grid with cells in the form of rhombs.

 The textile material surrounding the outer surface of the inner layer of plastic is then coated with the next outer layer of plastic or rubber, which is usually, but not necessarily, transparent and with which mesh material is fixed on the flexible hose and protected. A flexible hose with this type of braid can withstand higher pressure than a sleeve without a braid, and the braid can help reduce its deformation, since this weave is inextensible type and, therefore, prevents deformation of the inner layer.

 The disadvantage of the mesh hose described above is that its flexibility is relatively limited; this means that the bending radius under which it can be bent is large enough in comparison with knitted knitted hoses.

 Another common type of flexible hose is one in which the braid that surrounds the outside of the sleeve is formed by knitting instead of a woven weave.

 EP-A-0 527 512, issued in the name of the same applicant as the present application, describes a hose provided with a specific knitted frame in which the individual loops have a trapezoidal shape formed by threads that are intertwined at the corners. This type of knitted frame has the advantage of making the sleeve more durable than similar flexible sleeves with a knitted frame.

 Knitting is known to be a special type of weaving that is obtained by using one or more threads interconnected by more or less complex bends, also known as loops or main stitches, which give the knitted fabric more elasticity.

 The so-called warp knit is produced from a plurality of mutually parallel yarns fed from a plurality of bobbins, and these yarns are bent so as to form the same number of columns of loops that are interwoven both in the weft direction and in the direction of the chains; as a result of their interweaving form the transverse rows of loops and the longitudinal lines of the columns of loops or cords.

 One of the most industrially used flexible hoses is a hose in which the knitted material has a warp knit, where this term defines a weave in which each thread forms a loop by weaving with one or more threads on the right and with one or more threads on the left.

 Although, on the one hand, a flexible hose with knitted material is more flexible, since it is well known that knitwear is distributed with an increase in the diameter of the hose due to an increase in pressure in it, on the other hand, the disadvantage of a knitted fabric, especially a warp knit material, is that that as pressure increases, the hose undergoes a torsional effect as a result of the action of fluid passing under pressure inside the hose. This is due to the spiral arrangement of rows of loops, which, in contrast to the predominantly longitudinal orientation of the posts, cause an unbalanced reaction and create significant torsion of the hose.

 In European patent EP-A-0 623 776, issued in the name of the same applicant as the present application, a hose is described which has the following structure from the center to the outside: an inner layer of plastic or rubber, which has an outer surface; knitted material with a "chain" weave, containing rows and columns of loops, having a tubular shape, and wound in one layer around the outer surface of the inner layer; and an outer layer intended to protect the loop layer; moreover, the columns and rows of loops are inclined in opposite directions at substantially equal angles to the longitudinal axis of the hose in order to exclude the torsion effect arising under the influence of pressure created inside the hose.

 This well-known patent does not disclose the relationship between the various parameters of the knitted reinforcing part, such as the pitch, slope and density of the thread per unit length of the parameters themselves, and their relationship with the dimensional parameters of the inner layer. In accordance with this, due to the large number of included parameters and due to the large number of possible combinations, the specialist in this field does not have the complete information required to obtain reliable desired results or at least the ability to optimize conditions that prevent twisting of the sleeve.

 The aim of the present invention is to overcome the above disadvantages.

 The next objective of the invention is to develop relationships between various parameters of the braid and the parameters of the inner layer in order to exclude torsion caused in the knitted material under the pressure created by the liquid, without reducing the flexibility and resistance to rupture of the hose under pressure.

 This goal and other tasks, which will become apparent below, are achieved by creating a flexible hose made in accordance with the present invention, which in accordance with the volume of claim 1 of the claims includes at least one inner tubular layer of plastic or rubber having an outer diameter and a longitudinal axis; a knitted reinforcing braid of a warp-knitted type that comprises rows of substantially parallel loops and columns of substantially parallel loops with a corresponding density of loops per unit length in the longitudinal direction, the knitted reinforcing braid layer being introduced in the form of a single tubular layer and wound around the outer surface of the inner tubular layer and coaxial with it, and the rows and columns of loops are arranged essentially in a spiral with corresponding longitudinal steps and mutually opposite angles of inclination relative to itelno longitudinal axis so as to eliminate torsion due to the action of fluid pressure within the hose; and the outer layer, which is superimposed on the frame layer to protect the latter; and characterized in that the longitudinal pitch of the hinge columns is substantially proportional to the square of the outer diameter of the inner layer.

 It was unexpectedly found that in order to eliminate torsion caused by the internal pressure of the liquid, the pitch of the columns should be increased with an increase in the inner diameter, but not directly proportional, but rather proportionally to the square of the diameter, in order to effectively resist torsion caused by the unwinding of threads in loops arranged in a spiral.

 At the same time, the longitudinal pitch of the rows of loops can be kept substantially constant and independent of the outer diameter of the inner layer.

 Preferably, the number of stitch columns per unit length of hose is directly proportional to the outer diameter of the inner layer.

Other features and advantages of the present invention will become apparent upon reading the following description of a preferred embodiment of the invention, illustrated only by way of non-limiting example in the accompanying drawings, in which:
in FIG. 1 is a view of a portion of a flexible hose made in accordance with the invention;
in FIG. 2 is a cross-sectional view of the hose of FIG. 1;
in FIG. 3 is a diagram showing the interdependence between the main parameters of a knitted material of a chain type of reinforcing braid made in accordance with the invention and the outer diameter of the inner layer.

The flexible hose according to the invention (see FIGS. 1 to 3), indicated generally by pos. 1 is formed of an inner layer 2 made of a polymer or elastomeric material, for example, polyvinyl chloride, natural or synthetic rubber, which has a substantially tubular shape and a longitudinal axis Y, coaxial with the axis of the flexible hose, an inner surface with an inner diameter ⌀ _i and outer surface with a diameter of ⌀ _o .

 The knitted part of the chain weave, generally indicated by pos. 3 is connected on the inner layer 2 and is formed from essentially spiral rows of 4 loops that are parallel to each other and inclined at an angle α to the axis Y of the hose 1 in FIG. 2, and from the columns 5, which are also substantially helical and inclined at an angle β to the Y axis, but in the opposite direction with respect to the rows of 4 loops.

The rows and columns of loops have corresponding longitudinal steps P _m and P _r . In addition, the density of the loops, or the number of loops per unit length (100 mm) of the material, and the density of the columns are respectively N _m and N _r .

It is known that if the outer diameter ⌀ _{o of the} inner layer 2, on which the braid 3 is wound, increases, it is necessary to increase the pitch of the columns in order to provide the ability to perceive torsion. However, to date, the exact relationship between these parameters has not been established. Suddenly, tests and experiments have confirmed the fact that the relationship between these parameters is not linear, but quadratic.

In other words, this ratio can be expressed by the general formula
P _r = K⌀ ² , (1)
where the parameter K depends on the materials and is expressed in the units used.

In the case of using polyvinyl chloride and, if all parameters are expressed in mm, then the constant K in the formula (1) is usually in the range of 0.35-0.50 mm ^-1 and preferably equal to approximately 0.45 mm ^-1 .

 It should be noted that the knitted frame of the hose shown in FIG. 1 is formed in the form of a chain weave of a warp knitted type. These loops are formed directly on the hose using the so-called knitting machines that are commercially available and the method of forming the knitted material on them is well known.

 With such a crossing and inclination with respect to the axis Y of the sleeve, torsion that occurs with the hose in the case of using normal chain weaving, for example, with a substantially longitudinal arrangement of the posts, is completely eliminated. On the contrary, by arranging the columns in the transverse direction instead of the longitudinal, the torque component of the force that appears due to the twisting of the spiral-shaped rows 5 is compensated.

 With this type of knitwear, the forces created by the columns and rows of loops are mutually compensated until they completely cancel each other, thus making the hose 1 substantially immune to torsion caused by the pressure of the fluid inside the hose.

It is noted that the step in the longitudinal direction P _{m of the} rows of loops can be substantially kept constant and independent of the outer diameter ⌀ _{o of the} inner layer.

In addition, the density N _{r of the} hinge columns per unit length of the sleeve is substantially directly proportional to the outer diameter ⌀ _o .

The angles α and β are usually mutually different, but their sum is approximately constant and equal to or slightly less than 90 ^o when changing the value of the outer diameter ⌀ _{o of the} inner layer 2.

In particular, it was observed that the angle β of the inclination of the columns 5 is substantially proportional to the square root of the outer diameter ⌀ _{o of the} inner layer 2.

When using values between 12 and 37 mm for the outer diameter ⌀ _o and between 10 and 32 mm for the inner diameter ⌀ _i , it was observed that the density of the rows of loops per unit length N _m remained substantially constant and was between 30 and 40 rows at 100 mm with an average of 35 rows per 100 mm.

Under similar conditions, the density of the columns per unit length N _r is substantially proportional to the outer diameter ⌀ _{o of the} inner layer 2 and is 10-16 rows per 100 mm.

 The above parameters are tabulated and most of them are shown in the diagram in FIG. 3.

 And finally, an outer layer 6 made of plastic or rubber covers a knitted material formed in such a way on the surface of the hose, as this, incidentally, is done with all known flexible hoses.

 It is important to note that the angle of inclination of the columns and rows of loops can be slightly changed in comparison with the above defined values in accordance with the material of the sleeve, its diameter, type of knitted material, the number of bobbins used, the pitch between rows and columns of loops and the type and / or linear density threads.

Claims (8)

1. A reinforced flexible hose comprising at least one inner tubular layer (2) of plastic or rubber, with an outer diameter (⌀ _o ) and a longitudinal axis (Y); a layer (3) of reinforcing knitted-chain braiding, containing rows (4) of essentially parallel loops and columns (5) of essentially parallel loops with a corresponding density of loops per unit length (N _m , N _r ) in the longitudinal direction; said layer (3) of knitted reinforcing braid formed in the form of a single tubular layer and formed on the outer surface of said inner tubular layer (2) coaxially with it; said rows (4) of loops and said columns (5) of loops are arranged essentially along spiral lines with corresponding steps (P _m , P _r ) and at corresponding mutually opposite angles (α, β) relative to the longitudinal axis (Y) so that eliminate torsion created by fluid pressure in the sleeve; the outer layer (6), which is applied to said layer (3) of reinforcing braid, designed to protect it, characterized in that the longitudinal pitch (P _r ) of the said columns (5) of the loops is substantially proportional to the square of the outer diameter (⌀ _o ) of the said inner layer (2). 2. A flexible hose according to claim 1, characterized in that the density of the hinge columns per unit length (N _r ) is substantially directly proportional to the outer diameter (⌀ _o ) of said inner layer (2). 3. The flexible hose according to claim 1, characterized in that the longitudinal pitch (P _m ) of the rows of loops is essentially constant and independent of the outer diameter (⌀ _o ) of the said inner layer (2). 4. The flexible hose according to claim 1, characterized in that said rows (4) and said columns (5) of loops essentially arranged along spiral lines have different angles of inclination (α, β), but their sum is substantially constant and equal to or slightly less than 90 ^o when changing the value of the outer diameter (⌀ _o ) of the said inner layer (2). 5. A flexible hose according to claim 4, characterized in that the angle of inclination (β) of the columns (5) of the loops is substantially proportional to the square root of the outer diameter (⌀ _o ) of said inner layer (2). 6. The flexible hose according to claim 1, characterized in that the outer diameter (⌀ _o ) of the said inner layer (2) is 12 - 37 mm, and its inner diameter (⌀ _i ) is 10 - 32 mm. 7. The flexible hose according to claim 1, characterized in that the density of the rows of loops per unit length (N _m ) is essentially constant when changing the outer diameter (⌀ _o ) of the said inner layer (2) and is 30 to 40 rows per 100 mm, and the average value is 35 rows per 100 mm. 8. The flexible hose according to claim 1, characterized in that the density of the columns per unit length (N _r ) is substantially proportional to the outer diameter (⌀ _o ) of said inner layer (2) and is 10 to 16 columns per 100 mm.

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