PL65373Y1 - Reinforced hose - Google Patents

Description

Description of the design The subject of the utility model is a multi-layer, plastic hose for transporting liquids under pressure, resistant to twisting under the influence of the pressure of the transported liquid. Reinforced hoses are known, as in the Polish patent application P 313265, having crossed rows in the braid fibers, between elastic layers of the loop, vulcanized with rubber layers, the strands being laid along the circumference along the length of the helix. It is also known from countercrews from patent EP 0623 776, in which the protective layer consists of a chaff-knit with a warp and a thread inclined at an angle to the long axis of the loose knot. Making such braids is difficult and requires special machines. The purpose of the utility formula is to apply such a hose design that would increase the resistance to liquid pressure and, moreover, would have antiperspirant properties under the influence of liquid pressure. The aim is also to create a hose that is easy to manufacture. This goal was achieved in a solution according to a utility pattern, in which between the outer surface of the loop and the surface of the middle loop there is a woven braid with square meshes, with the fabric oriented approximately parallel to the axis along the loose hose, and between this layer and the middle and the reinforcing layer of the inner tube of the hose, there is a braid made of plastic mesh with diamond-shaped mesh. The shorter diagonals of the mesh diamonds are directed parallel to the long axis of the loop. Such shaping of the hose strengthens its double inner layer with the mesh of the braid, and the woven braid, placed under the outer cover of the cable, interacts with the slanted mesh fibers, preventing twisting hose under fluid pressure. The braids used are easy to manufacture and simple to position along the loose axis of the hose. The object of the utility pattern is shown in the drawings, of which, Fig. 1 shows the partial longitudinal blanks through the rebate layers, Fig. 2 shows a cross-section through the manhole, Fig. 4 shows a view of a fragment of the mesh braid, and is described below: Under the outer outer skin 3 of the knot there is a woven braid 1 over an intermediate layer 4 of the hose. The braid is arranged so that its warp 1a is approximately parallel to the loose axis of the loop. Due to the conditions resulting from the weaving process, it is not possible to speak of a complete parallelism of all warp fibers along their entire length. The meshes of the fabric are square, with rectangular fibers 1b of the warp. The inner inner conductor 6 of the cable has a composite layer 5 on it, strengthening this conductor. On this layer 5 is placed a braid 2 in the form of a plastic mesh with diamond-shaped meshes. The lines 2a and 2b of the mesh run diagonally to the long axis of the hose, while the shorter diagonals of the mesh rhombuses are parallel to the axis of the hose. The different directional pattern in the fibers of the woven braid and the mesh braid increases the resistance of the hose to twisting under the influence of liquid pressure. According to the utility model, the hose can be used for pouring the ground, for irrigation and sprinkling devices, and for the transport of liquids that are non-aggressive to PVC materials. PL PL

Claims (1)

2 PL 65 373 Υ1 Description of the model The object of the utility model is a multi-layer reinforced plastic hose for transporting liquids under pressure, resistant to kinking under the pressure of the transported liquid. Armored hoses are known, as in the Polish patent application P 313265, having crossed rows of braid fibers, between flexible layers of the hose, vulcanized with rubber layers, the strands being arranged along the circumference along a helix. An anti-twist hose is also known from the patent EP 0623 776, in which the protective layer consists of a chain knitted fabric with warp and weft inclined at an angle to the longitudinal axis of the hose. Making such braids is difficult, requires special machines. The purpose of the utility model is to provide a hose design which has an increased resistance to liquid pressure and, moreover, has anti-twist properties under the influence of liquid pressure. The goal is also to create a hose that is easy to manufacture. This objective was achieved in a utility model solution, in which a square-meshed woven braid is placed between the outer hose and the intermediate hose, with the fabric warp oriented approximately parallel to the longitudinal axis of the hose, and between this intermediate layer and the layer reinforcing the inner conductor hose, there is a braid made of plastic mesh with diamond-shaped mesh. The shorter diagonals of the mesh diamonds are directed parallel to the longitudinal axis of the snake. Such a shape of the hose strengthens its double inner layer with a braid mesh, and the woven braid, located under the outer cover of the hose, interacts with the oblique mesh fibers, preventing the hose from twisting under the pressure of the liquid. The braids used are easy to make and easy to position in relation to the longitudinal axis of the hose. The object of the utility model is shown in the drawings, of which, Fig. 1 shows partial longitudinal cuts through the layers forming the hose, Fig. 2 shows a cross-section through a hose, Fig. 3 shows a view of a woven braid, and Fig. 4 shows a view of a part of a mesh braid, and is described below: Under the outer hose 3, there is a woven braid 1 applied over the intermediate hose 4. The braid is arranged such that its warp 1a is approximately parallel to the longitudinal axis of the hose. Due to the conditions resulting from the weaving process, it cannot be said that all the warp fibers are completely parallel along their entire length. The fabric meshes are square, with perpendicular Ib of the warp. The inner hose 6 has a layer 5 applied to it, reinforcing this hose. On this layer 5 is placed a braid 2 in the form of a plastic mesh with a diamond-shaped mesh. The lines 2§ and 2b of the mesh run diagonally to the longitudinal axis of the snake, and the shorter diagonals of the mesh diamonds are parallel to the snake axis. The different direction of the fibers of the woven braid and the mesh braid increases the resistance of the hose to twisting under the influence of fluid pressure. The hose according to the utility model can be used for pouring the ground, for irrigation and sprinkling devices, and for the transport of liquids which are not aggressive towards PVC materials. Protective disclaimer Reinforced hose for transporting liquids under pressure, multi-layer, made of plastic, resistant to twisting under the influence of the transported liquid, characterized in that between the outer cover (3) of the hose and the intermediate cover (4) of the hose is a woven braid (1 ) with square meshes, with a fabric warp (Ia) oriented approximately parallel to the longitudinal axis of the hose, and between this intermediate sheath (4) and the layer (5) reinforcing the inner hose (6), there is a braid (2) made of mesh made of plastic, with diamond-shaped meshes, with the shorter diagonals of the mesh diamonds directed parallel to the longitudinal axis of the hose.