RU51702U1 - ROCK SHEET - Google Patents

Abstract

The proposed technical solution relates to the field of construction of pipelines and can be widely used when laying pipelines in soils with solid rocky inclusions, in frozen soils, rock formations, which can damage the insulation of laid pipes.

The objective of this technical solution is to increase the efficiency of pipeline protection, both externally - from dynamic (shock) impacts, and from static (bursting) impact due to the higher viscosity of the rock sheet, and by reducing the abrasive effect on the pipeline insulation by solid inclusions of soil.

This is achieved by the fact that the rock sheet contains an air- and waterproof cover sheet of thermoplastic polymeric material, preferably polyethylene or polyethylene terephthalate (PET, PET), located under it and thermally connected to it a sheet of non-woven synthetic material (HCM), moreover, in the cover sheet or tangential stresses are created on the surface of its thermal connection with the NSM before laying the rock sheet in the design position by wrapping it with a cover sheet outward in a straight circular cylindrical surface or winding it on a cylindrical surface, the diameter of each of which is less than the diameter imparted rocky sheet design position. In this case, the sheet under the cover sheet is a sheet of needle-stitched NSM, preferably thermostabilized. Under the cover sheet is a sheet of needle-punched НСМ, and under the sheet of НСМ there is an additional sheet of the opposite one, respectively, needle-punched or needle-pierced НСМ connected to it by means of thermoplastic material. Or, under the sheet of NSM, there is an additional sheet of the same name connected to it by means of a thermoplastic material - respectively, needle-piercing or needle-punched NSM. Besides,

the rock sheet may be provided with an additional sheet located below the sheet of HCM connected with it by means of a thermoplastic material HCM, and this connection is made in the form of strips of thermoplastic material discretely located along the sheet. The rock sheet can be equipped with an additional sheet located below the sheet of HCM connected with it by means of a thermoplastic material HCM, and this connection is made in the form of strips of thermoplastic material discretely spaced across the sheet. In this case, the density of the thermoplastic material connecting the layers is less than the density of the material of the cover sheet. In the rock sheet, the edges of its ends wrapped around the pipeline are overlapped by an amount exceeding twice the thickness of the rock sheet, so that the upstream edge is covered by the end of the sheet having a downstream edge. The cover sheet of the rock sheet can be reinforced by placing, preferably completely, in its body an additional sheet, preferably thermostabilized, needle-stitched NSM.

Description

The proposed technical solution relates to the field of construction of pipelines and can be widely used when laying pipelines in soils with solid rocky inclusions, in frozen soils, rock formations, which can damage the insulation of laid pipes.

Known shockproof protective device of various surfaces, mainly a pipeline, made in the form of a hollow open cylinder with an external hard surface after special treatment, formed by a flexible cloth of synthetic material 6-12 mm thick, the outer zone of which is filled with a self-curing composition based on urea or melamine-formaldehyde resin, hardener and plasticizer, while the filling zone of the panel is not more than three quarters of its thickness (RU No. 2162187, 2003).

The closest known one is the rock sheet used to protect the pipeline, made in the form of a hollow open cylinder formed by a flexible cloth of synthetic material with a thickness of not more than 7.5 mm, made of a single or double layer of sheet non-woven material based on fibers of a group of polypropylene or polyesters with 5.5-7.5 mm thick with impregnation of fibrous non-woven material over the entire thickness

urea-formaldehyde resin self-curing composition (RU No. 2214553, 2003).

Known technical solutions have the following main disadvantages:

1. A self-curing composition based on urea-formaldehyde resin in the event of inevitable contact with water forms toxic substances (including chlorine) that damage the environment.

2. The existing rock sheet completely loses its strength properties after 1.5 years under the influence of various natural factors (primarily water and temperature differences).

3. Bending stiffness The excessive elasticity of the material during pipe wrapping does not provide reliable isolation of the pipeline from damage to the pipe insulation due to solid inclusions or its abrasive component, since it does not exclude the inclusion of these inclusions of soil between the rock sheet and the pipeline.

The objective of this technical solution is:

- increasing the efficiency of pipeline protection, both outside - from dynamic (shock) impacts, and from static (punching) impact due to the higher viscosity of the rock sheet, and by reducing the abrasive effect on the pipeline insulation with solid inclusions of soil;

- the use of environmentally friendly materials;

- preservation of the operational properties of the material up to 30 years or more.

This is achieved by the fact that the rock sheet contains an air- and waterproof cover sheet of thermoplastic polymeric material, preferably polyethylene or polyethylene terephthalate (PET, PET), located under it and thermally connected to it

non-woven synthetic material (HCM), and in the cover sheet or on the surface of its thermal connection with the non-woven synthetic material, tangential stresses are created prior to laying the rock sheet in the design position by wrapping it with the cover sheet outside a straight circular cylindrical surface or winding it onto a cylindrical surface, the diameter of each of which less than the diameter given to the rock sheet in the design position. Moreover, a sheet under the cover sheet is a sheet of non-woven needle-stitched synthetic material, preferably thermostabilized. Under the cover sheet is a sheet of non-woven needle-punched synthetic material, and under the sheet of non-woven synthetic material there is an additional sheet of unlike non-woven - respectively, needle-punched or needle-stitched material connected to it by means of thermoplastic material. Or, under the sheet of nonwoven material, there is an additional sheet of the eponymous nonwoven connected to it by means of a thermoplastic material, respectively, needle-piercing or needle-punched synthetic material. In addition, the rock sheet may be provided with an additional sheet located under the sheet of nonwoven material connected to it by means of a thermoplastic material of a nonwoven synthetic material, and this connection is made in the form of strips of thermoplastic material discretely located along the sheet. In this case, the density of the thermoplastic material connecting the layers is less than the density of the material of the cover sheet. In the rock sheet, the edges of its ends wrapped around the pipeline are overlapped by an amount exceeding twice the thickness of the rock sheet, so that the upstream edge is covered by the end of the sheet having a downstream edge. The cover sheet of the rock sheet may be reinforced by being placed, preferably completely, in its body

additional sheet, preferably thermostabilized, needle-stitched non-woven synthetic material.

Figure 1 shows a rock sheet (three-layer version);

Figure 2 shows the rock sheet (two-layer version with needle-punched NSM);

Figure 3 - the same, with (two-layer version with needle-flashing NSM);

Figure 4 - arrangement of the rock sheet on the pipe.

Rock sheet 1 contains an air- and waterproof cover sheet 2 of thermoplastic polymeric material, which can be used as: polyethylene, secondary polyethylene, the processing product is polyethylene terephthalate (PET, PET). Under sheet 2 is located and thermally connected to it, for example by simultaneous rolling between the forming rolls, sheet 3 of non-woven synthetic material (HCM). In the cover sheet 2 or on the surface of its thermal connection with the sheet 3 of non-woven synthetic material, before laying the rock sheet in the design position, the “training” of the material of its layers was made - they created tangential stresses “τ” by wrapping it with the cover sheet outward in a straight circular cylindrical surface or winding it onto a cylindrical surface, the diameter of which is less than the diameter attached to the rock sheet in the design position. At the same time, under the influence of the indicated stresses, the boundary layers of the joined sheets shift and the pseudo-memory is shaped in such a way that repeated deformation of the rock sheet in the same direction, but by a smaller amount and with lower stresses, will not cause layer deformation and any residual stresses. With this design of the rock sheet, its tight fit is ensured by the HCM layer facing the pipe surface. In this case, under the coverslip

sheet 2 is a sheet 4 of non-woven needle-stitched synthetic material, preferably thermostabilized, because this treatment, in addition to giving it strength, increases its permeability to the material of the cover sheet, increasing the adhesion strength. This structure provides very high characteristics of resistance to impact or the introduction of a foreign body into the rock sheet. Located under the cover sheet 2, the sheet 5 of non-woven synthetic material can be needle-punched, which reduces the transmission of dynamic effects on the pipe insulation. Also, under the sheet 2 can be located connected to it by means of a thermoplastic material an additional sheet of unlike non-woven - respectively, needle-punched or needle-pierced material. As an option, under the sheet 3 of nonwoven material there is an additional sheet of the same name nonwoven connected to it by means of a thermoplastic material - respectively, needle-piercing or needle-punched synthetic material, which changes the nature of the distribution over the area of shock loads on the rock sheet 1 due to the inclusion of connecting these layers thermoplastic material. In light of this, the rock sheet 1 can be provided with an additional sheet located under the sheet of nonwoven material connected to it by means of a thermoplastic material of a nonwoven synthetic material. The specified connection of the sheets is made in the form of strips of thermoplastic material discretely located along the sheet (in the design position, the strips are located along circular arcs). Alternatively, the rock sheet 1 may be provided with an additional sheet located below the sheet of non-woven synthetic material connected to it by means of thermoplastic material 6 of the non-woven synthetic material. The specified connection of the sheets is made in the form of strips of thermoplastic material discretely spaced across the sheet of sheet (in the design position of the strip sheet

located practically along and parallel to the pipe surface). To provide better bending conditions and prevent warpage (local loss of stability of the sheet), the density of the thermoplastic material connecting the layers is less than the density of the cover sheet material. When deciding on the connection of the ends of the rock sheet when wrapping it in a pipe, it is necessary that the edges of the ends wrapped around the pipe be lapped 7 (see Fig. 4) by an amount exceeding the double thickness of the rock sheet, which is caused by the possibility of shrinkage and preventing the opening of the formed junction. In this case, to prevent the abrasive material from getting under the rock sheet, both during its laying and during operation, it is necessary that the upstream edge be covered with the end face of the sheet having a downstream edge (see Fig. 4). The cover sheet of the rock sheet can be reinforced by placing, preferably completely, an additional sheet in its body, preferably a heat-stabilized, needle-stitched non-woven synthetic material, which significantly increases the tensile strength of the sheet and the incorporation of any soil inclusions into it.

Thus, this rock sheet is an easy-to-transport, environmentally friendly, technological and labor-intensive product of full factory readiness, which allows, in addition, when using secondary polyethylene or PET, it is difficult to decompose in nature and is highly exploitable toxic material when burned.

Claims (10)

1. Rock sheet, including an air- and waterproof cover sheet of thermoplastic polymeric material, preferably polyethylene or polyethylene terephthalate, located underneath and thermally connected to it a sheet of non-woven synthetic material, moreover, in the cover sheet or along the surface of its thermal connection with the non-woven synthetic material laying the rock sheet in the design position created tangential stresses by wrapping them with the cover sheet outward, a straight circular cylindrical erhnosti or winding it on a cylindrical surface, the diameter of each of which is less than the diameter imparted rocky sheet design position. 2. The rock sheet according to claim 1, wherein a sheet of non-woven needle-stitched synthetic material, preferably thermostabilized, is located under the cover sheet. 3. The rock sheet according to claim 1, wherein a sheet of nonwoven needle-punched synthetic material is located under the cover sheet. 4. The rock sheet according to claim 2 or 3, in which under the sheet of nonwoven material there is an additional sheet of unlike nonwoven connected to it by means of thermoplastic material - respectively, needle-punched or needle-pierced material. 5. The rock sheet according to claim 2 or 3, which is equipped with an additional sheet connected underneath a sheet of nonwoven material, connected to it by means of a thermoplastic material, of the same name nonwoven - respectively, needle-piercing or needle-punched material. 6. The rock sheet according to claim 1, which is equipped with an additional sheet located under the sheet of nonwoven material connected to it by means of a thermoplastic material of nonwoven material, and this connection is made in the form of strips of thermoplastic material discretely located along the sheet. 7. The rock sheet according to claim 1, which is equipped with an additional sheet located under the sheet of nonwoven material connected to it by means of a thermoplastic material of nonwoven material, and this connection is made in the form of strips of thermoplastic material discretely arranged across the sheet. 8. The rock sheet according to claim 6 or 7, in which the density of the thermoplastic material connecting the layers is less than the density of the cover sheet material. 9. The rock sheet according to claim 1, the edges of the ends of the ends wrapped around the pipeline which are overlapped by an amount exceeding twice the thickness of the rock sheet, so that the upstream edge is covered by the end of the sheet having the downstream edge. 10. The rock sheet according to claim 1, in which the cover sheet is reinforced with an additional sheet, preferably completely, placed in its body, preferably a thermally stabilized, needle-stitched non-woven synthetic material.