RU210720U1 - HYDROTECHNICAL COMPOSITE POLYMER PANEL - Google Patents

Abstract

The utility model relates to the field of hydraulic engineering, namely, impervious panels used to protect territories from floods and floods, create sealed reservoirs, strengthen the banks of natural and artificial waterways and reservoirs, strengthen the soil during excavation and hydraulic engineering, create impervious screens during reconstruction and construction of dams and embankment dams, construction and reclamation of landfills, in particular, the creation of impervious screens for waste disposal and storage sites, sludge fields. The technical result achieved by the claimed technical solution is to improve the performance of the hydrotechnical composite polymer panel, including increasing the operating efficiency of the inventive panel, its strength characteristics and improving the tightness of the joints of the inventive panels. The technical result is achieved by the fact that the panel is a hydraulic composite polymer made by pultrusion of a polymer material reinforced with fiberglass, characterized in that it consists of a base in the form of a flat profile with perpendicular, unidirectional reinforcing ribs made on the back side of the base. At the edges of the base of the panel, male and female connecting elements are made in one piece with it, while a groove is made in the male connecting element for accommodating sealant. At the same time, the male and female elements of the panel provide a connection with the corresponding female and male connecting elements of a similar hydrotechnical composite polymer panel. In some embodiments of the hydrotechnical composite polymer panel, the male and female connecting elements of the panel are rounded. In this case, the rear side of the reinforcing ribs can be provided with a T-shaped profiled edge. At the same time, thickenings are made at the junctions of the panel base and reinforcing ribs and at the junctions of the panel base and connecting elements. In some embodiments, the front side of the panel base can be made with a coating that protects the panel from exposure to UV radiation.

Description

The proposed technical solution relates to the field of hydraulic engineering, namely to impervious panels used to protect territories from floods and floods, create sealed reservoirs, strengthen the banks of natural and artificial waterways and reservoirs, strengthen the soil during excavation and hydraulic engineering, create impervious screens during reconstruction and construction of dams and embankment dams, construction and reclamation of landfills, in particular, to the creation of impervious screens for waste disposal and storage sites, sludge fields.

From the existing state of the art, variants of the sheet pile design (DE 202016101909 U1, published on August 17, 2017) and the sheet pile wall design ((EA No. 16081 B1, published on February 28, 2012) are known, in which the sheet pile design contains a base with integral them with connecting elements and may contain reinforcing elements.

At the same time, it is also known from the existing prior art that impervious barriers used to protect territories from floods and floods, create sealed reservoirs, strengthen the banks of natural and artificial waterways and reservoirs, strengthen soil during earthworks and hydraulic engineering, create impervious screens during reconstruction and construction of dams and embankment dams, construction and reclamation of landfills, in particular, the creation of impervious screens for landfills and waste storage, sludge fields should have high performance characteristics, in particular, high strength characteristics and tightness.

The technical result achieved by the claimed technical solution is to improve the performance of the hydrotechnical composite polymer panel, including increasing the operating efficiency of the inventive panel, its strength characteristics and improving the tightness of the joints of the inventive panels.

The technical result is achieved by the fact that the panel is a hydraulic composite polymer made by pultrusion of a polymer material reinforced with fiberglass, characterized in that it consists of a base in the form of a flat profile with perpendicular, unidirectional reinforcing ribs made on the back side of the base. At the edges of the base of the panel, male and female connecting elements are made in one piece with it, while a groove is made in the male connecting element for accommodating sealant. At the same time, the male and female elements of the panel provide a connection with the corresponding female and male connecting elements of a similar hydrotechnical composite polymer panel.

In some embodiments of the hydrotechnical composite polymer panel, the male and female connecting elements of the panel are rounded. In this case, the rear side of the reinforcing ribs can be provided with a T-shaped profiled edge. At the same time, thickenings are made at the junctions of the panel base and reinforcing ribs and at the junctions of the panel base and connecting elements.

In turn, in some embodiments, the front side of the panel base can be made with a coating that protects the panel from UV radiation.

Brief description of the drawings

In FIG. 1 shows a top view of a hydrotechnical composite polymer panel, where 1 is the base of the panel; 2 - reinforcing edge of the panel; 3 - female connecting element; 4 - covered connecting element; 5 - profiled edge of the reinforcing rib of a T-shaped panel; 6 - groove for placement of sealant.

In FIG. 2 shows a top view of interconnected hydrotechnical composite polymer panels, where 1 is the base of the panel; 2 - reinforcing edge of the panel; 3 - female connecting element; 4 - covered connecting element; 5 - profiled edge of the reinforcing rib of a T-shaped panel; 6 - groove for placement of sealant.

In FIG. 3 shows a general view of a hydrotechnical composite polymer panel, where 1 is the base of the panel; 2 - reinforcing edge of the panel; 3 - female connecting element; 4 - covered connecting element; 5 - profiled edge of the reinforcing rib of a T-shaped panel; 6 - groove for placement of sealant.

The proposed hydrotechnical composite polymer panel is made of a pultruded composite material obtained by pultrusion - heat treatment of the source material when it is drawn through a shaping die. The material obtained by pultrusion, which excludes uneven thermal linear expansion, is characterized by a constant transverse structure, which increases the strength properties of the panel. In addition, the use of a polymer material ensures the resistance of the panel to various microorganisms, including fungi and bacteria, which increases its durability by preventing damage to the panel by microorganisms: fungi and bacteria.

As shown in FIG. 1 - fig. 3, the panel design includes a base 1 in the form of a flat profile with perpendicular, unidirectional reinforcing ribs 2 made on the back side of the base 1. In some embodiments, the rear side of the reinforcing ribs 2 can be provided with a profiled edge of a T-shaped shape 5. On at the edges of the base 1 of the panel, male 4 and female 3 connecting elements are made in one piece with it. In turn, a groove 6 is made in the male connecting element 4 to accommodate the sealant. Meanwhile, as shown in FIG. 1, - fig. 3, in some embodiments of the hydrotechnical composite polymer panel, female 3 and male 4 connecting elements of the panel can be made of a rounded shape, and thickenings can be made at the junctions of the base of the panel and reinforcing ribs and at the junctions of the base of the panel and the connecting elements. It should be noted that, as shown in FIG. 2 - fig. 3, the male 4 and female 3 panel elements provide a connection to the respective female 3 and male 4 connectors of a similar hydrotechnical composite polymer panel.

When mounting the fence, consisting of the inventive panels, in the groove 6 covered 4 connecting element of the panel is applied sealant. Typically, a one-component, water-swellable sealant is used to seal panel joints. Further, the male 4 connecting element of the panel is installed in the female 3 element of a similar panel, while the presence of a groove 6 in the male 4 connecting element of the panel makes it possible to exclude the extrusion of the sealant when connecting the panels, to simplify the application of the sealant to the junction of the panels and to ensure its uniform application along the entire length of the connection , thereby increasing the efficiency of operation and the hermetic properties of the formed fence, which ensures the achievement of the claimed technical result.

The presence in the inventive panel of male 4 and female 3 elements at the edges of the base 1 of the panel provides connection with the corresponding female 3 and male 4 connecting elements of a similar hydraulic composite polymer panel and allows you to form a fence consisting of the claimed panels of the required length, while providing due to the presence of a groove 6 in the male 4 connecting element and filling it with sealant with the required tightness to similar structures at the joints of the panels along the entire length of the fence. This ensures the efficiency of operation of the claimed panel in accordance with its purpose, which confirms the achievement of the claimed technical result.

The presence in the inventive panel of perpendicular, unidirectional reinforcing ribs 2, made on the back side of the base 1, provides increased strength properties of the panel, which increases the operational properties of the inventive panel and thereby ensures the achievement of the claimed technical result. Also, to increase the strength properties of the panel, the rear side of the reinforcing ribs 2 is provided with a profiled edge of the T-shaped shape 5, and thickenings can be made at the junctions of the panel base and reinforcing ribs and at the junctions of the panel base and connecting elements.

Thus, the essential features of the proposed technical solution make it possible to improve the performance of the hydraulic composite polymer panel, including increasing the operating efficiency of the proposed panel, its strength characteristics and improving the tightness of the joints of the claimed panels, which ensures the achievement of the claimed technical result.

Claims (4)

1. Hydraulic composite polymer panel, made by pultrusion of a polymer material reinforced with glass fiber, characterized in that it consists of a base in the form of a flat profile with perpendicular, unidirectional reinforcing ribs made on the back side of the base, on the edges of the base of the panel are made in one piece with it male and female connecting elements, while a groove is made in the male connecting element to accommodate the sealant. 2. The hydraulic composite polymer panel according to claim 1, characterized in that the female and male connecting elements of the panel are rounded, while the back side of the reinforcing ribs is provided with a profiled edge of the T-shaped shape, while at the junction of the base of the panel and the reinforcing ribs and thickenings are made at the junctions of the panel base and connecting elements. 3. The hydraulic composite polymer panel according to claim 1, characterized in that the front side of the panel base is made with a coating that protects the panel from exposure to UV radiation. 4. The hydraulic composite polymer panel according to claim 1, characterized in that the male and female elements of the panel provide connection with the corresponding female and male connecting elements of a similar hydraulic composite polymer panel.

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