PL73446Y1 - Desalination film - Google Patents

Abstract

The subject of the application is a desalination foil for capturing road salt used for winter maintenance of roads and sidewalks. It is used especially to protect green belts along expressways. The foil is created by thermoforming a polymer, i.e. PEHD (High Density Polyethylene) geomembrane with a thickness of 2 mm. The foil has thirty-five hemispherical-shaped retention containers (5) reinforced at the bottom with torus-shaped recesses (6), the retention containers are connected with open channels with a semicircular cross-section (2) for pouring excess water with low salinity. The foil sheet has a projection in one corner for the tree trunk (4) and twelve pins securing the safety net (1). Combining four sheets of desalination foil will allow you to surround a tree intended for protection against the harmful effects of deicing agents.

Description

Description of the design: The subject of the utility model is a desalting foil for capturing road salt used in winter maintenance of roads and sidewalks. It is particularly useful for protecting green belts along expressways. The foil is produced by thermoforming a polymer, i.e., a 2 mm thick high-density polyethylene geomembrane. Patent description US4502244A discloses a device for placement at the base of a tree, comprising an annular container for nesting in the ground around the tree, which extends radially outward, from which the tree protrudes through a central opening, and in which the container comprises an upper tray positioned above the container for storing decorative material. An annular space is provided between the trough wall and the outer, peripheral reservoir, into which fertilizer and water can be introduced in liquid form, flowing through the reservoir openings to nourish the tree's root system. The invention does not directly protect trees and shrubs from the harmful effects of road salt; it merely supplies the tree's root system with water and liquid fertilizers. A known method for limiting the harmful effects of road salt on trees and shrubs involves the use of physical protective barriers of varying heights: fences, screens, walls made of straw mats, boards, or polypropylene mats. Known physical protective barriers are susceptible to mechanical damage. In urban areas with narrow sidewalks, protective barriers in the form of fences around trees cease to serve their purpose, as these areas are used to pile up salty snow slush from cleared sidewalks. In such a situation, physical barriers around trees not only fail to protect them from salt but also increase the harmful effects of road salt by limiting the spread of salty water. Patent description 228854 describes a method for protecting plants from the harmful effects of road salt. The essence of protecting plants and soil from the harmful effects of road salt, according to the invention, lies in the fact that before the first application of road salt, the trunk of the protected plant is surrounded by at least a two-part protective tray with a flexible bottom that adapts to the terrain in the immediate vicinity of the protected plant and with sides 5–10 cm high. Next, a protective tray, at least two parts in length, is filled with wood chips from vascular plant beds, no older than three years, dried to an air-dry state with a bulk density of no more than 0.54 kg/dm3 and a length of 5–10 cm. After concentrating the road salt solution through natural crystallization, the chips are removed from the at least two-part trays, and after sifting the crystalline salt from the surface of the chips and the bottom of the protective tray, the chips are subjected to a leaching process in clean water. The protective trays known from the above patent description are characterized by a complex design. They are used to protect individual trees in highly urbanized areas with tree basins, for example, along sidewalks in city centers. This solution has limited effectiveness in the case of green belts along expressways. To eliminate these inconveniences, a desalination film was developed based on a utility model. The purpose of the utility model is to provide a desalination film to protect green belts from the harmful effects of road salt on expressways. The desalination film based on the utility model is shown in the drawing, where Fig. 1 shows a top view of the desalination film, and Fig. 2 shows a cross-section of the film and the mounting pin. The essence of the utility model is the initially indicated 6 cm high desalination film, which is produced by thermoforming a polymer, i.e., a 2 mm thick PEHD (High Density Polyethylene) geomembrane. The foil has thirty-five hemispherical retention tanks (5) reinforced at the bottom with torus-shaped recesses (6). The retention tanks are connected by open semicircular channels (2) for draining excess low-salinity water. The foil sheet has a quarter-circle tree trunk projection (4) in one corner, and twelve mounting pins (1) for securing the cone-shaped safety net to a flattened ellipsoid, with a height not exceeding the frame. Connecting four sheets of desalination foil will allow for surrounding the tree to protect it from the harmful effects of de-icing agents. PL PL PL PL PL PL PL PL PL PL PL PL PL PL PL PL

Claims (3)

Protective reservations 1. A 6 cm high desalination foil, the structure of which is made of smooth high-density polyethylene, 2 mm thick, has symmetrically located retention containers in the shape of a hemisphere ending with a recessed torus, characterized in that each retention container (5) has a at the bottom, a convex torus (6) is connected on four sides to adjacent containers by open channels with a semicircular cross-section (2), has a projection for the tree trunk in one corner (4), and twelve fastening pins (1) safety net. 2. Desalination foil according to claim 1, characterized in that it has twelve convex fastening pins (1) in the shape of a cone ending in a flattened ellipsoid and a height not exceeding the level of the frame (3). 3. Desalination foil according to claim 1, characterized in that in one corner there is a projection for the trunk (4) in the shape of a quarter circle.