RU193173U1 - LAYERED PRODUCT - Google Patents

Abstract

A layered product is proposed, which is a mesh-reinforced non-woven fibrous material based on field-olefin fibers made using the Spanbond technology. The laminated product contains two layers of non-woven fibrous material of the type Spanbond made of polypropylene with a surface density of each layer of 28 ± 5% g / m, and a layer placed between them, made in the form of an extrudable mesh of polypropylene with a mesh size of 6 × 6 mm, having a surface density of 14 ± 5% g / m. The layers of the product are connected by point thermal bonding. The product has good vapor and air permeability and high mechanical strength and is recommended for use as a covering material for greenhouses and greenhouses. 1 ill.

Description

The proposed technical solution relates to the field of layered products containing reinforced non-woven fibrous material from field-olefin fibers, made according to the Spunbond technology.

Thermally bonded spandbond is used in various sectors of the national economy, for example, in the production of filter materials, protective and covering materials used in agriculture, medicine, and construction.

In particular, a synthetic covering non-woven material made according to the Spunbond technology used in greenhouse constructions is known (RU 165366 U1, 2015).

However, the known technical solution does not indicate the type of polymer used and the parameters of the material.

Patent RU 167599 U1, 2017 describes a cover for a frame greenhouse made of non-woven polypropylene having a density of 30-65 g / m ² containing an ultraviolet stabilizer.

However, this material has insufficient mechanical strength.

To increase the strength of the web of non-woven material, the products are multilayer and reinforced with polymer meshes.

For example, a protective material is described in the form of a flat layered structure containing a main layer of a polymer film reinforced with a mesh, a layer of paper fiber with an absorbing agent, the layers being bonded by gluing, laminating, or heat welding (RU 2014111251 A, 2015). It is proposed to use this material for emergency services and for sanitary purposes for transporting patients.

However, the covering properties, providing the possibility of using the known material for agricultural purposes, are not known.

Known layered material made of alternating layers of polyolefin and fibrous nonwoven material located between layers of polyolefin, while the layers contain a polyolefin network of polyolefin and a film of polyolefin with perforations with a diameter of 5-10 mm, and as a nonwoven material needle-punched non-woven material made of polypropylene fibers with a bulk density of the order of 0.1-1.0 g / cm ³ , the three layers mentioned are bonded by flashing discrete threads (RU 2021149 C1, 1994).

Known material has high filtering and strength characteristics, however, the design of the material is quite complex and ineffective when used as a covering material for growing crops.

The objective of this technical solution is to develop a breathable laminated product based on a fibrous non-woven material made of polypropylene fibers, characterized by a simple design and high covering properties.

The problem is solved by the described layered product, which contains two layers of non-woven fibrous material such as polypropylene spunbond with a surface density of each layer of 28 ± 5% g / m ² and a layer placed between them, made in the form of an extrudable polypropylene mesh with a mesh size of 6 ± 6 mm, having a surface density of 14 ± 5% g / m ² , while all layers of the product are interconnected by point thermal bonding.

The drawing (Fig. 1) shows the claimed product, where:

1 - layer of non-woven fibrous material;

2 - extrudable mesh.

The claimed laminated product is made as follows.

Take a cloth (1) of a given size, made of a non-woven fibrous material made of polypropylene fibers, manufactured by the spunbond technology, having a surface density of 28 ± 5% g / m ² , and impose on the obtained layer of extrudable polypropylene mesh (2) having a mesh size of 6 × 6 mm and a surface density of 14 ± 5%, on top of the mesh (2), lay a layer of fabric (1) similar to that laid in the lower layer, and carry out point thermal bonding of layers on a calender in small sections of the fabric.

With a product length of 5 to 10 meters and a width of 1.6 to 3 meters, the product is wound onto a roll. A product 3 meters wide in the middle is provided with a seam.

The resulting laminated product when tested by standard tests showed the following characteristics.

Strength at maximum tensile strength, N / 5 cm - lengthwise - 130

Strength at maximum tensile force, (N / 5 cm) - across - 70

Elongation at break (%) along and across - 45

UV resistance - 40% reduction in strength over 2 seasons of use.

Breathability (mm / s) - 1150

Vapor permeability, g / m ² * 24 h, not less than - 1600

The average value of light transmittance, not less (conventional units) - 73

Given the tests performed and the simplicity of manufacturing the product, it is recommended as an effective covering product for greenhouses and greenhouses.

Claims (1)

A layered covering product for greenhouses and greenhouses, containing two layers of non-woven fibrous material of the type Spanbond made of polypropylene with a surface density of each layer of 28 ± 5% g / m ² , and a layer placed between them, made in the form of an extrudable mesh of polypropylene with a cell size of 6 × 6 mm, having a surface density of 14 ± 5% g / m ² , while all layers of the product are interconnected by point thermal bonding.

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