RU172517U1 - Two-layer waterproofing canvas - Google Patents

Abstract

antifiltration devices for waterproofing, mainly structures, are intended to be used as reliably protecting soil and ground water from various chemical contaminants penetrating antifiltration screens, for example, the deployment of a laminated roll waterproofing sheet on horizontal surfaces built on the ground of oil storage tanks, etc. Improving the performance of a waterproofing sheet, including its strength and integrity, while reducing the cost due to the use of a sufficiently dense polyethylene film and a non-woven fabric made of a polyester fabric with the specified characteristics in terms of density, fiber length and the number of punctures connecting the fibers. In a two-layer waterproofing fabric containing one layer made of needle-punched non-woven fabric including polyester fibers, and a second a layer of plastic film thermally bonded to a non-woven fabric, according to a utility model, needle-punched non-woven fabric is made with a number of pro ols 1 smne less than 225 polyester staple fiber linear density of 0,33-0,84 tex, not less than 64 mm long and the layer thickness of the polyethylene film is formed of at least 200 microns. 1 ill.

Description

The inventive utility model relates to antifiltration devices for waterproofing, mainly structures, and is intended to be used as reliably protecting soil and groundwater from the penetration of various chemical contaminants of antifiltration screens, for example, the deployment of a layered roll of waterproofing fabric on horizontal surfaces built on the ground oil storage tanks, etc.

A multilayer web is known containing two layers, which are made of needle-punched wool-like material, between which a filler is placed (see US Pat. No. 3,454,413).

This canvas is characterized by insufficient resistance to the action of acids and alkalis, to sunlight and to atmospheric precipitation, and also to the effects of molds.

Known three-layer waterproofing fabric according to patent RU 50226. This insulation material refers to geotextile materials and includes three layers, two of which are needle-punched non-woven fabrics, between which the filler is placed. As a filler, a polyethylene film was used, connected by thermal action with two outer layers of non-woven fabric.

In accordance with the second claim, the non-woven fabric is made of polyamide polyester fibers. Firstly, these are two different types of fibers. In addition, polyamide fibers are very unstable to microorganisms. Geotextiles based on non-woven fibers made of polyamide fibers will fail very quickly.

In accordance with the third paragraph of the formula, it is proposed to make a polyethylene film of polypropylene. This is impossible, because polyethylene and polypropylene are completely different materials and it is impossible to make one of them from the other.

In addition, polyamide materials are much more expensive than polypropylene and are unstable to microorganisms.

It is known that the waterproofing fabric according to the patent RU 59074, selected as a prototype, contains two layers made of needle-punched non-woven material, between which is placed a filler made of a polyethylene film, characterized in that the needle-punched non-woven material is a mixture of polyacrylonitrile and polyester fibers.

The prototype is characterized by insufficient strength characteristics.

Studies have shown that the implementation of needle-punched non-woven material from a mixture of polyacrylonitrile and polyester fibers does not always meet the requirements for geotextiles. It is advisable, from the point of view of price-quality ratio, that the non-woven layer is made only of polyester fiber.

The strength characteristics of geotextiles are of great importance to the characteristics of the fiber used, in particular, the type of fiber, its linear density, fiber length, as well as the quality of needle bonding of the nonwoven fabric. The integrity index is greatly influenced by the thickness of the polyethylene film used.

The objective of this utility model is to increase the operational characteristics of a waterproofing sheet, including its strength and integrity, while reducing cost.

To solve this problem, in a two-layer waterproofing fabric containing one layer made of needle-punched non-woven fabric, including polyester fibers, and a second layer of plastic film thermally bonded to a non-woven fabric, according to a utility model, needle-punched non-woven fabric is made with a number of punctures per 1 cm ² at least 225 of polyester staple fibers with a linear density of 0.33-0.84 tex, a length of at least 64 mm, and a layer of plastic film is made with a thickness of at least 200 microns.

Polyester staple fiber is relatively cheap. The selected range of linear density (0.33-0.84 tex) fibers and their length is not less than 64 mm provides the necessary quality of non-woven fabric. The use of fibers with a linear density of less than 0.33 tex significantly increases the cost of the resulting material. The use of fibers with a linear density higher than 0.84 tex is impractical due to a significant increase in the porosity of the nonwoven fabric and, consequently, a decrease in its strength characteristics.

The limitation of the lower limit of the number of punctured needles (per 1 cm ² not less than 225) is also associated with the need to ensure the specified strength of the nonwoven fabric, with a smaller number of punctures, the strength of the fabric is reduced.

The plastic film must provide reliable and long-term waterproofing. The use of a thin film will lead to a rapid violation of the integrity of the waterproofing material due to punctures by sharp edges of stones, plant roots, etc. A film thickness of 200 microns or more is optimal.

Thermal bonding is the most economical way to connect the layers with honey, because does not require the use of expensive adhesives.

Thus, in the inventive two-layer waterproofing fabric, the following technical result is achieved - high strength and performance due to the use of a sufficiently dense plastic film and a non-woven fabric made of a polyester fabric with given characteristics in terms of density, fiber length and the number of punctures connecting fibers.

Studies have shown that the claimed two-layer waterproofing fabric meets the requirement of "novelty." Such a fabric is manufactured industrially, therefore, meets the requirement of "industrial applicability"

The essence of the utility model is illustrated by the drawing, which shows a cross-section of the inventive canvas.

The inventive fabric waterproofing two-layer fabric includes two layers.

Layer 1 is made of needle-punched non-woven fabric. The basis of polyester staple fibers with a linear density of 0.33-0.84 tex, a length of at least 64 mm. The needle-punched fabric includes at least 225 punctures per square cm.

Layer 2 is made of a polyethylene film with a thickness of at least 200 microns.

Layers 1 and 2 are thermally bonded to each other.

The manufacture of the claimed fabric is carried out in accordance with the Technical Specifications TU 8397-006-21506643-2015.

Example - obtaining a canvas type 2 brand Teplonit

Two rolls are installed in the feeding frame on the unwinding devices:

- a roll of needle-punched non-woven fabric (geotextile fabric);

- a roll of plastic film according to GOST 10354, LDPE 200 microns.

The rolls are unrolled by the pulling force of the conveyor drive, which feeds the material into the zone of the thermal furnace-heater, where under the influence of high temperature 110 ° C - 140 ° C from infrared lamps a short-term process of heating and softening of the polyethylene film occurs. Next, the heated and softened material is fed into the area of the calender pulling shafts, which fixes the layers of the canvas together, calibrates the thickness. Next, the finished web enters the drive and then into the rolling-cutting section with meter meter, longitudinal and transverse knives.

The tests showed that the inventive two-layer waterproofing fabric is characterized by high strength characteristics, long service life. Such a canvas is effectively used for waterproofing oil storage facilities (at oil spills), sludge storages and solid domestic waste landfills until completely neutralized, provides reliable isolation of the soil from harmful effects and is of environmental importance.

Claims (1)

Two-layer waterproofing canvas containing one layer made of needle-punched non-woven fabric, including polyester fibers, and a second layer of polyethylene film thermally bonded to a non-woven fabric, characterized in that the needle-punched non-woven fabric is made with a puncture number of 1 cm ^{2 of} at least 225 of polyester staple fibers with a linear density of 0.33-0.84 tex, a length of at least 64 mm, and a layer of plastic film made with a thickness of at least 200 microns.

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