RU2696224C1 - Multifunctional combined thermo package with inner layer thermolamination - Google Patents

Abstract

FIELD: layered products and materials.

SUBSTANCE: multilayer pack of materials comprises five layers. First layer is made of a cloak fabric combined interlacing of polyester and polyamide fibres and with water-repellent impregnation. Second layer is a polyester fibre insulation. Third layer is made in the form of a polyester mesh made of polypropylene. Fourth layer is made in the form of a membrane from foamed polytetrafluoroethylene. Fifth layer contains polyester and is processed by thermolamination using particles of silver, carbon and aluminium. First, second and third layers are interconnected using multi-needle stitch. Joined first, second and third layers are connected to the fourth and fifth layers by means of calendering.

EFFECT: present invention describes a multilayer package of materials which can be used, in particular, in production of children's clothes.

6 cl, 4 dwg

Description

FIELD OF THE INVENTION

The present invention relates to light industry and can be used for the manufacture of outerwear for adults and children, as well as other products.

State of the art

Various solutions are known in the art from the prior art, in particular the following solutions are known.

Known top heat-saving clothing, for the manufacture of which a multilayer package of materials is used, including top material, lining material, a layer of insulation material. A layer of insulation material is placed between the top material and the lining. The layer of insulation material has a characteristic surface. One site with increased thermal insulation ability, including a layer of insulation material having a characteristic surface, is provided with a lining made of transparent material (RF Patent No. 142643, IPC A41D 13/00, published on June 27, 2014).

In the known solution, a low-elastic insulation material is used, which gives volume to the product, “bloating”, the product is characterized by high air permeability.

Also known is a multilayer package of materials for outerwear, including four layers: the upper woven twill weave of polyester and viscose fibers and the lower layer of a polyamide warp knitted knit fabric of weaving. Between the upper and lower layers there is a bicomponent laminate membrane from a dry-wet deposited method on a polytetrafluoroethylene membrane of a polyether urethane coating. The lower knitted layer is connected to the polyester urethane coating with polyurethane adhesive (RF Patent No. 2167702, IPC B01D 71/36, publ. 27.05.2001).

A disadvantage of the known technical solution is not the ability to simultaneously provide water-repellent properties, heat and breathability of a multilayer package of materials.

Also known is the solution that is taken as the closest analogue of the present invention. The closest analogue is also the development of the applicant. A multilayer package of materials for outerwear is known, including four layers of materials, while the upper layer is made of raincoat with water-repellent impregnation, the second layer is a polyester fiber insulation, the third layer is made in the form of a polyester polypropylene mesh and the lower layer is made in the form membranes made of foamed polytetrafluoroethylene, while the upper, second and third layers are interconnected using multi-needle stitches. The upper layer of raincoat fabric has a density of 30-500 g / m ² . The insulation made of polyester fiber has a density of 50-600 g / m ² . The third layer in the form of a polyester mesh has a density of 5-30 g / m ² . The lower (fourth) layer in the form of a membrane of foamed polytetrafluoroethylene is made with a thickness of 5-30 μm, a density of 0.00015 g / m ² , water permeability of 5000-20000 mm H ₂ O per 1 m ² and steam removal of 5000-20000 g H ₂ About 1 m ² for 24 hours. In this case, to connect the upper, second and third layers, threads of synthetic fibers are used. (RF patent No. 2664824, IPC A41D 31/02, publ. 08/22/2018).

The claims are made with the division into restrictive and distinctive parts, taking into account the selected closest analogue. The present solution described below has several advantages over the closest analogue, which is described in detail below. Briefly, the advantages can be expressed in increasing hydrophobicity, increasing steam removal, increasing hygiene, increasing thermal insulation, ensuring lightness and plasticity of the material, preparing the external surface for digital printing.

Disclosure of the invention

The present invention describes a multilayer package of materials, including layers of material: the first layer made of raincoat fabric with water-repellent impregnation; the second layer, which is a heater made of polyester fiber; the third layer, made in the form of a polyester mesh of polypropylene; the fourth layer, made in the form of a membrane of foamed polytetrafluoroethylene; moreover, the first, second and third layers are interconnected using multi-needle stitches, in addition, a fifth layer of material is included, containing polyester and processed by thermolamination using particles of silver, carbon and aluminum; and the first layer is formed by interweaving polyester and polyamide fibers; the connected first, second and third layers are connected to the fourth and fifth layer by calendering.

In some embodiments of the present solution, the multilayer material package described above may be characterized in that the first layer has a density of 50 to 500 grams per square meter.

In some embodiments, the implementation of the multilayer package of materials the second layer may have a density of from 50 to 450 grams per square meter.

In addition, in some implementations, the second layer may be a twisted polyester insulation.

In a preferred embodiment of the present solution, the thickness of the second layer does not exceed 5 centimeters.

The fifth layer may have a volumetric pattern obtained by thermolamination, with a smooth surface.

EFFECT: increased hydrophobicity, increased steam removal, increased hygiene, increased thermal insulation, ensuring lightness and plasticity of the material, preparing the external surface for digital printing, increasing the processability of the material during subsequent processing.

Brief Description of the Drawings

The present solution is illustrated by the following figures:

FIG. 1 - photograph of the first layer with drops of water on its surface

FIG. 2 - photograph of the second layer (insulation) under the microscope

FIG. 3 - photograph of the third layer (polyester mesh) under a microscope

FIG. 4 - photograph of the fourth layer (membrane) under a microscope

The implementation of the invention

Analysis of the market for the production of clothing, including children's clothing, shows that the production of certain types of clothing lags behind rational consumption standards. Winter and demi-season coats are not well developed, including for preschool and primary school age children. Especially scarce is the production of children's outerwear, which would correspond to the modern level of development of materials and their processing. These circumstances served as prerequisites for the development of this solution, which combines high manufacturability, low cost, material consumption, high operational and strength properties of the package of materials.

The multilayer material package of this decision includes five main layers: the first, second, third, fourth and fifth. Each of the layers is described below with its characteristics and features. Also described are the technology of connecting the layers with each other to obtain a multilayer combined thermal package with thermal lamination of the inner layer.

The first layer is shown in FIG. 1 and is usually the outermost layer of clothing. In some embodiments, the implementation of the present solution is a raincoat fabric Rip-stop (ripstop) with water-repellent impregnation and digital printing. Rip-stop fabrics (Rip-stop) are fabrics of combined weaving. Reinforcing threads are used in the fabric, which are preferably spaced no further than 8 mm apart. In a preferred embodiment, the composition of the fabric: 85% polyester and 15% polyamide. Specialists in the art should understand that the composition is approximate, possible deviations in favor of one or the other component. The density of this material is from 50 to 500 grams per square meter. The fabric indicators in the preferred embodiment correspond to GOST 28486-90.

The second layer is shown in FIG. 2. This layer is also referred to as insulation in the context of the present description. In a preferred embodiment, the composition of the second layer is 100% polyester fiber. The density of this layer is from 50 to 450 grams per square meter. This material complies with TU 8391-011-18130826-2015, environmental safety is confirmed by Oeko-Tex Standart 100 Class I "Confidence in textiles" certificate. Specialists in the art should understand that the density is selected depending on the requirements of the final product. It should be understood that the excessively low density of the insulation leads to the fact that this layer practically ceases to work, i.e. ceases to be a heater, in contrast, an excessively high density leads to a significant increase in weight of the thermal pack, and the ability of a polyester fiber with a density of more than 450 grams per square meter to retain heat is suitable for its saturation, i.e. an additional increase in density leads only to a slight improvement in the properties of the thermal pack.

The third layer of the multilayer material package of the present solution is shown in FIG. 3. This layer is a polyester mesh, consisting, in a preferred embodiment, of 100% polypropylene, with a density of 5 to 30 grams per square meter.

A fourth layer of the present solution is shown in FIG. 4 and is a membrane. The thickness of this layer is preferably from 5 to 30 microns. The density of the material ranges from 0.00015 to 0.00030 grams per square meter. Water resistance: from 5,000 to 20,000 millimeters of water per square meter, steam removal from 5,000 to 20,000 grams of water per square meter in 24 hours.

The fifth layer is a thin fabric with thermal lamination. The composition of the fabric is 100% polyester. The composition of the solution for thermolamination is selected depending on the purpose.

The first layer provides water repellency to the present solution. The fabric does not leak moisture and does not get wet due to special impregnation, thanks to which drops roll off the surface. This allows you to maintain the insulating qualities of the fabric, as well as its lightness. Additionally, the first layer provides increased strength due to weaving using a mesh of reinforced fibers (Rip-stop technology), which increases the durability of the product, which is especially important when sewing children's clothing. With an increase in strength, softness and plasticity are simultaneously maintained - there is no “rustling” effect, which makes clothes more pleasant to use (ergonomic), in particular in conditions of high physical activity. Also, the first layer in some embodiments provides a unique design technology of large-format full-color digital printing allows you to achieve high quality applied images - both from an aesthetic and practical point of view. The design does not crack, does not fade in the sun and does not lose its qualities during operation and washing. Thus, the use of this layer provides the product with high processability, high strength, high wear resistance and other advantages that are already mentioned in the present description.

The second layer is a heater and provides increased thermal insulation, while at the same time having a small volume. Thanks to the technology of twisting and bonding together polyester fibers, it is possible to create products that can withstand temperatures up to -30 ° C, which at the same time have a small thickness compared to heaters of previous generations (up to 5 cm). The thickness of the insulation depends on the seasonal purpose of the clothes and the climatic zone, it is also possible to use materials for extremely low temperatures. In addition, plasticity is ensured - the material is easily compressed, which makes the products more comfortable to wear - in particular on bends (elbows, knees, etc.). The ability to compress this layer also provides high performance thermal package, because the insulation is not subject to breaks over time (of course, to certain limits), retains its properties for the entire duration of the effective use of the thermal pack. At the same time, the insulation during cutting remains a single layer, which simplifies cutting, and, therefore, reduces the time to manufacture the product, improves manufacturability, reduces waste, as a result of this - the cost decreases.

The third layer is a polyester mesh. This layer performs the function of protecting the membrane from damage by the insulation fibers during operation and calendering, as well as the retention of multi-needle stitches. It has increased strength and heat resistance in comparison with analogues.

The fourth layer of the present solution is a membrane. A membrane is the thinnest canvas filled with micropores of a special structure. These micropores are 20,000 times smaller than a drop of water, but 700 times larger than a vapor molecule, and because of this, droplets of water cannot penetrate the material, but vapors from the body are freely removed outside. Due to this, the highest operating comfort is achieved - the fabric is completely hydrophobic and at the same time allows you to maintain a comfortable temperature and humidity of the body. The membrane also provides absolute protection against wind, thereby increasing thermal insulation. Additional advantages (technical results) that this layer provides when used in this solution are ease of use: the membrane is lightweight, that is, it does not burden the fabric, elasticity, due to which the product does not hinder movement and maintains strength (the elasticity of the material prevents tearing) . Thus, high-quality moisture removal, thermal protection, reduction in weight, volume, and elasticity of the material are ensured.

The fifth layer of material is a lamination with thermal lamination. The lining is a thin fabric coated with an additional layer of the solution by thermolamination. Thermolamination of the inner layer has, in particular, the following features: antibacterial properties when silver ions are added; antistatic effect when adding carbon (carbon) fibers; when metal particles (in particular aluminum) are added, a foiling effect is achieved, due to which thermal insulation is increased (heat from the body is reflected). All these qualities cannot be achieved with other methods of tissue processing.

In some embodiments of the present solution, it is allowed to use not only silver ions, carbon fibers, metal particles, but also other additives for thermolamination. In addition, as it should be clear to specialists in this field of technology, not all additives can be used, for example, only silver ions and carbon fibers, however, in this case it should be understood that the final product will have slightly worse thermal insulation. Combinations of additives in the context of the present description should be considered as alternative options for implementation, i.e. there may be one additive, two, three or more. It depends on the requirements for the thermal package.

In addition, thermolamination is a three-dimensional pattern that has a smooth surface, which facilitates the dressing of products (which is especially important in the operation of children's clothing), but at the same time, after dressing, the fixed surface does not slip. Accordingly, the ergonomic properties of the material of the present solution are high.

Multi-needle stitch - fastens the first three layers of fabric together (first, second and third), and also improves the thermal quality of the package by creating additional useful volume. In preferred embodiments of the present solution, 100% Lavson threads are used.

Calendering is a method of bonding fabric layers by passing through heated shafts. In the production of this fabric, calendering is used in the application of digital printing, a layer of thermal lamination, as well as joining layers of fabric in which no stitch is used. The temperature and speed of rotation of the shafts is selected individually in each case - depending on the density of the used fabrics and the type of thermal lamination. This allows you to achieve the optimal result - reliably fasten the layers and at the same time avoid damage to them. Such a combination of layers is possible only using the calendering method.

Thus, due to the characteristics of each of the layers, as well as the method of processing them, the multifunctional package as a whole acquires the following properties: hydrophobicity - due to the water-repellent properties of the cloak fabric, as well as the waterproofness of the membrane; steam removal - due to the unique ability of the membrane to pass steam from the body, as well as the features of the higher layers that do not interfere with this; hygiene - due to silver ions in the thermolamination of the inner layer; increased thermal insulation - is provided by each of the layers of fabric, in particular with a heater and a membrane, as well as due to the heat-reflecting qualities of the inner layer achieved due to thermal lamination; lightness and plasticity - each of the layers is selected so that the package as a whole has a small weight and volume, and also has elasticity, which provides comfort during operation; unique design - due to the huge possibilities of digital printing on the outer layer, thermal lamination on the inner, as well as a variety of patterns of multi-needle stitches.

Claims (15)

1. A multilayer package of materials, including layers of material: the first layer made of raincoat fabric with water-repellent impregnation; the second layer, which is a heater made of polyester fiber; the third layer, made in the form of a polyester mesh of polypropylene; the fourth layer, made in the form of a membrane of foamed polytetrafluoroethylene; moreover, the first, second and third layers are interconnected using multi-needle stitches, characterized in that included a fifth layer of material containing polyester and processed by thermolamination using particles of silver, carbon and aluminum; the first layer is formed by interweaving polyester and polyamide fibers; the connected first, second and third layers are connected to the fourth and fifth layers by calendering. 2. A multilayer package of materials according to claim 1, characterized in that the first layer has a density of from 50 to 500 grams per square meter. 3. A multilayer package of materials according to claim 1, characterized in that the second layer has a density of from 50 to 450 grams per square meter. 4. A multilayer package of materials according to claim 1, characterized in that the second layer is a heater made of twisted polyester fiber. 5. A multilayer package of materials according to claim 1, characterized in that the thickness of the second layer does not exceed 5 centimeters. 6. A multilayer package of materials according to claim 1, characterized in that the fifth layer has a three-dimensional pattern obtained by thermolamination, with a smooth surface.

Images