RU126040U1 - TENT FOR TEMPORARY RESIDENCE OF PEOPLE IN EXTREME CONDITIONS - Google Patents

Abstract

A tent for temporary residence of people in extreme conditions, containing a fabric tent forming a roof, side walls and end walls with an opening for entry, a floor and an internal collapsible frame of several sections, each of which consists of racks and connecting arches with side outlets, moreover, the sections are connected by longitudinal struts, which are fixed in the lateral branches of the connecting arches, and the lower racks of the frame are inserted with the lower ends into the sockets made in the floor of the tent for fixing the frame, while the lower ends of sec the frame are additionally fixed by longitudinal and transverse ties, with windows and / or ventilation openings on the walls of the tent, and a hole for the chimney made in the roof, characterized in that the material of the fabric tent is used to reflect infrared radiation and containing a textile base , metallized and microporous membrane layers, while polyester textile material with water-repellent impregnation, metallized the layer is represented by titanium nitride, and the microporous membrane layer is made of thermoplastic polyurethane resin and is placed between the textile base and the metallized layer, while titanium nitride is deposited on the microporous membrane layer at the atomic-molecular level in an amount of 1-2 g / m, and the textile base contains camouflage pattern.

Description

The utility model relates to the construction of frame tents for temporary residence of people and / or temporary storage of materials and equipment in extreme and field conditions.

The closest technical solution to the achieved result is a tent, the frame of which consists of tubular side racks, inserts along the roof slope and inserts along the length, interconnected by adapters in the form of crosses (prototype - utility model RU 111568 E04H 15/34), while the fabric the tent forms a roof, side walls and end walls with an opening for entry, the floor, and the internal collapsible frame consists of several transverse sections, each of which contains four racks and three connecting arches with side outlets, and the sections are connected by longitudinal struts, which are fixed in the lateral branches of the connecting arcs, and the arches of the middle sections of the frame are equipped with two side branches symmetrically located and directed in opposite directions. In the tent floor, for greater stability of the tent, sockets for fixing the lower ends of the frame racks are made or the lower ends of the frame sections are additionally connected by fixing longitudinal and transverse ties. Windows and / or ventilation openings are provided in the tent tent walls, and a chimney hole is provided in the roof.

A disadvantage of the known design is the relatively low operational properties of the fabric tent when used in conditions of both low and high temperatures.

A technically achievable result is an increase in operational properties under extreme conditions in the presence of both low and high temperatures and the provision of a normal microclimate of living by using heat-insulating material as an awning material.

This is achieved by the fact that in a tent for temporary residence of people in the field, containing a fabric tent, forming a roof, side walls and end walls with an opening for entry, a floor and an internal collapsible frame of several sections, each of which consists of racks and connecting arches with lateral branches, moreover, the sections are connected by longitudinal posts, which are fixed in the side branches of the connecting arches, and the lower frame posts are inserted with the lower ends into the sockets made in the floor of the tent for fixing the frame, at The lower ends of the frame sections are additionally connected by longitudinal and transverse ties, with windows and / or ventilation openings on the walls of the tent, and a hole for the chimney made in the roof, a material that reflects infrared radiation and contains a textile base as a fabric tent , metallized and microporous membrane layers, while polyester textile material with water-repellent impregnation, metallized the ith layer is represented by titanium nitride, and the microporous membrane layer is made of thermoplastic polyurethane resin and is placed between the textile base and the metallized layer, while titanium nitride is deposited on the microporous membrane layer at an atomic-molecular level in an amount of 1-2 g / m ² , and textile base contains camouflage pattern.

Figure 1 presents a diagram of the tent assembly, in isometric projection, figure 2 - the structure of the multilayer material, providing high thermal insulation properties of the object and masking from detection by infrared radiation detectors; figure 3 shows the change in reflectivity of the multilayer material compared with conventional fabric tent material; figure 4 presents the dependence of the conductivity of polyamide fabric art. 5369 from the time metal was sprayed on it.

The tent for temporary residence of people in extreme conditions (figure 1) contains a roof 1, side wall 2, floor 3, door 4, windows 5, ventilation holes 6. The tent frame includes straight tubular racks 7, connecting arcs 8 with one or two side taps 9 and longitudinal racks 10. A hole for the chimney and socket in the floor for fixing the lower ends of the frame racks (or additional longitudinal and transverse ties) are not shown in the drawings. If necessary, for greater wind stability, the tent can be additionally equipped with cable ties, traditionally used for such structures (not shown in the drawing).

It should be noted that the advantages of the tent are the rounded shape of the tent frame, which does not allow rain water or snow to accumulate on the roof of the tent, which would inevitably lead to the destruction of the structure. In tents with a broken form of the frame, in the place where the roof and side wall meet, a recess inevitably remains on the roof panel, in which water begins to accumulate. The more water, the more the awning on the roof sags and the more water is poured into it again until the skeleton is destroyed.

Awning material of the tent (figure 2) is made in the form of a multilayer material that attenuates the thermal radiation of a biological object and reflects infrared radiation. The structure of the multilayer material is represented by the following layers (figure 2):

1 - polyester textile material with water-repellent impregnation protects the biological object from precipitation in the form of rain and snow and maintains high performance properties of the material in any weather conditions. A camouflage pattern applied to a textile base can be performed in a color background that is as close as possible to the background of the environment where the object is located, which provides it with visual camouflage in the daytime.

2 - microporous membrane layer is made of thermoplastic polyurethane resin, with a pore size of 1.3-1.6 · 10 ^-6 m, has high adhesive properties to the textile material, provides a reliable connection of the metallized layer with the textile base. The porous membrane structure of the layer allows steam to be removed to the surface of the product, i.e. natural cooling and reducing the thermal load on the biological object. The air in the micropores of the membrane layer reduces its thermal conductivity, creating an insulating airspace.

3 - a metallized layer made of titanium nitride and deposited on the material from the thermoplastic polyurethane resin at the atomic molecular level in an amount of 1-2 g / m ² , thickness up to 100 nm, provides thermal insulation and significantly reduces heat transfer and helps to reflect infrared radiation of the claimed material . Titanium nitride when applied with a thin film up to 100 nanometers thick provides the material with high insulating properties. The layer thickness depends on the time of metal deposition on the material and affects the vapor-permeable properties of the material, as well as indicators characterizing the degree of its conductivity. The longer the time of metal deposition on the material, the greater the thickness of the metallized layer and the higher the conductivity of the material. However, an increase in the thickness of the film coating, i.e. an increase in the amount of applied metal is more than 2 g / m ² , worsens the hygienic characteristics of the material, as the permeability of air and water vapor decreases. When applying titanium nitride in an amount of less than 1 g / m ^{2 the} reflectivity of the material in infrared radiation is reduced.

Thanks to such a structure, a multilayer material is well draped, has water repellent, vapor permeable and heat-shielding properties, is a heat insulator, reflects infrared radiation and, in case of using a textile base with a camouflage pattern, provides visual camouflage of the object.

Consider the characteristics of the multilayer material in the examples. Example 1. On the wrong side of the textile material "Protection" art. 3411 fiber composition 100% PE (polyester) with a surface density of 160 g / m ² with water-repellent impregnation and a rocky camouflage coating was coated with a porous layer of polyurethane resin with a thickness of 0.02 mm and a pore size of 1.5 10 ^-6 m and a thin layer of nitride titanium in an amount of 1.5 g / m ² , a layer thickness of 70 nm, for which the method of magnetron sputtering in high vacuum (of the order of 5 · 10 ^-5 mm Hg) was used, implemented under mild conditions created by low-temperature plasma. The method of magnetron sputtering allows you to accurately control the thickness of the metal layer, allows you to create structures with a certain conductivity. To test the material for the reflective properties of infrared radiation, a night vision system was used, namely the Yukon NVB Viking 3.5 × 40 RX night vision binoculars (Yukon Advanced Optics®). Observation was carried out on an object dressed first in an ordinary camouflage suit, and then in a suit made of the claimed material in complete darkness, at an ambient temperature of + 5 ° C. In an ordinary camouflage suit, the silhouette of a person was clearly visible, and in a suit made of the claimed material, the object was practically invisible.

In addition, a study was made of the reflectivity of the fabricated multilayer material on a Spekol-11 spectrophotometer. Figure 3 presents data confirming a significant increase in the spectral reflection coefficient of the claimed material (figure 3 indicated by graph 1) compared with the material, art. 80406, “Dimension”, fiber composition 100% PE (polyester), surface density 220 g / m ² , manufacturer “Tchaikovsky Textile”, taken for comparison (figure 3 indicated by graph 2).

Example 2. On the wrong side of a textile material art. 3456 fiber composition 100% PE (polyester), a surface density of 265 g / m ² intended for the manufacture of mobile shelters, according to example 1, a porous layer of polyurethane resin with a thickness of 0.02 mm and a pore size of 1.57 · 10 ^-6 m and a thin layer of titanium nitride in an amount of 2 g / m ² , a layer thickness of 90 nm. To test the material for reflectivity, we used the FLIR 15 thermal imager (infrared camera), an optical-electronic measuring device operating in the infrared region of the electromagnetic spectrum. The surface temperature of a heat-emitting object (person) coated with a multilayer material was recorded. The studies were conducted indoors at an ambient temperature of + 22 ° C. The thermal imager recorded temperature points on the surface of the object under study that did not exceed + 24 ° C.

The above examples confirm that the structure of the multilayer material has heat-insulating properties and reflects infrared radiation.

The process of installing and disassembling the tent of the proposed design is carried out in the following order.

First, separate sections of the frame are assembled, which are then interconnected by longitudinal racks. A fabric awning is pulled onto the formed frame, which can be additionally fastened with cable ties. Dismantling the tent is carried out in the reverse order.

In the manufacture of the frame by changing the length of the longitudinal or transverse racks, the dimensions of the tent (length, width and height) can easily be changed in accordance with the specific requirements of the customer.

Claims (1)

A tent for temporary residence of people in extreme conditions, containing a fabric tent forming a roof, side walls and end walls with an opening for entry, a floor and an internal collapsible frame of several sections, each of which consists of racks and connecting arches with side outlets, moreover, the sections are connected by longitudinal struts, which are fixed in the lateral branches of the connecting arches, and the lower racks of the frame are inserted with the lower ends into the sockets made in the floor of the tent for fixing the frame, while the lower ends of sec the frame are additionally fixed by longitudinal and transverse ties, with windows and / or ventilation openings on the walls of the tent, and a hole for the chimney made in the roof, characterized in that the material of the fabric tent is used to reflect infrared radiation and containing a textile base , metallized and microporous membrane layers, while polyester textile material with water-repellent impregnation, metallized ny layer is titanium nitride, and microporous membrane layer is made of a thermoplastic polyurethane resin and placed between the textile substrate and the metallized layer, the titanium nitride coated on the microporous membrane layer on the atomic and molecular level in an amount of 1-2 g / m ^2, textile and base contains camouflage pattern.

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