RU150067U1 - EXTREME TENT - Google Patents

Abstract

1. The tent, which has a frame, an insulated floor and a multilayer tent, forming a roof, side walls and end walls with an opening for entry, and equipped with an isothermal insulation, characterized in that it has an external tent, a multilayer material is used as an isothermal insulation material comprising a synthetic winterizer layer and a layer of aluminum metallized polypropylene film, enclosed between the outer layers made of a polyester fabric, the layers being interconnected using hot-melt adhesive, applied connected by dots or in separate strips to the joined surfaces. 2. The tent according to claim 1, characterized in that it has an additional sun canopy, mounted above the outer tent with a gap equal to the diameter of the pneumocylinders located between them. 3. The tent according to claim 1, characterized in that the insulated floor is made of foamed polymeric material, packaged in a waterproof fabric. 4. The tent according to claim 1, characterized in that the pneumoframe is used as the frame. 5. The tent according to claim 4, characterized in that the pneumatic frame is made sectional with a dual-circuit inflation system with alternating sections of the circuits. 6. Tent 4 and 5, characterized in that the pneumoframe has a lower band around the perimeter.

Description

The utility model relates to tent structures intended for temporary accommodation of people in field, including extreme, conditions. It can also be used for organizing pre-fabricated hospitals, command posts, utility rooms, field canteens, shelters for equipment and machinery, and performing other functions during emergency rescue operations in the event of natural disasters, catastrophes, and for other purposes.

Tents with improved thermal insulation properties are known, allowing them to be used both at low and high ambient temperatures. In particular, such devices include inflatable pneumoframe tent. An example is the design of the tent of the NGO "Module" [information can be found on the Internet at: http://www.pnevmomodul.ru/pnevmokarkas5 / ]. The tent is an arched type inflatable structure. The pneumatic module of the tent has the following main elements: pneumoframe, casing, inflatable doors, bottom. The single-circuit pneumoframe is made of rubberized fabric on both sides and consists of arches connected in a single structure. The tent has an outer casing, which is made of rubberized fabric, and an inner casing, which is made of nylon. The air space between the outer and inner cladding creates thermal protection of the internal volume of the pneumatic module. The casing provides through holes for the supply of warm air from the heating and ventilation units and openings for the input of electric cables. Pneumatic doors, which are located on the end faces of the pneumatic module, as well as the frame, have external and internal casing, and are made of the same materials as the casing of the module itself. The bottom (glued floor) is made of waterproof rubberized fabric. The tent also has an insulated floor made of rubberized waterproof fabric and sections of the insulating layer of foam polymer glued to it. Tents of this design have sufficiently high thermal insulation properties, but during operation it is necessary to periodically pump air to maintain the required volume between the skin. In addition, they are not reliable enough, because in case of a possible violation of the sealing (destruction of the seams, puncture of the casing), the air goes outside, parts of the tent are blown away, and the inner and outer casing, devoid of an air layer between them, are not able to provide thermal insulation. Another disadvantage of this and other known inflatable structures is the inconvenience in operation due to the significant time spent folding the tent and the complexity of the folding process due to residual air, the removal of which requires additional efforts, for example, repeatedly passing through pneumatic sections towards the outlet, etc. n., which can lead to rapid wear and mechanical damage. This makes it impossible to repeatedly use such structures of inflatable tents in emergency situations.

The task of increasing the thermal insulation properties while maintaining high reliability is solved by the use of new materials for the manufacture of the awning forming the roof, side and end walls.

So in the frame tent described in the patent for utility model No. 126040, publ. 03/20/2013 "Tent for temporary residence of people in extreme conditions", adopted as a prototype, an internal isothermal insulation was used and a composite three-layer material containing a textile base, metallized and microporous membrane layers was used as such material. A polyester textile material with water-repellent impregnation was used as a textile base (top layer of a multi-layer awning). The metallized layer is represented by titanium nitride, and the microporous membrane layer located between them is made of thermoplastic polyurethane resin, and is placed between the textile base and the metallized layer. In this case, titanium nitride is deposited directly on the microporous membrane layer by magnetron sputtering in vacuum. The film thickness is up to 100 nanometers. Thus, in the prototype, the outer layer of the multilayer tent (the traditionally used polyester textile material) is integrated with an isothermal insulation, and a new composite multilayer material is fixed on top of the tent frame. The frame of this tent itself is composed of tubular racks and longitudinal tubes connected by arc elements with bends.

With all the advantages of composite material, the disadvantage of the prototype tent is that it uses specially developed material for these purposes, and its manufacture requires the creation of a special production with sophisticated technological equipment. Another disadvantage is the frame structure, the metal tubes of which have high thermal conductivity, are cold bridges at low ambient temperatures.

The utility model is based on the task of expanding the arsenal of tools and creating a tent structure with high heat-insulating properties, and in which known and widely used materials are used.

The problem is solved in that the tent has a frame, an insulated floor and a multi-layer awning forming a roof, side walls and end walls with an opening for entry, while the awning has an internal isothermal insulation. It differs from the prototype in that it has an external tent made of PVC material, and a multilayer material is used as the material of the internal isothermal insulation, including a synthetic winterizer layer and a layer of aluminum metallized polypropylene film, enclosed between the outer (covering) layers made of a polyester fabric, the layers of the internal isothermal insulation are interconnected using hot-melt adhesive, applied by dots or in separate strips to the surfaces to be connected.

If necessary, the tent may have an additional sunshade, mounted above the outer tent with a gap equal to the diameter of the pneumocylinders located between them.

The insulated floor, in a preferred embodiment, is made of a foamed polymeric material, for example, polyethylene foam, packaged in a waterproof polypropylene fabric.

The tent may have a rigid frame, however, it is preferable to use a sectional pneumoframe with interconnected sections, and which has a dual-circuit inflation system with alternating sections of the contours.

In order to better demonstrate the distinctive features of the utility model, as an example, not having any restrictive nature, the preferred embodiment is described below. An example implementation is illustrated by the Figures of the drawings, in which: FIG. 1 - tent with an additional sun-protection tent, which can also be used as a camouflage, FIG. 2 - the structure of the layered material of the internal isothermal insulation.

The inventive tent can have, for example, a gable, four-gable, or arched structure, the shape of which is defined by the pneumatic frame 1. The pneumatic frame 1 is made of airtight reinforced PVC material of increased density. The pneumoframe is made up of interconnected sections. The pressurization system is double-circuit and is equipped with an internal pressure redistribution system between cylinders. Sections of one circuit alternate with sections of another circuit. This design provides the "survivability" of the tent. In the case of mechanical damage to the cylinders of one of the sections of the frame, the tent will slightly sag, but sections of another contour will support the shape.

The outer awning 2, which is the top layer of the multilayer awning, is mounted on top of the pneumoframe and made of a material traditionally used for these purposes, for example, PVC material, and does not have sewn seams (all seams are formed by thermo or high-frequency welding).

The internal isothermal insulation 3 is attached from below to the pneumatic frame using belts with half rings and has the ability to adjust the tension, as well as the ability to remove it for processing from pollution.

The moisture-proof floor of the 4 tents is also made of PVC material, and has an anti-flood board along the perimeter. The insulated floor 5 located under the moisture-proof floor 4 is made of foamed polymer (polyethylene foam) packaged in a waterproof polypropylene fabric. This floor is more environmentally friendly than rubber, while it has high thermal insulation properties, and does not require talcum powder pouring, unlike rubber, during storage. In the case of manufacturing a pneumocarcass with a lower band around the perimeter, you can not use the anti-flooding board.

The tent has an inflatable door, in the manufacture of which two-layer material “Airdek” was used, the sufficient rigidity of which allows you to preserve the shape of the door during operation [for information, see the Internet at http://activerest.com.ua/materials/]. The tent has windows equipped with blinds, inserts made of carbon fiber plastic or plexiglass, or blinds made of transparent PVC material and mosquito nets, has inputs for heat-pumping equipment and electrical wiring.

The thermal insulation properties of the tent are ensured through the use of a multilayer material for the manufacture of internal isothermal insulation. The structure of the material is shown in FIG. 2. The material has four layers. The inner layers are represented by synthetic winterizer 6, which is usually used as a heater in sewing production, and aluminum metallized polypropylene film 7. An example is BOPP film (BONN), which is widely used in industry [the information can be found on the Internet at http: / /www.daymondpack.ru/matall_bopp.html]. The function of this film is to reflect infrared radiation. The outer layers 8 (top and bottom) of the insulation material are made of a tightly woven polyester fabric, they are reinforcing and do not support bacteriological substances, which is important when operating in the field. In this case, the layers forming the internal isothermal insulation are interconnected using hot-melt adhesive, applied by dots or stripes to the surfaces to be connected. Powder hot melt adhesive used in the clothing industry can be used. Such a combination of layers allows them to be securely fixed to each other and ensures the formation of additional air gaps, which increases the thermal insulation properties of the isothermal material as a whole.

For tents intended for use in countries with hot climates, it is advisable to use an additional sunshade 9 (see Fig. 1). It is made of PVC material, or of lightweight polyoxford material (polyester fabric made of thick threads). The optional sunshade 9 may have perforations that increase the wind resistance of the tent.

This tent 9 is fixed with stretch marks on additional pneumocylinders 10 located on the outer tent 2 of the tent. An additional air gap, the thickness of which is determined by the diameters of the pneumocylinders 10, further increases the thermal insulation properties of the tent. Awning 9 can perform the function of camouflage when drawing on it the appropriate terrain pattern. The outdoor awning and the optional sunshade are secured with stakes and stretch marks. Thus, the claimed tent combines the advantages of well-known inflatable tents and the advantages of tents, the thermal insulation of which is provided by layered composite materials. Unlike the prototype, the isothermal insulation of the claimed utility model is made of materials widely used in industry. For its manufacture, the use of special equipment and special expensive technologies is not required. Tests of the material showed its high heat-insulating ability, namely, the thermal conductivity of this material is 0.04 W / m · K.

The high heat-insulating properties of the applied four-layer material, the ability to reflect infrared radiation of an aluminum metallized polymer film, combined with the thermal insulation properties of the pneumatic frame itself, make it possible to use the tent in harsh climatic conditions. The tents made according to the utility model have the following characteristics:

Climatic conditions of use: - outdoor temperature, ° C -40 / + 50 - wind speed up to 25 m / s (without dust), or up to 20 m / s with dust saturation up to 5 g / m3.

- atmospheric pressure corresponding to an altitude of 0-3000 m

- relative air humidity up to 99%, at a temperature of plus 25 C °

- snow load up to 25 kg / m ²

The air temperature inside the tent when using external heaters, not lower than + 23 ° C.

Floor temperature + 10 ° C when using floor insulation and an outside air temperature of 50 ° C.

Claims (6)

1. The tent, which has a frame, an insulated floor and a multilayer tent, forming a roof, side walls and end walls with an opening for entry, and equipped with an isothermal insulation, characterized in that it has an external tent, a multilayer material is used as an isothermal insulation material comprising a synthetic winterizer layer and a layer of aluminum metallized polypropylene film, enclosed between the outer layers made of a polyester fabric, the layers being interconnected using hot-melt adhesive, applied connected by dots or in separate strips to the joined surfaces. 2. The tent under item 1, characterized in that it has an additional sun canopy, mounted above the outdoor tent with a gap equal to the diameter of the air tanks located between them. 3. The tent according to claim 1, characterized in that the insulated floor is made of foamed polymeric material packaged in a waterproof fabric. 4. The tent according to claim 1, characterized in that the pneumoframe is used as the frame. 5. The tent according to claim 4, characterized in that the pneumatic frame is made sectional with a dual-circuit inflation system with alternating sections of the circuits. 6. Tent for PP. 4 and 5, characterized in that the pneumoframe has a lower band around the perimeter.

Images