RU128649U1 - INFLATABLE CONSTRUCTION - Google Patents

Abstract

Technical inflatable structures is to reduce the complexity and time of its construction.

An inflatable structure is characterized in that it contains an inflatable base, inflatable end arches connected and connected to the base, and a frame located above the base, made of longitudinal and transverse inflatable elements connected and interconnected. The frame is connected to the end arches and the base. The cavity of the frame, consisting of transverse and longitudinal inflatable elements, is hermetically separated from the cavity formed by the inflatable base and end arches. The frame made of connected and interconnected longitudinal and transverse inflatable elements is divided into at least two sealed parts, the cavities of which are hermetically separated from each other.

Description

This technical solution relates to prefabricated inflatable pneumoframe structures made of flexible modules connected and communicated to each other in the supporting structure of the structure. The technical solution is intended for use in the field of construction, as well as for the construction of shelters for various purposes.

Known pre-fabricated inflatable structures and pneumatic frames, each of which contains an inflatable pneumatic module connected to at least another similar adjacent module, and the cavity of the modules communicated with each other (RU 2169818 C1, 06/27/2001; RU 2375533 C1, 10.12. 2009; RU 97122083 A, 09/10/1999; RU 2182811 C1, 05.27.2002; RU 2171344 C1, 07.27.2001). Known structures during their construction are inflated with air, and when folded into a transport position, air is removed from them.

From the foreign patent documentation, prefabricated structures are known, each of which contains an inflatable pneumatic module connected to at least another related pneumatic module, the cavity of the modules being interconnected (US 2011107681 A1, 2011-05-12; US 2011209416 A1 , 2011-09-01; US 20110139956 A1, 2011-06-16; KR 20100008302 U, 2010-08-20; CN 201919998 U, 2011-08-10; CN 201835586 U, 2011-05-18; JP 2011149199 A , 2011-08-04; JP 2011510191 A, 2011-03-31).

It is significant that the well-known inflatable structures do not meet the requirements of pre-fabrication due to their design features.

Close to the inflatable structure described in this description is an inflatable structure, characterized in that it contains an inflatable base, inflatable end arches connected and connected to the base and a frame located above the base made of longitudinal and transverse inflatable elements connected and connected to each other, while the frame is connected to the end arches and the base (Unified Rescue Service Magazine, No. 1, March, 2012, p.55 "Our BVP can be deployed and collapsed at extremely low temperatures ").

The technical result of the utility model is to reduce the time and complexity of the construction of an inflatable structure.

The technical result was obtained by an inflatable structure, characterized in that it contains an inflatable base, inflatable end arches connected and connected to the base and a frame located above the base made of longitudinal and transverse inflatable elements connected and interconnected, while the frame is connected to end arches and the base, and the cavity of the frame, consisting of transverse and longitudinal inflatable elements, is hermetically separated by partitions from the cavity formed by the inflatable base and end a kami. The frame made of connected and interconnected longitudinal and transverse inflatable elements is divided into at least two sealed parts, the cavities of which are separated from each other.

Figure 1 shows an inflatable structure in side view; figure 2 is a view of figure 1; figure 3 is a view of the structure from above; figure 4 is a view of B in figure 1; figure 5 shows a second construction on the side view; figure 6 - view In figure 5; Fig.7 is a view of the second construction from above; in Fig.8 is a view of G in Fig.5; figure 9 is an example of an inflatable structure, the frame of which is made of two parts, top view.

The inflatable structure contains an inflatable base 1 (Fig. 1), connected and connected to the base of the inflatable end arches 2 and 3, and a frame 4 located above the base, made of longitudinal and transverse inflatable elements 5 and 6 connected and connected to each other, respectively. The frame 4 is connected to the end arches 2 and 3 and to the base 1 by connecting elements. The cavity 7 of the frame is hermetically separated by partitions 8 from the cavity 9 formed by the inflatable base 1 and the end arches 2 and 3.

The frame, made of connected and interconnected longitudinal and transverse inflatable elements 5 and 6, is divided into at least two parts 10 (Fig.9). One part 10 has an airtight cavity 11. The other part 10 has an airtight cavity 12. The cavities 11 and 12 are hermetically separated from each other by the partitions 13. The second construction is performed in a similar manner. Each partition 8 is inseparably connected to its corresponding transverse inflatable frame member 5. Each partition 13 is inextricably connected to its corresponding part 10 of the frame. These partitions are such, since they separate the air cavities of adjacent elements of the structure.

Each embodiment of the structure (Figs. 1, 5) has pneumatic valves 14, pressure relief valves 15 and pressure tubes 16 for supplying air under pressure in the cavities 7, 9, 11 and 12. Each embodiment of the structure has an outer skin 17 and an inner skin 18. Sheaths connected to the corresponding elements of the structure by connecting elements (not shown). Each connecting element is quick-detachable and it is fixed in the design position on one of the parts of the structure.

The inflatable structure works as follows. The structure is assembled on a support platform, for which purpose, first, base 1 is installed on it (Fig. 1) and through the tubes 16 and valves 14, air is supplied into the cavity 9 of the base 1 under pressure until excess air exits through the safety valves 15. Next, it is installed on the base 1 frame 4, which is then connected to the base 1 by connecting elements. After that, end arches 2 and 3 are connected to the frame 4 by connecting elements. The second embodiment of the inflatable structure is similarly assembled (Fig. 5). After the assembly of the structure, the outer and inner casing 17 and 18 are attached to the frame, arches and base with connecting elements. After the assembly of the structure, its cavities 7, 9, 11 and 12 are divided by partitions 8 and 13.

During the operation of the structure, its skeleton base and arches experience various loads that are redistributed through the connecting elements of the structure and through the casing, while the air pressure is held in each cavity 9, 11 and 12 separately from each other. If the wall of the carcass part 10 (Fig. 9) is damaged and air escapes from the cavity 11 due to depressurization of the carcass part 10, then the air pressure in the cavity 12 of the other carcass part 10, as well as in the base cavity 9, is maintained and the structure is kept from collapsing . If necessary, the damaged part 10 is replaced with a new part, for which the connecting elements are disconnected, the damaged part is removed from the structure and a new part 10 is installed in its place. In the same way, the damaged base 1 or arches 2 and 3 are replaced.

The construction of the structure meets the conditions for its convenient and quick construction in difficult and dangerous conditions. Compared with similar structures, this structure, including its modifications, provides a significant reduction in the complexity and time of its construction due to the fact that parts of the structure are essentially separate structures interconnected by quick disconnect connecting elements.

Claims (2)

1. An inflatable structure comprising an inflatable base, inflatable end arches connected and connected to the base, and a frame located above the base, made of longitudinal and transverse inflatable elements connected and interconnected, the frame being connected to the end arches and the base, characterized in that the cavity of the frame, consisting of transverse and longitudinal inflatable elements, is hermetically separated from the cavity formed by the inflatable base and end arches. 2. The inflatable structure according to claim 1, characterized in that the frame, made of connected and interconnected longitudinal and transverse inflatable elements, is divided into at least two sealed parts, the cavities of which are hermetically separated from each other.

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