SU678153A1 - Inflatable structure - Google Patents

Description

(54) PNEUMATIC CONSTRUCTION

The invention relates to pneumatic building structures used in various industries of the national economy as hangars, storage and production facilities, exhibition halls and sports halls. Pneumatic air-supported structures are known, the form and stability of which is provided by the overpressure of air constantly pumped by the fans 1. The closest to the invention is a pneumatic structure including a casing installed on the base and an air supply system with a fan and air ducts. and an air distribution device mounted on the surface of the shell 2. The disadvantages of the known pneumatic structures are the following: uneven flow around the inside of the the shell of the shell by the air flow does not provide the necessary safety and thermal characteristics of the structure; The constant vibration of the material of the diverting pocket under the influence of the sheath under the sheath leads to a rapid release of it. The aim of the invention is to increase the fire safety of the building by ensuring that the discharge air flows around the inner surface of the envelope. This goal is achieved by the fact that in the proposed pneumatic structure, the air distribution device is made in the form of a spherical central part and truncated cone-shaped distribution parts, which are interconnected and directed by smaller bases upwards of the structure, in addition, the air distribution device is located in the middle of the length of the structure, at a height of 1-1 , 5 m from the base of the structure, and the cone-shaped distribution parts are made in the form of two sweeps of truncated cones, the axes of which are They are mounted at an angle of 90 °. FIG. 1 shows a pneumatic structure, side view; in fig. 2 - schosh AYYg. one; in fig. 3 - view B of FIG. 2; in fig. 4 view in fi. 3. The pneumatic structure includes a casing 1 made of elastic material and an air supply system / consisting of the fan 2, the air duct 3 and the air distribution device 4. The air distribution device 4 is made of the same electronic device rial that and. the building envelope, and consists of two parts: forming 5 and distributing b. The shaping airflow part 5 is a quarter of a sphere and is connected by conventional methods to the distribution part of the airflow b. Part 6 is formed by two panels, having the form of scans of truncated cones, the axes of which intersect at an angle of 90, the edge of the air-distributing device along the entire length of the sphere part 5 and along the lines AB, SD, E and FK part b attached the areas of the inlet 7, Arcs BC and EF together with the shell1 Form the outlet openings. . . .. l. The air distribution device 4 is fastened to the inner surface of the shell 1 in the middle of the length of the structure, at a height of 1-1.5 m from the floor ..-. :, .- -. . . . The air blown by the fan 2 through the flexible duct 3 enters through the air distribution device 4 through the inlet 7. When it hits the sphere of the forming part 5, the air is directed to the distribution part with minimal energy losses. b, where it is divided into two streams exiting through the outlets 8 at an angle of 90 relative to each other. These air: streams uniformly flow around the entire inner surface of the shell, creating a heat insulating layer of moving air.

At the same time, as shown by tests with an open source of fire placed inside the structure, the moving air deflects the flame from the shell, preventing its ignition and thus increasing the fire safety of the pneumatic structure.

The design of the air distribution device also contributes

678153

. Sources of information taken into account in the examination

1.EpMcJioB VB Pneumatic air-supported structures. Stroyizdat, M., 1973, p. 188, fig.

Claims (2)

536.: -: - -. - ...; 2 .Ermolov V.V. Pneumatic structures of the bearing type., Stroyizdat, Moscow, 1973, p. 215, fig. bb reducing the vibration of the edges of the device, which increases its service life by up to five years, while the known design of the air distribution device is operational for two years. The proposed design of the air distribution device contributes. improving the fire safety of a pneumatic structure with a simultaneous increase in the service life of the device. Claim 1. Pneumatic structure comprising a shell installed on the base and an air supply system with a fan, air ducts and an air distribution device fixed on the surface of the shell, such as to increase fire safety of the structure by providing paBHOMeipHoro-wrapping with injected air of the inner surface of the shell, the air distribution device is made in the form of a spherical central part and truncated cone-shaped distribution Astias, which are interconnected and directed by smaller bases upward of the structure, with the air distribution device located in the middle of the length of the structure, at a height of 1-1.5 m from the base of the structure. 2. The construction according to claim 1, stating that the cone-shaped distribution parts are made in the form of two sweeps of truncated lines, the KOTOpSJX axes intersect at an angle of 90 D ipuz.i 1 3 2 Figg 9id In Rig.Z