An impact shield for earthquake protection is described herein. The impact shield may include a canopy constructed of a puncture-resistant material, the canopy defining a first internal volume accessible via a first opening, the canopy being structured to form a semispherical shape when in an inflated state, the semispherical shape defining a space dimensioned for sheltering at least one human body; a support joined to the canopy and constructed of the puncture-resistant material, the support defining a second internal volume accessible via the first opening and a second opening, the support located within the space, the support structured to form a column when in the inflated state; and a fitting joined to the support for closing the second opening to fix the first internal volume and the second internal volume after inflation of the support and the canopy.

A pneumatic support having a body (112) which can be pneumatically pressurised and which, when under operating pressure, operationally holds a compression member (96, 128 to 131′) which extends substantially over the length of the body and a tensile member (98, 138 to 141′) which likewise extends substantially over the length (I) of the body at a distance from each other, wherein the compression member (96, 128 to 131′) and the tensile member (98, 138 to 141′) are connected to each other at the end in connection nodes (91), and wherein the body which can be pneumatically pressurised has pneumatic drop-stitch transverse fibre pressure panels (100, 165, 113 to 116).

Pneumatic Structure and Associated Production Method

The structure (10) comprises an elastically deformable body (12) defining at least one network of internal cavities (14), each internal cavity (14) having a closed contour in at least one section of the internal cavity (14),

Each internal cavity (14) is able to be pressurized so as to make the elastically deformable body (12) pass from a rest configuration to at least one pressurized configuration,

In each pressurized configuration, the elastically deformable body (12) has a macroscopic metric that is distinct from its macroscopic metric in the rest position,

In each pressurized configuration, the radius of curvature of an outer surface of the elastically deformable body (12), considered regarding each internal cavity (14) adjacent to the outer surface, is greater than twice the size of the internal cavity (14) adjacent to the outer surface.

An inflatable structure for covering a space, includes a plurality of inflatable support members arranged in a framework according to an intended final inflated shape of the structure, a plurality of connector members for directly or indirectly connecting at least two adjacent support members of the plurality of inflatable support members, and a plurality of anchor units positioned at an end of each of the plurality of inflatable support members. The anchor units are arranged to establish ground locations of the plurality of inflatable support members. When inflated, the inflatable support members provide total structural support for the inflatable structure without assistance of any rigid structural members or positive air pressure within the space. A secondary support structure can be disposed below the plurality of inflatable support members, without any interconnection. Each of the anchor units includes a housing and each of air supply units is provided in one of the housings

A convertible inflatable device includes a first inflatable bed, a second inflatable bed, a front chamber, a left chamber, a right chamber, and a rear chamber. The first inflatable bed is surrounded by the front chamber, the left chamber, the right chamber, and the rear chamber. The front chamber, the left chamber, the rear chamber, and the right chamber are connected to each other sequentially. A first end of the second inflatable bed is connected to the junction of the first inflatable bed and the rear chamber. The convertible inflatable device can be converted to an inflatable bed, an inflatable boat, an inflatable water slide or an inflatable recliner chair, and the conversion between any of them is mutual and convenient.

The present invention relates to a pneumatic structure (10) comprising an inextensible body (12) defining at least a network of internal cavities (14), each cavity having a closed contour in at least one section of the cavity

Each cavity being suitable for being pressurized so as to change the inextensible body from a rest configuration to at least one pressurized configuration,

Inextensible body having, in each pressurized configuration, a macroscopic metric different from its macroscopic metric in the rest configuration,

Each cavity being formed of at least two substantially rectilinear channels, each channel being fluidly connected to at least one of the other channels, the two said channels forming a heading change angle,

Each cavity comprising at least one non-zero heading change angle, in particular at least three non-zero heading change angles.

An inflatable drive through tunnel system comprised of an inflatable main tunnel and an inflatable positive pressure booth area for performing simple medical diagnostic tests or the like. A patient can drive into the inflatable tunnel. Medical personnel can take samples from patients who remain in their vehicles. The medical personnel can then store the samples in the positive pressure booth area. The positive pressure ensures that outside contaminants are not brought into the booth through the air when the personnel enter and leave the booth.

The detailed principle, structure, manufacture and designing method of a retractable roof for large stadiums or other huge spaces are established. This roof is formed by using a number of connected and paralleled inflatable arc shaped tubes (called “air beams”) made of soft material (membrane). Using successive inflation to the tubes can realize deploying of the roof, and using successive deflation of tubes can realize retraction of the roof. All these processes can be completed by an automatically controlled program. A rigorous mathematics derivation and mechanics proof show that, the retractable air beam roof with durable membrane of ordinary durability can have a large span of over 100 meters, and can withstand in a regularly extreme (critical) weather (heavy wind, rain, snow and hail). The outstanding strong point of this kind of retractable roof is absolutely safe for spectators and performers (or competitors) inside the stadium.

The document concerns inflatable tents, in particular non-durable, inflatable tents. The tents are provided with an inflated arch and a flysheet. The arch can be simply constructed from first and second flexible sheet materials joined to one another, and the flysheet is pivotally openable about the arch.

An inflatable drive through tunnel system comprised of an inflatable main tunnel and an inflatable positive pressure booth area for performing simple medical diagnostic tests or the like. A patient can drive into the inflatable tunnel. Medical personnel can take samples from patients who remain in their vehicles. The medical personnel can then store the samples in the positive pressure booth area. The positive pressure ensures that outside contaminants are not brought into the booth through the air when the personnel enter and leave the booth.