DE60117171T2 - INFLATABLE CONSTRUCTION - Google Patents

Abstract

This invention comprises an inflatable structure that is constructed by combining polyhedron structural elements to form more complex geodesic structures. The structural elements are constructed out of straight inflatable tubes, in which the warp of the polyester reinforced fabric is aligned with the principal tube axis, giving it high resistance to bending. The complementary leg ends are connected at the vertices with connectors that comprise a slider and track formation, fixed along the axial angle at the end of each leg. Each leg end is shaped along the natural complimentary lines along the intersecting surfaces of the adjacent structural element. Once assembled, in combination with a fabric cover and groundsheet, the tent is stable and completely freestanding.

Description

at This invention is an inflatable structure.

Of the Applicant is the patent owner of patent ZA 9705569 - Inflatable Tent frame - which describes a frame consisting of at least three tube supports, which, in turn, form separately sealed chambers that communicate with fluid, such as air or gas, let inflate, thus one Frame construction for a tent or a canopy to build.

Usually become inflatable structures, for example inflatable boats, inflatable ones Lifeboats and the like, made of airtight fabric. These substances usually consist of reinforced with polyester fabric Polyvinyl chloride (PVC). The fabric is cut and welded, either with heat welding or adhesives to the desired To get shapes.

Indeed tend relatively long and thin roar for deformation, especially if they are not supported. An attempt to solution This problem is, for example, the use of many such inflatable tubes, which are assembled into a structure as described in the French Patent number 2967045 (A.S. Semmel). This is complicated and expensive.

These Type of problems usually does not occur in watercraft, since these from relatively short roar with big Diameter and usually also solid or semi-solid construction parts include, to which the tubes are attached.

at the conventional one Technology for Inflatable tents make it very difficult to have a completely free standing frame to build that is not supported by anchors or anchor ropes. The stability is mostly due to the use of tubes with a relatively large diameter achieved, combined with an anchoring system, reducing the tent relatively heavy and expensive, and the potential application to one relatively small and specialized market sector is limited. An assortment of tubes in a tetrahedral formation is described in the British patent Number 2090622. Here are the ends of all three tubes connected to the ground. It does not follow that these tubes are connected can be.

frame assemblies are typically for a tent or a canopy used, the design-related crossovers their production with current manufacturing processes for inflatable roar usually too complicated and difficult.

at usual Tent constructions with one of massive construction elements As metal tubes or spring steel bars built frame becomes one belonging Measure Work, foreknowledge and time needed to build the tent. These tents, even in their simplest Form, always consist of different parts that are composed Need to become. U.S. Patent 3,502,091 (Corbin) shows a tent support frame made from a first strut which is connected by hinges with side struts. To the Framework in its supporting Location to get there is a complicated node with one continuous extensible Rod, as well as a cable system with locking device, bringing the first strut in the desired Situation is drawn.

in the US Pat. No. 2,938,526 (Harrison III, et al) discloses an inflatable canopy with a collection of tubes some of which are put together in tetrahedral formation, where there is a cap part connected to twelve inflatable struts is. Although this seems theoretically possible, it is doubtful if that succeeds in practice. The cap part is too complicated in fact to be produced. apart Ropes are needed to tie together the ends of the formation so that this structure can be built. Furthermore, there are spoke-like roar between the formation leading up to the cap part. This will mean that webbings on either side of each spoke lean towards each other have to, whereby a complex inner shape is created.

It an object of this invention, tubular construction elements to deliver that eliminate these shortcomings, and to provide structures using such construction elements.

description the invention

These Invention consists of a construction of several construction units, each of which consists of three inflatable legs, of which two support legs and the third is a ridge bone, each leg being a free one and an inner end has and the inner ends of the three legs connected to a central point. Here are the Legs placed so that they form a tetrahedron with the three on three adjacent edges of the tetrahedron lying legs and with the adjoining pairs of legs, in levels of three sides of the Tetrahedron lie, with the free ends of the legs the fourth page of the tetrahedron; the free ends of the units are closed and the first legs of the units will be with the corresponding legs the other units connected at a common point.

The Three legs of each unit are as long as possible, though two of the legs are the same length and the third leg is another Length has. Every leg is possible just. Each leg has as possible also a plastic reinforcement made of woven fabric. The curvature of the fabric is aligned according to the tube axis.

One joint is attached at the free end of at least one of the legs, thereby it is connected to an identical leg of another construction unit can be.

by virtue of its polyhedral shape gives the. Design element of the invention in conjunction with the same construction elements a variety of geodesic Superstructures. In such configurations, the ridge leg of the construction elements attached to the ridge leg adjacent same construction elements become. In the same way the support legs the construction elements to the support legs adjacent same Construction elements are attached.

The First leg of each design element can be matched with connectors be fitted so that they are easily adjacent to the ridge legs First legs can be connected and disconnected again. On same way you can the support legs of each structural element provided with mating connectors so that they are easily connected to the support legs of adjacent construction elements and can be separated again.

In The preferred form of the invention forms the connector simultaneously the mating rail sockets and Aufsteckstücke, the can be put together to connect the construction elements together.

The tube ends of each construction element are geometrically shaped according to the natural given Lines at the intersecting surfaces the adjacent construction elements. The connectors will be attached in their relative axis angles.

On In this way, the adjacent construction elements can be easily attach to each other and yet form a very solid and supportive connection, taking advantage of natural strength the inflatable tubes.

The to a composite construction assembled construction elements form an extremely stable one in this way inflated construction.

Brief description of the drawings

On the drawings:

image 1 is an isometric schematic view of a tetrahedral one Construction element according to this Invention;

image Figure 2 is a schematic plan view of a simple inflatable Assembly assembled four of the construction elements from fig. 1;

image Fig. 3 is a schematic end view of the structure of Fig. 2;

image 4 is a schematic plan view of the connection points of FIGS Construction elements in the superstructures of Figs. 2 and 3;

image Fig. 5 is a schematic side elevational view for illustrating one novel light arrangement for Structures according to the invention;

image 6, 7 and 8 are schematic plan, end and side views of a Construction, the same construction element from Figure 1 with some and unequal units united to a geodesic dome construction, which is more complex than in pictures 2 and 3.

description the embodiments the invention

The inflatable structure The invention is more a construction system than a simpler one Construction. The system uses an inflatable polyhedral Construction element as a basic unit. By the combination such a structural element with the same construction elements or the like polyhedral construction elements can be a variety of Build up structures as shown below.

The construction element 10 shown in Figure 1 has a straight-flanked tetrahedral shape. As a tetrahedron, a polyhedron with four triangular sides, the construction element consists of three inflatable relatively narrow tubes 10.1 . 10.2 . 10.3 each lying on one edge of the tetrahedron. Three of the triangular sides of the tetrahedron are formed by the triangular areas between the three legs, the fourth triangular side being formed by the area defined by the free ends of the legs.

Different expressed the construction element forms a support element in the form of a upturned Y.

The legs 10.1 and 10.2 lie on the inverted arms of the Y and form the support legs. The remaining leg 10.3 forms the stem of the Y, which at a relative angle to the legs 10.1 and 10.2 stands to form the support beam in constructions, which consist of the construction element 10 to be built.

The tubes of the legs 10.1 . 10.2 and 10.3 The supporting construction element consists of airtight polyester fabric reinforced PVC.

The fabric reinforced with polyester fabric is with its curvature along the major axis of each of the tube legs 10.1 . 10.2 and 10.3 aligned. This gives the tubes a high flexural strength.

Provided a certain curvature the pipes desired is a dome-shaped one To obtain tetrahedra, the polyester fabric reinforced material be designed with more or less bias (with the curvature in an angle to the tube axis), depending on the desired Curvature.

Of the Airtight fabric becomes the length every tube welded together twice. In practice, the fabric is welded along axially extending seams, with a welded-in Separate strips of fabric along each seam for a better seal to ensure.

The tubes for the legs 10.1 . 10.2 and 10.3 are at their inner ends 10.5 interconnected via a connection 12 through which the pressurizing fluid inflates and deflates the structural element 10 can flow freely. The closed end 10.4 every leg 10.1 . 10.2 and 10.3 is geometrically shaped according to the naturally given lines at the intersecting surfaces of the adjacent construction elements.

The construction element 10 is by means of an inflation valve (shown schematically in 14 ) are inflated and deflated. The inflatable tubes are airtight and once inflated with compressed gas to the desired pressure and sealed, retain their strength and support force without further addition of compressed air.

The would be most practical Druckfluidum Compressed air from a blower or compressor, or from a compressed gas cylinder, but alternative Pressurized fluid such as vehicle exhaust gases may also be used, provided that the required inflation to be used.

The construction element 10 The invention can be combined into relatively complex structures due to the tetrahedral shape of the unit 10 have the properties of geodesic domes.

The simple construction 100 shown in Figure 2 and Figure 3 provides an example of the capabilities to build the foundation 10 ,

In construction 100 are four of the units 10 connected to a quadrilateral frame.

The ridge legs 10.3 the unit 10 are at the junction at the ridge 102 of the construction 100 connected by connectors described below.

The support legs 10.1 and 10.2 the construction elements 10 go down to the floor and are connected by connectors described below.

The structure 100 can now be covered with a fabric cover (not shown).

As soon as the structure is covered with a fabric cover and attached to a ground cover is fixed, it is completely standing free and does not need pegs or anchor ropes to keep it stable to keep. One now needs very little experience or previous knowledge of Construction of the tent. The energy to build the tent is provided by the pressurized gas delivered and the whole process is in a fraction of the time needed time done. You do not have to assemble anything to set up the tent. The unit just needs to be unfolded and inflated so that the tent is standing. The same applies to the dismantling of the tent. The valves in the tubes are opened to to release the compressed gas and the entire structure works together. He then becomes conventional Way folded back into a unit. There is no Rods or other construction elements to pay attention to.

The structure 100 offers a high degree of wind resistance, but if necessary, the structure can also be fixed with pegs on the ground.

You can see that the construction 100 with the help of four separate construction elements 10 which are connected with each other, is placed.

Figure 4 shows two of the metal connectors 15 with which the construction element ends 10.4 the construction elements 10 (the free ends of the legs 10.1 . 10.2 and 10.3 the construction elements 10 ). The ends 10.4 the construction elements 10 are designed accordingly, so that they allow the connection of the construction elements in the axis angle of the finished structure. Each of the leg ends 10.4 is with a flat end weld 13 which is double welded and rests between the flat metal strips that make up the connectors 15 consist.

Every design element 10 has at his leg ends 10.4 a connector 15 that from a Aufsteckstück 16 and a rail socket 18 exists, with the Aufsteckstück 16 built so that it is in the rail mount 18 an adjacent connector 15 can be inserted. The Aufsteckstücke and rail holders 16 . 18 are designed to ensure a secure friction fit as soon as they are put together. The connectors are fixed in their respective axis angles at the apex of the polyhedron.

The use of the connector 15 At the end of each tube has the advantage that can connect two or more tube ends to a very solid and stable hold, eliminating a complex welded connection.

The entire connector 15 is riveted together with blind rivets. This has the advantage that plug-in parts 16 . 18 can be removed to allow opening of the tube ends for maintenance purposes.

In some situations, it may be appropriate to have a sealing ring between the seal assembly consisting of the connector 15 and the welded tube ends to improve the sealing effect.

The structure shown in Figs. 2 and 3 100 is a relatively simple structure, only the basic components 10 used as shown in picture 1. The basic building unit 10 however, it can also be used with similar but somewhat more complex design elements to obtain more elaborate structures, as shown in Figures 6, 7 and 8.

The structure 200 shown in these drawings uses three of the basic components 10 at each of its short ends.

The ridge and the long sides of the construction 200 are formed by a pair of opposing construction elements 204 each of which consists of a pair of support legs 204.1 and a pair of ridge legs 204.2 which is up to a ridge beam 206 go the first of the construction 200 forms. The ridge legs 10.3 of the elements 10 at each end of the construction 200 are with the ends of the ridge beam 206 associated with the method described above.

One notices that the construction element 10 produced in combination with other similar construction elements a variety of geodesic structures. In such constructions, the ridge legs of the structural members may be secured to the ridge legs of adjacent similar structural members. In the same way, the support legs of the construction elements can be attached to the support legs of adjacent similar construction elements. If desired, the basic components 10 be flanked by a slightly modified construction element, each of which only by the basic component 10 distinguishes that it has an asymmetric tetrahedral shape.

Due to their inflatability, the structures of the invention are suitable for novel uses. For example, the structure can be illuminated from the inside by: 20 Light fittings in the interior of the tubes that make up the construction elements are installed.

at This type of application should be the fabric of the tubes and the overall structure according to their translucency be selected to the light effect to increase.

Furthermore have to the superstructures are not limited by land. By their inflatability swim the superstructures on the water and offer new possibilities as a backdrop for Events and advertising.

Claims (10)

A construction ( 100 and 200 ) consisting of several construction units ( 10 ), each consisting of three inflatable legs, the two legs ( 10.1 and 10.2 ) and a ridge leg ( 10.3 ), each leg having a free end ( 10.4 ) and an inner end ( 10.5 ), and the inner ends of the three legs at a central point ( 12 ) are fastened together. The legs are assembled to form a tetrahedron, with the three inner legs at the three adjacent edges of the tetrahedron and the adjacent pairs of legs lying on the surfaces of the three sides of the tetrahedron, and the free ends of the legs the fourth side of the tetrahedron form; the free ends ( 10.4 ) of the unit are closed and the ridge legs ( 10.3 ) of the units are connected to the corresponding legs of the other units at an attachment point ( 102 ) connected. A construction to which, as in paragraph 1, claim is made, characterized by the fact that the three legs ( 10.1 . 10.2 and 10.3 ) of each unit ( 10 ) are the same length. A construction to which, as in paragraph 1, a claim is made, characterized by the fact that two of the three legs ( 10.1 and 10.2 ) are the same length, with the third leg ( 10.3 ) has a different length. A construction claimed as in points 1, 2 or 3, characterized by the fact that a support leg ( 10.1 ) one unit with the other support leg ( 10.2 ) is connected to an adjacent unit. A construction to which, as in any of the preceding Claim is made, which is characterized by: Each leg includes a plastic reinforced with woven fabric. A construction as claimed in items 4 and 5 which is characterized by the curvature of the Stoffs on the tube axis is aligned. A construction as claimed in any of the preceding paragraphs, characterized in that a connection unit ( 15 ) at the free end of at least one of the legs ( 10.3 ) of each element. A construction to which, as in any of the preceding paragraphs, a claim is made, characterized by the fact that the ridge legs ( 10.3 ) are all directly connected. A construction to which, as in any of the preceding paragraphs 1 to 7, a claim is made, characterized by the fact that some of the ridge legs ( 10.3 ) with other ridge legs ( 10.3 ) by an intermediate bar ( 206 ) are connected. A construction to which, as in any of the preceding Claim is made, which is characterized by: the outer ends the legs are shaped according to the connection of the structural elements to allow each other in the axis angle of the finished structure.