NO130545B - - Google Patents

Description

Three-dimensional, interconnected network construction.

The present invention generally relates to three-dimensional buildings or constructions. The construction is distinguished by the fact that it is collapsible, and that it is made up of a number of rod-like elements which, when combined, form a compact assembly, the length of which does not significantly exceed the length of a single one of the rod-like elements.

Application of the addition principle to achieve a small storage and transport volume is in itself known and used for three-dimensional constructions. Patents have been granted for such constructions, see e.g. British Patent Nos. 789,920, 791,189,

806,170, 923,231, 937,295, 1,006,972, 1,060,446, 1,123,791 and U.S. patent no. 3 341 989. Such constructions are calculated

for tents, garages, buildings and other constructions. All the aforementioned inventions are characterized by the fact that they take up less space when the individual elements are assembled, folded or in a disassembled state in some other way.

However, a definition of the term sara-foldability will now be introduced, and the difference between "genuine foldability" and pure "dismantability" must also be pointed out. While a three-dimensional construction that is characterized on the last-

said way can be taken apart without being destroyed, stored and/or transported and preferably also rebuilt, true collapsibility as the term is defined for the present invention, will indicate that a three-dimensional construction designated in this way, in the folded or folded state,

still forms a coherent whole if it is still demountable, i.e. that the elements in such a construction are still connected even if the construction has a significantly changed shape and a reduced scope.

A collapsible, lattice-like construction of

the type that lies within the general definitions dealt with in the preceding paragraphs is described in British patent no. 1 009 371. In this patent, the description and patent claims indicate a collapsible network construction comprising a number of rod groups where each group consists of rods that are connected to each other at points between the rod ends for rela-

tive joint movement between these, where each end of each rod in a group - in order to be able to swing in relation to each other - is connected

let the ends of (n-1) bars in further (n-1) groups and the resulting three joint axes of each bar are parallel, arranged across the bar and lie in a common plane which also re-

nom the rod's longitudinal axis, with at least some of the different connection elements that connect the rod ends being directly connected

connected by means of flexible and non-extensible devices,

e.g. cables or ropes which are subjected to direct tension to limit the unfolding of the rod assembly when a predetermined structure is to be provided.

After reading British patent 1,009,371

the following remarks can be made:

1) The collapsibility of the constructions stated in the aforementioned patent is based on what can be called the case principle,

as these constructions are in reality two-dimensional scissor devices. Since each of the individual rod elements in the constructions has three connection points "between the upper and lower end",

must such constructions be considered as three-layer grating constructions.

2) In the case of constructions according to British patent 1 009 371

is it necessary, due to the construction principle, to

more stiffening of the elements, such as cables or ropes. In reality, there is a need for three cables or rope systems, as without these the constructions would collapse or even collapse due to the elements' own weight.

3) Although the description in British patent 1,009,371

is clear regarding the setting up of the patent-protected construction

tion, it is not described how the construction is put together.

It is not clear how the construction is put together. It is

not clear how the construction can be assembled in practice without loosening not only the individual "cross cables" c, but also in the cable systems a and b mentioned in the patent which, when the construction is assembled, will probably form heavy and unmanageable loops.

A removal of and a subsequent reconnection of the cable system

mean, on the other hand, will increase both the set-up and joining times to such an extent that these constructions will be impractical for the purposes intended with the constructions according to the present invention, which will be described in the following.

Another known construction is disclosed in U.S. Pat. patent

3,059,658 (Thomas R. Finlayson) which claims a "Waiting Room Framework" that can be held up against the present invention,

in that it has certain formal points of similarity with an embodiment according to the present invention. The construction according to this U.S. Pat. patent is stated to be collapsible, and that after folding it forms a compact bundle where the rod elements of which the construction is made up are essentially parallel. The construction to which the specified patent relates derives its rigidity and stability from the fact that it is whole

out triangular, i.e. that the polygons that form the spatial shape are three-

edges whose horizontal baselines.firstly form "roof footings", and secondly they connect the ends of the support bars lying against the ground, or in the absence of such lie . direct

on the ground itself to which the construction must be firmly attached. Since a multi-sided construction can only be completely assembled if its individual polygons have 2n sides, constructions before being assembled must be converted from the triangular shape (a triangle has 2n-l sides) to a right-angled shape. This can only be done if the horizontal base line in the triangles is removed, i.e. the eaves rods together with the connecting devices on the ground which can be cables or rods or in the absence of such, anchorages to the ground.

The present invention differs from and constitutes an improvement of the invention according to the aforementioned U.S. Pat. patent no.

3 059 658 in that the individual polygons have 2n sides, so that the construction can be completely assembled without it being necessary to remove any of the construction elements. Most important is

however, that the known construction will collapse immediately without the devices that hold it lying against the ground ending up in a stable position, while the present invention consists of a construction that is self-supporting due to its geometry and particularly due to the design at the connection points, such it is explained by the commentary on the above B. Fuller document. The present invention cannot therefore be derived from the invention according to U.S. Pat. patent no. 3,059,658.

Reference can also be made to French patent no.

1 432 334 which shows certain points of similarity with the present invention, but with a fundamental difference, namely that the construction according to this patent is not collapsible, but only demountable.

The network construction according to the invention is thus of the kind that is composed by means of a number of connecting elements and a number of rectilinear, almost rigid elements which are mutually interconnected and interconnected by means of the connecting elements, as this construction is based on the geometric form of a polyhedron which is composed of planar or space-arranged polygons with 2n sides, and is collapsible, which connection elements comprise incisions and/or guide and stop devices that completely limit and delimit the specific angular position of the rod-like elements in relation to each other and in relation to the central axis of symmetry

for the connecting elements, that the incisions and/or the guiding and stopping devices make the structure essentially self-supporting once it is set up, and the invention is characterized by at least some of the rod-like elements being movable with more than one degree of freedom, at least to a certain extent in in relation to the associated connecting elements, while other rod-like elements are forcibly controlled in relation to the associated connecting elements, so that their movement is limited to only one plane and so that the construction in the assembled position forms a bundle of rod-like elements with a length that is essentially equal to the length of a single rod-like element.

The construction according to the present invention

is "really" collapsible or collapsible. As much attention is paid to "setting up properties" as to "combining properties", and the merging takes less time than the setting up. The joining process that is specific to one of the designs

according to the present invention, i.e. for the dome-shaped construction shown in the later-mentioned figures 1 and 2, shall be stated in the following:

1) The five lowest connection points 2D (fig. 1 and

2) on which the construction rests, are tilted over until they are essentially perpendicular to the central of the three rod-like elements.

2) The later described locking washers 9 (fig. 4) free-

is done by turning them a quarter of a turn.

3) The upper (central) connecting element 2A (fig.

1 and 2) are pulled down so that the top point in the construction is adjusted. During this and subsequent joining steps, first all and later at least some of the rods will be in an angular

hold in one or two planes due to the special construction

of the connecting elements, as the light stress caused by the conversion to the inwardly folded top points produces enough friction to enable these conversions. In reality, this means that the aggregation can be performed in a "controlled"

way as opposed to the "disaster-like" way.

4) The rest of the inward folding top points are readjusted by pushing them inwards, as the "controlled" readjustment method also applies to these. 5) The thus spider-like folded construction is now joined to one arrangement of practically parallel bars by pushing all the "spider legs" towards the center. The need for frequent resetting, and that would also mean too easy

and quick folding, are also included in the utility properties of the construction according to the invention, which can be used in tents and small

houses for outings, small trips and on the beaches or for similar short-term use, as these constructions exclude complicated and time-consuming set-up and assembly processes.

When considering the geometry of the construction according to the invention, it can be determined that the main shapes are either spherical (dome-like) or cylindrical. In the latter case, the axis of symmetry of the cylindrical sleeve can also

forms the axis of the construction, either parallel to or perpendicular to the ground. Cylindrical structures with a vertical axis of symmetry can be closed at the top by building up a pyramid which has an n-sided symmetry identical to the symmetry of the cylindrical shell. The total number of rod-like elements which are connected by an appropriate number of connecting elements thus form a spatial network which essentially corresponds to the outline of the underlying main shape, as described above, and consists of a number of spatial polygons with 2n sides.

It should be noted that the design of the connecting elements is such that at least some, but possibly all, of the rod-like elements can be moved with more than one degree of freedom

degree, while other rod-like elements are limited in their movement

coming to only one plane in relation to one or both associated connecting elements.

Regarding the relevant number of rod-like ele-

ments which are necessary for a particular structural embodiment according to the invention, it should be pointed out that the relevant number is either equal to the ideal number of rod-like elements prescribed by the theoretical form of the construction or different from this ideal number, and in the latter case either one or several elements removed or added to provide entrance to the structure or connecting or passage openings between several such composite structures or any combination of these elements.

A special feature of the constructions according to the invention is that such a construction by means of of connection elements can be connected and combined with one or more identical or similar, or even different constructions in such a way that a new construction is produced that is more complicated than the basic construction.

Although the constructions proposed according to the invention can in principle be regarded as self-supporting, unforeseen, concentrated or random forces can be counteracted by

attach or stiffen at least some of the joint connection elements

tene by means of locking devices which can either be one with or be attached to the connecting elements.

In the case of the proposed constructions, support elements are not required inside or outside the space they enclose,

but the structures can be anchored to the ground with or without the use of bar dunes.

The constructions according to the invention can be covered

with at least one flexible cladding that can be attached either to the inside or outside of the structure or with several claddings,

where some are attached to the inside and some to the outside of the construction. The construction can be assembled and/or set up

with the cladding or claddings fitted. Alternatively, the cladding or claddings can be attached to the structure after erection and removed from the structure before it is assembled.

These coverings can be made from any flexible material, such as natural, synthetic or mixed fabrics

fibers. They can also be made from rigid sheet materials (of metal, plastic, paper, mineral etc.). In the latter case can

these elements are attached to each other and to the structure by means of such known processes as lacing, gluing, welding, riveting etc. and/or by means of a series of suitably placed and designed connecting elements, e.g. hooks, rings, clamps, hangers etc.

The construction according to the invention can be used

for tents, cottages for outings, small trips and on the beach, as self-standing stands at exhibitions, as first aid stations and emergency hospitals, as temporary auxiliary stores and mobile goods-

sheds, temporary barracks and the like.

To get a better understanding of the nature

of construction = the construction according to the invention, it must now be described on the basis of the accompanying drawings which only show as examples some simple, schematic and preferred embodiments according to the invention and where:

Fig. 1 is an elevation of a dome-like construction according to the invention. Fig. 2 is a ground plan of the construction in fig. 1. Fig. 3 is a perspective view of a particular embodiment of a rod-like element. Fig. 4 shows a perspective view of a special embodiment of a connecting element of the ball pin type. Fig. 5 is a perspective view of another embodiment of a connecting element of the ball pin type. Fig. 6 shows a connecting element of the fork-pin type. Fig. 7 shows a composite construction which is obtained by joining two constructions of the one in fig. 1 shown type. Fig. 8 shows a connected bundle of rod-like elements which form the fully assembled construction of the one in fig. 1 described type. Fig. 9 and 10 show yet another embodiment of the construction according to the invention, seen in ground plan or elevation, and based on a different geometric design.

Apart from the general form of a special embodiment according to the invention, fig. 1 and 2 the precise location of all the rods and connecting elements. Here, the reference numerals 1 denote the rod elements and 2 the connection elements. The different types of these have a letter added where: •

IA: a rod-like element with one end of the pin type and one of the ball type (see Fig. 3).

IB: a rod-like element with both ends of

the pin type.

2A: connecting element of the pin-fork type which accommodates five rod-like elements IA.

2B : connecting element of the pin fork type which

occupies three rod-like elements (see Fig. 6).

2C: connecting element of the ball pin type which accommodates five rod-like elements (see Fig. 4).

2D: underlying connecting elements.

Due to their geometry, these are mainly of type 2C, except that each element occupies only three rods, as the central rod, which lies in the meridian plane of the spherical construction, does not need the freedom of movement of a ball joint and can therefore be of the pin type.

A special embodiment for an entrance opening, as in fig. 2 is marked with an arrow, is bounded by connecting elements and bars 2Dd-lAd-2Bd-lBå-2C^~lBa-2Bd-lAd-2Dd. Each of the connecting elements 2D^, 2Bd and 2C& occupies a rod-like element smaller than the corresponding non-indexed letters.

The rod-like element which can either be hollow or solid is shown in more detail in fig. 3, and it may consist of any suitable material such as ferrous and non-ferrous metals, plastics, wood or a combination of such materials. This embodiment has a main part 3 which at one end is designed with a ball-shaped top 4 which forms the ball in the ball pin connection. The other end of the rod has a flat tongue 5 which forms the pin element in the pin fork connection. A pivot pin 6 is attached to the tongue 5.

A particular embodiment of a connecting element of the ball pin type is shown in fig. 4 and consists of two halves 7 and 8 which form the main parts of the connecting element, a locking disc 9, a T-shaped nut 10 which presses down the locking disc 9, a bolt 11, a head 12 which has a hook-like shape and serves to hold the cladding, as well as U-shaped incisions which comprise a stop device 13 and a guide 13a which serves to determine the position of the rod-like element in relation to the connecting element as soon as the construction is completely set up. One of the rod-like elements is drawn with dotted lines. When assembling the construction, the ball necks can initially only be moved in one plane, as these are still inside between the

parallel walls for the U-shaped incision. As soon as cool-

the necks have moved past the cuts, the rod-like elements and the main part of the connecting element will be able to pass through

carry out the compound relative motions required for joint

laying the elements to the one in fig. 8 showed bundle-like shape.

When setting up the structure, the ball necks can freely follow the compound, not necessarily symmetrical, pulling forces until they come into contact with the guide floats 13a, which possibly facilitate the introduction

gene in the U-shaped incision, where the movements of the ball necks are finally stopped by the stop floats 13.

Another embodiment of a connecting element of the ball pin type is shown in fig. 5. Here the locking device is out-

formed in one with the connection device and consists of a cup-

shaped part 15 which is rotatably mounted on one of the main halves and which is designed with a series of peripheral slots 16. In the open position of the locking device, the peripheral slots 16 will allow insertion and storage in the U-shaped locating incisions 16a. Grip tabs 17 facilitate the rotation of the locking cup 15, and this rotation

ning results in the notch outlets 16b being blocked, so that the

the necks are prevented from leaving the respective incisions.

A preferred embodiment of a connecting element

of the top fork type is shown in fig. 6. The rod elements are only allowed to move in a plane in this connecting element, the guide slots 19a having essentially the same width as the thickness of the pins 22. In this embodiment, the two halves are held together by a bolt 20 which has a hook-shaped head 21. The one with dotted lines show pin end 22 of the rod-like element 23 is designed with a pivot pin 24 which is rotatably supported in one of the two halves of the connecting element. The bottoms 18a for the guide slots in the upper half serve as stoppers.

In fig. 7 are two dome-like constructions of

the one in fig. The type shown in 1 merges into a larger and more complicated construction. Here, the basic constructions are denoted by the reference numbers 25 and 26, and the connecting fittings by 27 and 28.

A connected bundle of rod-like elements

which is formed by a completely aggregated construction of the on

fig. 1 shown type, is shown in fig. 8. The closely folded, rod-like elements are substantially parallel in it

folded position, and some of the connecting elements are located at the top of the bundle and some at the bottom thereof. In the example shown - the cladding is removed before the assembly of the structure, although this is not necessary in practice.

Another embodiment of the proposed constructions is shown in fig. 9 and 10. This is a basically cylindrical construction with a vertical axis of symmetry, and the construction is closed at the top by means of a pyramid.

A preferred set-up process of some embodiments of the invention will be described below, referring to fig. 1 and 2 in the drawings: (i) The bundle of parallel, rod-like elements (shown schematically in Fig. 8) is set down on the ground so that the rod-like elements assume a mainly vertical position, with the connecting elements of the ball pin type touching the ground. (ii) The five elements 2D lying at the periphery and touching the ground (fig. 8) are pulled outwards in the radial direction as far as they can be moved, so that the construction at this point takes on a spider-like appearance. (iii) One of the persons working on the erection of the structure (hereinafter referred to as "construction worker") then lifts up the two upper bars IB (fig. 2), which delimit the entrance opening, so that another construction worker there can take its place under the now partially pulled out construction. (iv) The second construction worker then lifts the central connecting element 2a and holds it high, while the first building worker pulls out the peripheral 5-element connecting elements (including the 4-element connecting element 2C$ (Fig. 2) for the entrance opening) . (v) The five base-contacting connecting elements (Figs. 1 and 2) are manually tilted outwards as far as they will go, and the locking washers 9 (Fig. 4) are now attached to each of the five connecting elements 2C of the ball pin type after these connecting elements are first is pulled outwards until all the ball necks lie correctly against the stoppers 13 (fig.

4) in the respective sections. Then apply

the locking discs with the slots 9a (fig. 4) and finally turn the discs approximately a quarter of a turn. The construction is now set up and can be anchored to the ground if this is required.

The assembly process has already been described earlier in this description, and in reality becomes a more or less reversed process in relation to the above-mentioned setup process.

Claims (4)

1. Three-dimensional, interconnected network construction, composed by means of a series of connecting elements (2A, 2B, 2C, 2D) and a series of rectilinear, approximately rigid elements (IA, IB) which are mutually interconnected and interconnected by means of the connecting elements, this construction is based on the geometric form of a polyhedron which is composed of planar or spatially arranged polygons with 2n sides, and is collapsible, which connecting elements (2D,2B,2C) comprise incisions and/or guiding and stopping devices (13,13A, 16,16A,16B) which completely limits and delimits the specific angular position of the rod-like elements (1A,1B) in relation to each other and in relation to the central axis of symmetry of the connecting elements, that the incisions and/or the guide and stop devices make the construction in the main body self-supporting once it is set up, characterized in that at least some of the rod-like elements (IB) are movable with more than one degree of freedom at least to a certain extent in relation to the associated connecting elements (2C, 2D), while other rod-like elements (IA) are forcibly controlled in relation to the associated connecting elements, so that their movement is limited to only one plane and so that the construction in the assembled position forms a bundle (fig. 8) of rod-like elements with a length that is essentially equal to the length of a single rod-like element . 2. Construction according to claim 1, characterized in that the actual number of rod-like elements needed for the construction is either equal to the theoretical number of rod-like elements prescribed by the shape of the construction or is different from this theoretical number, and in the latter case either one or several members removed or added to provide entrance to the structure or connecting or passage openings between several such structures or any combination of these members. 3. Construction according to one of the two preceding claims, characterized in that the construction comprises connection elements (27,28) by means of which it can be connected and combined with one or more identical or similar or different constructions in such a way that a new construction that is more complex than the basic construction. 4. Construction according to any one of the preceding claims, characterized in that at least some of the joint connection elements are provided with locking elements which are either in one with or are attached to the connection elements in order to fasten or stiffen them.