DE1946609A1 - Construction element - Google Patents

Description

Patent Attorney HAVENBEDRIJF "VLAAEDINGEN-OOST" N.V.

DB. "VV. P. BADT

DIPL.-ING. E. B. FiNKBNBB Vlaardingen / Netherlands DIPL.ING. W. BBNBSTI

Bochum

Heinrlch-Könif-Strafle la Telephone ι 415SO, 43387 Telegrammkdreiae: Radtpatent

69 176
EEF / US

Construction element

The invention relates to a construction element for example a wall or a cover.

Components of this type are known. To the state of techni includes, for example, the well-known honeycomb construction, which consists of two flat plates or the like exists, between which narrow walls are arranged, which extend perpendicular to these plates and form a honeycomb structure. Such is from the Dutch patent application 65.12 546 Construction element known in which the cavities between the plates are formed from short pieces of pipe extending perpendicular to the plates. There are also components known in which the cavities extend parallel to these plates, in contrast to the honeycomb construction mentioned above, in which the narrow walls form cavities that are perpendicular to the panels, as is the case for example the case is the subject of Dutch patent 123 703- These components are used in the ! cases in which a solid, insulating and light wall is to be made.

The known structural elements are concerned with both their manufacture and their structure complicated. The invention is based on the object of designing such a construction element so that

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it with simple means and at low cost can be produced.

The invention "consists in that the structural element consists of tubular elements ", which are placed with their long sides next to each other and by clamping means are elastically pressed against each other. Such a building or construction element has the desired properties; it is light, has good insulating properties and high strength; moreover can be in simpler Way through from a flat construction element

Bend an element with other desired shapes away

be asked. It can be deformed in all directions and can return to its original position.

■ The easiest way to compress the individual teaching elements consists in the fact that fDannstangen be provided at arbitrary intervals, which are at an angle run to the axis of the tubes and passed through a number of juxtaposed tubular elements are. The tubular members can be compressed so that they are merely held together or so that they are elastically deformed. The due date for taking up encumbrances increases to the extent that by increasing the pressure exerted by the tie rods.

A preferred embodiment of the invention provides that the tubular elements are made of plastic, for example of polyvinyl chloride. Hard cardboard, optionally pretreated in a certain way, can also be used as the material for the tube, or other suitable materials. When using plastic, a maximum deformation of, for example, 10% in relation to the action of the tie rods is possible, since otherwise the material will begin to creep.

009813/1233

IMAL

Have in the simplest embodiment of the invention the tubular elements are circular or approximately circular cross-section. When a larger contact surface between the abutting Tubing is desired, so it is possible to use tubes with oval cross-section or tubular elements, the diametrically opposed. Parts are flattened. Of course it is also possible to use tubular elements that have wholly or partially rectangular cross-section when the structural element should have a flat surface inside and / or outside. Pipes with a partially circular shape are also suitable or with a triangular cross-section. In many cases it is useful if the pipes have a slot, which extends in the longitudinal direction.

When the tubular elements with sufficient force are pressed together, there is a perfect seal between the adjacent elements achieved. A strip of sealing material is preferably used to improve the seal, which is placed between two of the pipes pressed against one another. Looks for special uses the invention proposes to fill the pipes, for example to achieve better insulation.

The structural elements according to the present invention are hollow and therefore have good insulating properties; they do not let liquid through and can be produced in a simple manner and inexpensively. she can be used as a wall or cover for buildings, for swimming pools, boat hulls and the like. That Construction element is able to withstand large loads, especially when the individual tubular elements are so strongly compressed that they deform elastically. The ratio of theirs

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Weight to load is very small; the construction element can be deformed considerably in all directions "before it collapses. If the load is reversed, the element reverts to back to its original position.

Embodiments of the invention are shown in the drawing. Show it:

1 shows a construction element,

2 shows a building produced using such a construction element,

Fig. 3 shows another embodiment of the structural element and

4 shows cross-sections through different types of tubes for the construction of the structural elements according to the present invention Invention.

The construction element shown in Fig. 1 consists of individual tubes 1, which by bolt-like Tie rods 2 are pressed together; the rods have a head piece 3 and a nut 4. The fact that the individual tubes are pressed together with sufficient force, the tubes are given a specific shape and / or Provides a sealing material between the tubes, it is possible to seal the component so that it is for the most diverse structures can be used. On Fig. 2, for example, a hut is shown, which can be built up from one or more of the construction elements shown in FIG. The hut can consist of elements 5, 6, 7 and 8, which are connected to one another in a suitable manner. The elements 5, 6, 7 and 8 can also consist of a

009813/1233

coherent piece that is bent in the shape of the vertical cross-section of the hut; in Several such components 9 and 10 are arranged in a row one behind the other in this Pail.

For the production of a container, e.g. a cylindrical silo or a swimming pool according to Fig. 3, the tubes can be bent into rings before they are attached to one another. It goes without saying it is also possible to bend a flat construction element into a cylinder afterwards.

To produce the construction elements, it can be advantageous to use tubes that have a specific Have cross-sectional shape. The cross section can, for. B. completely or partially elliptical, rectangular or triangular or any other suitable shape. So that the pipes lying next to one another lie firmly on top of one another, the invention provides for the contacting surfaces of the tubes to be designed in a certain manner. For example diametrically opposed surfaces can be flattened or an opening can be made provide that extends in the longitudinal direction of the tube. On Figs. 4, 5 and 6 are some examples of different Shown cross-sectional shapes, wherein a slot 12 is provided, which extends in the longitudinal direction of the tubular element 11 extends.

According to Fig. 4, the tubular element 11 has a triangular cross-section and a slot 12 in the tip of the Triangle. On the opposite side of this slot, a projection 13 is attached, the width of which a corresponds to that of the slot 12.

The tubular element 11 shown in Fig. 5 is in cross section circular and provided with a slot 12,

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which is bounded by ribs 14 which are bent outward. On the opposite side is the Wall of the pipe thicker and provided with grooves 16 on the outside; is the section remaining between them designated by 15. The dimensions are chosen so that the width a of the slot i2 and the distance b between the outer edges of the hip Ί4- the width of section 15 or the distance between the outer edges of the grooves 16 correspond so that the ribs 14 fit into the grooves 16.

According to FIG. 6, the tubular element has a semicircular shape Cross-section and is provided with a slot 12 on the upper part of the semicircle- on the opposite one There are two ~ j> pen 17 above the page '' flat part in front. Me distance a between the outer edges of these ribs correspond to the width of the slot 12. Of course, others can also similar designs can be used. This type of tubular element is preferred when it to be used for the production of buildings that must be tight without using sealing material shall be.

If a construction element is to be produced which has to absorb large loads, an element according to FIG. 1 with a circular or oval cross-section and without slots in the longitudinal direction is preferably used.

If the force with which the individual bores are compressed is so great that the structural elements are elastically deformed Plastic pipes, which are elastic by around 10 %

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ρ are formed, with an area of 1 m and a weight of 4 kg were able to withstand a load of around 500 kg without collapsing, the bending load applied over a width of 1 m.

If the drill is not, for example by using a binder or are connected to each other by elements that are firmly attached to the surface of the pipes, they can move against each other in sighting the load, and each element is able to part to absorb the load. When the load no longer occurs, the individual elements strive to move in return to their original position, so that the construction element returns to the original after some time Has shape.

The structural element according to the present invention is light and can be manufactured without major expenditure. It is also capable of a considerable Take up load because it can deform in all directions without collapsing.

Claims

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Claims (9)

19A6609 - 8 claims 1. Construction element, which is preferably suitable as a wall or cover, characterized in that that it consists of individual tubular elements (1, 11) with their long sides are placed side by side and are elastically pressed against one another by clamping elements (2). 2. Construction element according to claim 1, characterized in that tie rods (2) at any intervals are provided which extend at an angle to the axis of the tubular elements (1, 11) and by a number the adjacent tubular elements (1 »11) are guided. 3. "Construction element according to claims 1 and 2, characterized in that the tubular elements (1, 11) made of plastic, preferably made of polyvinyl chloride. 4 ·. Construction element according to claims 1 to 3 » characterized in that the tubular elements (1, 11) are circular or approximately circular Have cross-section. 5. Construction element according to claims 1 to 4, characterized in that between each two compressed Pipe elements a .Strip of sealing material is arranged. 6. Construction element according to claims 1 to 5 » characterized in that the pipe elements (1, 11) are filled with an insulating material. 7. Construction element according to claim 1, characterized 009813/1233 draws that at least some drilling (1, 11) with a longitudinally extending slot (12) are provided. 8. Construction element according to claim 7j, characterized in that that the slots (12) extend over the entire length of the tubular elements. 9. Construction element according to claim 7 and / or 8, characterized in that the slot (12) opposite Side is provided with at least one part that goes into the slot (12) of the adjacent tubular Part (1, 11) can intervene. O; Construction element according to claim 9 »characterized in that that this part is a hip (13, 17) or a recess (16) extending in the longitudinal direction of the extend tubular element. 009813/1233