DE60015772T2 - FOUNDATION AND MANUFACTURING PROCESS THEREOF - Google Patents

Abstract

Foundation, and method for the production of such a foundation. It is proposed that it be based on prefabricated concrete elements. The elements consist of base elements (2) and end elements (4). Each element is provided with two sockets for receiving pretensioning cables (6), which sockets are situated at a distance from each other, viewed in the vertical direction, and extend over the full length of the element. End elements are provided with further sockets relating to the other direction in which such end elements extend. After the elements have been placed against each other in the form of a closed curve, the tensioning cables are fitted in the sockets concerned and pretensioning is applied by means of pretensioning anchors comprising pretensioning nuts. Thereafter, the pretensioning anchors are sealed off relative to the environment, and the foundation is ready for use.

Description

The The present invention relates to a foundation with a concrete component, which extends in the form of a closed curve, wherein the Component with a reinforcement is provided, wherein the component of a number of basic elements and End elements is constructed, each of which, seen in the vertical direction, with at least two first sockets or sleeves for receiving clamping devices is provided, wherein the base or sleeves are substantially parallel and about the full length extend the element, and provided with tensioning devices are, wherein at least the end elements with at least two others Sockets or sleeves are provided, which, as seen in vertical direction, from each other are spaced apart and substantially parallel over the full length extend the element, for receiving jigs, and wherein tensioning devices are set, the other pedestals or sleeves themselves extend at an angle relative to the first sockets or sleeves, and being a device that is attached to the tensioning device is, exists and outwardly acting on the elements. Such a foundation is from the Japanese Patent Application 5-306526 known. After putting the carrier, how for example ramming piles, a number of blocks are placed in the foundation, on your head the stake to serve as a frame. The blocks are made with tie rods held together on which clamping nuts are placed. diagonal Rods extend in the blocks, which in a rectangular Form are set. After such a construction has been generated is, the unit is filled with concrete. At the high cost of shuttering removal will be according to the state the art leave such a formwork integral with the foundations, that has been poured.

The Japanese Patent Application 62296016 discloses a corresponding Combination, which subsequently serves as shuttering.

In the case big Building, the primary serve as a protection against the environment, such as warehouses and Factory building, The cost of the foundation is often extremely high relative to the other building costs. This is because construction techniques are responsible for his Use are typical for the building to be used while conventional Techniques for the foundation can be used, as for example in the case of homes, Offices or similar used become. This means that in many cases piles are first driven, one reinforcing structure is set in succession on the ends of the piles and then a Concrete beams on Is cast in place.

In In practice, such a foundation does not have to be difficult. Because that building mainly as a weather protection serves, it is finally made of a relatively light Material produced. In general, the building consists only from a light inner wall and outer wall, for example a metal section, between which an insulating layer is placed. The ground is resting often on the existing underground, and it is not stored on piles.

It It is the object of the present invention to be able to do so be the foundation of buildings easier and easier to do, even with the ability to do so to be able to reuse such a foundation.

These Task is in the case of the above-described foundation by the Fact solved that The biasing components include biasing cables, and that one permanent free space in the elements is defined.

One Such foundation is extremely easy to manufacture as it prefabricates Based on elements, which are provided with sockets or sleeves, which during the Construction at the same height are arranged. After the elements have been positioned and the pretensioning cables or prestressing rods are set and tensioned In principle, the foundation is ready for use. This means that such a foundation in bad weather conditions can be laid and no need to wait until Concrete hardens. He already did this in the factory. Furthermore, the concrete mix produced under factory conditions, which is much better as the production is on site. Unlike the ones in the above Japanese Applications described constructions is the foundation immediately finished after preloading the preloading cable. With the pretensioning cables Is it possible, size prestressing forces exercise, for example, between 60 and 120 tons, between adjacent ones Elements. The construction according to the invention does not have to be on stilts in principle stored or supported become. The big ones prestressing forces make sure that a stable unit is achieved. The space within the erected elements, for example in the form of a square, is empty after the foundation has been completed. With others In words do not extend diagonal tension rods or the like.

If the element has a substantially T-shaped profile in which the leg of the T is designed to rest on the base of the foundation, in many cases it is no longer necessary to support the construction on piles. Finally, such a large storage area is through made the leg of the "T", which, possibly after the precompacting of the soil by laying a reinforcing layer consisting of sand, gravel or the like, a sufficient storage capacity can be achieved in the underground.

It it is understood that with the currently proposed construction, which is a very limited one Number of elements, any desired foundation can be achieved can. The basic elements, that is the "longitudinal elements", can be used in a number of lengths produced, such as four and eight meters. Under Use of corner elements and T-elements, virtually any desired Foundation can be obtained. It is advantageous here that in the Technology building generally from walls exist, which are positioned at right angles.

After this preload the preloading cables or bias rods into the sockets have been set, it is possible the sockets in any way, for example with a plastic eject. It is possible, the biasing means, such as the biasing anchors in the same Way opposite to complete the environment.

If the pedestals can not be injected, it is possible the foundation after the Use easy to remove and reuse. Finally have many warehouses or similar one relatively limited life (typically ten years), and when the foundation for afterwards another suitable purpose can be used or easier Be adapted and enlarged can, this will have a cost saving effect.

The The invention also relates to a building structure, e.g. a building that includes a foundation, as well as parts such. B. Walls extending therefrom the foundation being a lost property as described above and wherein the parts extending therefrom are in direct Connection are attached to this.

The The invention will be explained in more detail below with reference to an exemplary Embodiment described which is shown in the drawing. Show it:

1 a foundation according to the invention, schematically in a view from above;

2 to 4 the different elements from which the foundation according to 1 is constructed;

5 a formwork in which a foundation element according to the present invention can be made.

A foundation, as can be produced, for example, with the elements according to the invention is in its entirety in 1 With 1 designated. It consists of a number of basic elements 2 , a number of corner elements 4 and a number of T elements 3 , How out 1 can be seen, essentially any construction can be achieved with it. Another element that could be important is an element that allows cross-over from two directions, that is, one element 3 , which is provided with another protruding part.

Details of each of the elements are in the 2 to 4 shown. The elements are all T-shaped, that is with a leg 8th provided on which a component 9 is set. The necessary height is achieved by means of the component 9 achieved. Base or sleeves 5 for receiving reinforcing bars are near the ends of the components 9 provided (seen in vertical direction). end elements 3 and 4 are also with other sockets or sleeves 7 for receiving reinforcing bars in one direction at an angle thereto. Sufficient flexural rigidity is determined by the height of the components 9 provided.

The thigh 8th must extend sufficiently in the horizontal direction to give the foundation a good load capacity. This makes it possible to build this foundation even on relatively soft ground, without driving piles. It is possible to pre-excavate the substrate and place a reinforcing material, such as sand, gravel or another bed into it.

The foundation described above is constructed by designing elements in the ultimate desired pattern. In principle, it is not necessary to collect piles in this case. In a manner that is not shown in detail, cooperating elements may be provided with an assembly system, such as a tongue and groove system. prestressing cable 6 are successively through the sockets or sleeves 5 and 7 inserted, which are respectively arranged opposite each other, and after the attachment of nuts 11 The various elements are pressed against each other on the pretensioning cables and tightening the nuts using a screw jack. In this process, the number of biasing cables used is one, and the force applied to each cable is such that the adjacent elements are urged against each other with a force between 60 and 120 tons, preferably above about 100 tons. This preferably means a force of about 20 tons per cable. Such forces can only be applied using tools such as screw jacks. A sealant may, if desired, be placed between the elements, and especially between the respective adjacent sockets or sleeves 5 and 7 To seal the base or sleeves 5 and 7 each ready, which avoids the ingress of moisture or the like. Of course, a protective agent may also be around the ends of the pretensioning cables 6 around and the pretension anchors 7 that are attached to it, be applied. It can, if desired, be poured into the poured. The foundation can be biased in a controlled manner by means of the pretensioning anchors. Since the construction is a closed curve, especially a great stability is achieved. After the measures described above, the foundation is in principle ready and another structure can be placed directly on it. In other words, it is not necessary to complete the foundation by pouring out.

of course is it is possible Pour concrete into the room, which is bounded between the elements described above, wherein the concrete serves as ground. However, such a floor is preferably loose in terms of of the foundation and in any case it does not add anything to the foundation stability added. The foundation therefore has strength on all sides, so that tilting effects can be avoided, which makes it possible a stable carrier for a building to obtain. In other words, it is according to a preferred embodiment important to the invention that a number of groups of tensioning cables always extend at an angle to each other and thus one form a closed curve.

The 5 shows a way of making a in the 2 to 4 shown element. The formwork that is necessary for this purpose is indicated by the reference numeral 10 indicated. After this formwork has been made, reinforcing beams become 12 used in her. These reinforcing beams serve to reinforce the elements concerned. roar 13 or the like are then used, after which the concrete material 14 is shed. The presence of sockets or sleeves 5 and 7 is due to the presence of the tubes 13 ensured.

Like from the 5 As can be seen, such elements can be cast in a particularly convenient manner under factory conditions using a particularly simple formwork. It goes without saying that the production is therefore possible throughout the year, irrespective of the weather conditions. The elements according to the invention, and especially the end elements, are relatively compact and can be transported by road. The same is true for the base elements, as their width is not a limiting factor during transport, and this is not so if their length remains less than 20 meters.

It it is understood that instead of the T-section shown here for the elements other elements, such as U-sections can be used. These and more variants will be available to professionals when reading the above description, and they are within the scope of the appended claims.

Claims (11)

Foundation / ground structure with a foundation ( 1 ) with a concrete component which extends in the form of a closed curve, wherein the component is provided with a reinforcement, wherein the component consists of a number of basic elements ( 2 ) and end elements ( 3 . 4 ), each of which, when viewed in vertical direction, each having at least two first sockets ( 5 ) is provided for receiving clamping devices, wherein the pedestals extend substantially parallel over the full length of the element, and wherein biasing devices ( 6 ) are provided with cables, wherein at least the end elements with at least two further sockets ( 7 ) which, viewed in the vertical direction, are spaced apart from one another and extend substantially parallel over the full length of the element, for receiving tensioning devices, and in which tensioning devices are set, the further pedestals ( 7 ) at an angle relative to the first pedestals ( 5 ), and wherein a device ( 11 ), which is placed on the tensioning device, is present and externally on the elements ( 2 - 4 ), and a floor characterized in that a permanently free space is defined in the elements, the floor being set loosely relative to the foundation. An assembly according to claim 1, wherein the elements include essentially T-shaped Profile, with the flange of the "T" so is designed so that it rests on the lower part. Structure according to claim 2, wherein the base ( 5 . 7 ) are set for the Vorspannkabel at least near the top and bottom of the body of the "T". Structure according to one of the preceding claims, which with a cover for the preload cable is provided. Building structure, such as a building, a foundation / floor structure and parts, such as walls, extending therefrom, the structure comprising a foundation with a concrete component extending in the form of a closed curve, the building being provided with a reinforcement, wherein the component consists of a number of basic elements ( 2 ) and end elements ( 3 . 4 ), each of which, as seen in the vertical direction, having at least two first sockets ( 5 ) is provided for receiving clamping devices, wherein the pedestals extend substantially parallel over the full length of the element, and in which biasing devices ( 6 ) are provided with cables, wherein at least the end elements with at least two further sockets ( 7 ), which are spaced apart as viewed in the vertical direction and extend substantially in parallel over the full length of the element to receive tensioning devices and in which tensioning devices are seated, the further sockets ( 7 ) at an angle relative to the first pedestals ( 5 ), and wherein a device ( 11 ), which is attached to the clamping devices and externally to the elements ( 2 - 4 ), and a floor characterized in that a permanent free space is defined in the elements, the floor being set loosely relative to the foundation and in that parts extending therefrom are set so directly that they are connected to the lost property. Method for producing a foundation / floor structure, comprising providing a number of concrete elements ( 2 - 4 ), with base members and end members, each member being provided with at least two first sockets for receiving jigs, as viewed in the vertical direction, the sockets being spaced apart and extending substantially parallel over the full length of the member, and wherein at least each end member is provided with two further sockets which, viewed in the vertical direction, are spaced apart and extend substantially in parallel over the full length of the member, the first and second sockets of the end members being angularly relative extend to each other, wherein the elements are arranged against each other in the form of a closed curve, while clamping components are placed through the base and the components are loaded by the outer surfaces of the base, and with the provision of a bottom, which is characterized in that the clamping of the clamping components the tensioning the pretensioning cable having such a force that two adjacent elements are pressed against each other with a force of at least 60 tons and in that the floor is provided by pouring concrete into the space confined between the elements so that the ground is loosely set relative to the foundation. Method according to claim 6, wherein a screw spindle is used to apply the biasing force. A method according to claim 6 or 7, wherein the biasing cables are set in plinth, and plastic injected into the socket becomes. The method of claim 6 to 8, wherein the elements set in a ditch in the ground. The method of claim 9, wherein the lower part the trench reinforced is. Method according to one of claims 6 to 10, in which two Elements are set at an angle, and a corner element between placed in them.