NL1039733C2 - CONSTRUCTION TECHNICAL COMPENSATION ELEMENTS AND METHODS, AND MANUFACTURE. - Google Patents

Description

Structural compensation elements and methods, and method of manufacture.

Uneven settling of the ground sub-dwellings 5 and buildings over the projected surface is often inherent in settlement differences in a non-homogeneous soil structure. But other factors such as basement, degree of adhesion (= adhesive), dewatering, dehydration, traffic load, extraction of oil, gas and minerals in the immediate vicinity of the buildings, earthquakes and floods can also be the reason for this. Vibration and scaling of 10 frames - end of collapse! - are often the result.

By placing the compensation elements according to the present invention, preferably immediately after the site is ready for construction, under the foundation, or below the bottom of piles, sewer pipes - or any technical product and technical artwork in general - preferably after the site is ready for construction ) the consequences can often be limited or prevented, or corrected afterwards.

Application for existing homes and utility buildings requires only a minimum of excavation. The basis of the device is in fact formed by a number of casings woven from strong synthetic fiber, whether or not with coarse-mesh strong plastic reinforcement on the inside - with a form that is most favorable for the purpose of use - which is fully or partially filled before or after their positioning. sprayed (or pumped full) with grout. Instead of grout, it is also possible to use hard plastic granules or any other material suitable for the respective application, even if this is not specifically mentioned below. A strain gauge or glass fiber thread integrated into the fabric, responsive to the slightest length variation or deformation, facilitates timely intervention. For example, it may be decided to inject additional filling material into an empty casing placed in advance on or under the filled casing - with hose connection above ground level! - for restoring the original level with respect to the spirit level. The latter can be particularly useful after soil deformation as a result of an earthquake.

For very soft or swampy soil, the mattress-like embodiment overlapping the entire plot finds application. In principle with unlimited dimensions, but for practical reasons one might think of an area of ten by ten meters; in view of the desired buoyancy, optionally filled with air or nitrogen-containing globules, or granules with a relatively low specific gravity 1039733 2 relative to water.

Also homes on subjugated foundations affected by 'pile rot' can be protected by a similar method for subsidence (and worse) by laying mattresses underneath the foundation by - between the posts and therefore determined in width - from facade to facade (plus any extensions). to pull. The excavation required for this is also relatively small. After application, the mattresses are fully pumped with the filler most suitable for the application in question, with which a solid basis is obtained after curing. If desired, the post 10 can be sawn off after existing intervention for existing homes, in order to then complete the renovation by also acting for the strips released as described above. In this way a solid, continuous support is created.

Via a steel auxiliary tube which is alternately fed into the bottom and is provided with a 'lost cone', hose-shaped sheaths, provided on the underside with a folded widening, can be filled under a certain pressure after withdrawal of the tube, the sheath after curing of the substance functions as a pillar, while the dilation takes the form of a round or flattened sphere to increase the load-bearing capacity. For the 'filling' with grout (or physically comparable materials) use is made of any type of positive displacement pump. The 'pile replacement elements' thus formed and positioned combine high permissible vertical loads + high stability with an extremely long service life due to the degree of aging resistance. Combination with the aforementioned mattress is very possible.

The element according to the present invention, in the geometric form of an ellipsoid, cylinder or vessel, can advantageously serve as bottom anchoring of suspension cables and cables.

Furthermore, as a dyke improvement by lowering a vertical casing into the trench dug on one or both sides at the foot, afterwards full sprayed, or pumped full with any suitable filler, for example bentonite or sea clay. The number of filling openings is adjusted to the degree of fluidity, length, hydraulic diameter and flow rate. A non-permeable barrier for both salt and fresh water is created in the manner described.

Protection against heavy waves and muskrats is obtained by means of strong double coarse-mesh plastic mats with a layer of bentonite in between, which, overgrown with grass, gives the flood defense a natural appearance.

To support houses in general, the elements according to the invention can be simply arranged and subsequently fully pumped with a filler suitable for the purpose of use, for which special valves are mounted in the filler openings.

The invention will be elucidated with reference to the drawings, wherein

Figure 1 shows a horizontal cross-section over a filled square-shaped casing arranged under the corners of the foundation,

Figure 2 shows a cross section in the empty state, Figure 3 the same in the filled state,

Figure 4, tissue view with signaling wire or strip,

Figure 5 shows the schematic representation of the filling installation,

Figure 6 shows a cross section through the foundation according to the nature of the invention,

Figure 7 the same after correction of deformation (for example after an earthquake), Figures 8,9,10,11 and 12 a number of exemplary embodiments of casings in the filled state,

Figure 13, pile replacement element, provided with a protrusion on the underside, Figure 14 the mattress-shaped support of houses and buildings,

Figure 15 the same with pile replacement elements (here without bulge), Figure 16 cylindrical anchoring element for suspension cables and cables,

Figure 17 the same but in the form of an ellipsoid,

Figure 18 shows an embodiment of a casing with coarse-mesh reinforcement on the inside,

Figure 19 shows a cross-section of the filling opening, Figure 20 shows a diagram for manual and fully automatic level correction, respectively

Figure 21 shows the support of a sewer pipe in cross section,

Figure 22 the same in side view,

Figure 23 shows a cross section through a foundation on marshy soil according to a known conventional method; for comparison with the method according to the invention, Figure 24 shows a dyke body protected with the compensation elements, while Figure 25 shows a cross-section of the envelope designed for this purpose.

Figure 26 shows a method of protecting the dyke body against waves.

Figure 27 shows a support for houses in general, provided with valves for filling the casings, after assembly and positioning.

The casing 2 filled with grout 1 is provided with a woven signaling wire 3 which transmits any change in length and shape to the filling installation 4, which thereupon, 5 or not automatically, inflates the spare casing 5 to the original or the preset desired level. The permanent casing 6 filled with grout 1 is supported, in addition to the bottom 7, by the pile-replacing element 8, consisting of pipe-shaped casing 9 and widening 10, both also filled with grout 1. After the level correction 10 is located the reserve casing 5 is therefore in the inflated state, whether or not as indicated in the relevant drawing.

Although in principle any conceivable design of the casing 2 is possible, for the sake of clarity, only five geometric bodies are shown in the present patent application, namely the rectangular parallelepiped (casu quo 15 cube) 11, the torus 12, the cylindrical embodiment 13, the spherical shape 14 - flattened in the given example - and the conical shape 15, each for a specific application. The cone shape 15 is particularly suitable for corner support of existing, inadequate foundations.

The pile replacement element 16, filled with grout 1, consisting of the pipe-shaped casing 9 and widening 10, is provided at the top with a square or circular mono-chess 17 of natural stone, brick, concrete, wood or plastic, al depending on the desired degree of resistance, coupled to a bearing surface that meets the necessary compressive strength, for example if used for the mattress-shaped support 18 of houses and buildings.

A special application of the invention is that for anchoring suspension cables and pins 19 in grout-filled casings 20 or 21, or in the cylindrical form the ellipsoidal form or otherwise.

The enveloping fabric 2 can optionally be internally supported with a coarse-meshed net-shaped plastic reinforcement 22, resulting in a strength sufficient for almost any application.

The filling opening or nozzle 23 can be sewn or welded to the fabric 2 by means of the annular extension 24. The screw thread 25 corresponds to that of the (not shown) hose connection. Retainer recesses 26 on the top of nozzle 23 facilitate assembly.

5

The grout (or any other filler) 1 is sucked in via pump 27 (for example a 'monopump' as shown), via tube (or hose) 28 from container 29 and pumped into tube 2 through tube 30. The drive consists of electric motor 31 and 5 gear box 32.

Interpolated support for sewer pipes 33 casings 2 filled with grout 1, which during filling or in the preceding phase are filled in the manner described above, entirely according to the nature of the invention. Thus realizing a sewerage system that requires a minimum of maintenance, because the local soil condition is immediately anticipated, so that the center lines of the pipe sections are almost pure in line with each other.

In summary and for comparison with conventional methods of foundations on non-stable soil (see Figure 23): here is 34 masonry, 35 lowest groundwater level, 36 board wood, 37 canopy, 38 sliding wood and 39 pile. The method according to the present invention is tailored to the instantaneous situation; provides a ready-made solution for this. It is clear that this leads to a considerable reduction in costs and that residents, owners and managers of buildings can save a lot of material and immaterial suffering.

The dike body 40 is provided on its foot 41 on either side or on one side with a casing 42 which is filled via filling openings 23 with bentonite or sea clay 43, thus not permeable to water. Protection of the dike body 40 against wave impact 44 can be done in the manner of Figure 26. Hereby double, coarsely woven woven mats 45 are laid on the slope and the space 46 between them is filled with bentonite 47. The mats 45 are simple with grass 48, which gives the dike body 40 a natural appearance.

The casings 49 made of strong fabrics - serving to support foundations of houses in general - are filled after positioning with an effective filler by means of the valves 50.

1039733

Claims (18)

1. Structural compensation elements - hereinafter referred to as "elements" - for maintaining, or restoring, the original level below foundations relative to the level plane, characterized in that the design of these elements only occurs on site below the relevant level. foundation, namely by pumping the ready-to-fit, casing woven from strong plastic with grout or any other effective filler, so that a minimum of excavation work and physical effort are sufficient. 2. Elements as claimed in claim 1, characterized in that they are arranged in the square shape under the outer and inner corner points of the foundation, thus providing maximum stability thereto. Elements according to claim 1, characterized in that these are provided as standard with a signaling wire or strain gauge with which any change in shape and length is directly signaled; to the extent that they exceed the permissible tolerance, followed by automatic, or manual level correction. 4. Elements as claimed in claims 1 and 3, characterized in that the filling installation is integrated in the foundation of one or more adjacent plots. Elements according to claims 1, 3 and 4, characterized in that they are multi-adaptable in terms of design and dimensions, depending on the specific requirements imposed on the respective foundation. 6. Element as claimed in claim 1, characterized in that it is used as a pile, the diameter and length of which are completely determined by the casing, arranged in the bottom and directly under the foundation by having it sink in the empty state in a driven position therein. steel pipe, provided with a 'lost 1039733 cone', after withdrawal of which the casing is fully pumped or sprayed with grout or any other desired filler, after curing forming a solid and pressure-resistant 'pile replacement element' that is not or hardly affected by aggressive 5 substances, therefore assured of a long service life. 7. Element as claimed in claims 1 and 6, characterized in that on the underside it is provided with a collapsed sphere, tube, cube, parallelepiped, truncated circle cone-shaped envelope, assuming a protuberance after refilling and curing 10 and forming one whole with the pile replacement element, thus providing increased stability thereto, in particular of great utility in marshy soil. 8. Element as claimed in claim 1, characterized in that it is designed as a mattress, especially for application on very soggy soil, wherein for the filling optionally material not chosen for grout, but for a permanently upward pressure such as foamed concrete, feathery light plastic granules or globules filled with air, or nitrogen filled, in this way also applicable in flood prone areas and floodplains intended for emergency inundation so that they can still be used under all conceivable aquatic conditions. Element according to claims 1 and 8, characterized in that it is provided with pile replacement elements according to claims 6 and 7, but with restrictions with regard to desired buoyancy. 10. Element as claimed in claim 1, characterized in that it is used for anchoring suspension cables and hoses, for this specific purpose in a cylindrical, barrel-shaped or elliptical embodiment, wherein the cable ends are enclosed therein cork-like or wavy, thus after curing of the grout or the mortar realizing the maximum allowable tensile force. Element according to claim 1, characterized in that the envelope is reinforced on the inside with abutting, very strong coarse-mesh plastic reinforcement. 12. Element as claimed in claim 1, characterized in that special closable filling openings are provided in the casings - provided with circular extensions for fixing by means of sewing or welding - the screw thread of which corresponds to that of the filling hose. 13. Element as claimed in claim 1, characterized in that they are used for interpolated support of sewer pipes, wherein the recessed support points guarantee stability, even if there is a heavy traffic load in the immediate vicinity, or if the soil structure is not homogeneous . 14. Element as claimed in claims 1 and 8, characterized in that the mattresses are used in the case of pile rot, the width corresponding to the space between the piles and the length to the distance between two opposite facades - plus, if necessary, the extensions deemed necessary - after excavation applied in an empty condition under the foundation and then fully pumped with grout or any other suitable hydraulic binder, forming a firm base after curing. Element according to claims 1,8 and 14, characterized in that the pile heads are sawn off and the resulting free strips are also covered with narrow mattresses, after filling with the mattresses provided according to claim 14, thus forming a continuous support and the respective support property 25 safeguarding against subsidence and the associated cracking in walls and frames of frames. 16. Derived from the structural compensating element according to claim 1, characterized in that they are used as reinforcement of embankment bodies, in particular at the foot, lowered into the trenches dug therefor according to a known method, then filled with bentonite, sea clay or other suitable material, thus forming an effective water barrier with a minimum of maintenance. 17. Derivative of claim 16, characterized in that the slope of the dyke body is unilaterally protected against waves by means of double mats, woven from strong plastic, between which a layer of water-impermeable bentonite on which grass thrives well, in this way this solid weir is a natural giving respect. 18. Support of housings in general, by means of casings made of strong fabrics, subsequently filled or refilled with an effective filler via a pre-arranged valve. 1039733