NL8503221A - FOIL ANCHORING WITH INDOOR ANCHORING SYSTEM. - Google Patents

Description

—I— FOIL ANCHORING WITH A B I N N E N ANCHORING SYSTEM.

Method for anchoring tensile forces from pressure-resistant films with an inner ring construction.

The invention relates to an inflatable and load-bearing structure for axially symmetrical structures for a house, building or a reservoir, in which the inner foil is put under high pressure and in which the resulting tensile forces must be anchored out of the inner foil. This application is in line with a previously filed patent application No. 8301971 and other applications filed simultaneously with this application.

10 The problem is indicated in fig. 4. The bottom is poured, the inner foil is pressurized and the cavity is filled with a hardening liquid 4. The inner pressure 19 of the inner tent 7 is greater or in balance with the hydrostatic pressure 20 of the liquid in the cavity.

(19 20). The outer foil 9 is in equilibrium with the hydrostatic pressure 20 in the cavity by means of the generated horizontal annular pulling force.

As a result of the inflation of the inner tent, a vertical tensile force T (21) has been created in the inner foil with a size of: T = ^ / 4xDxP in which:

V

T = tensile force per m.

r 20 D = inner tent diameter in m.

ks 2 P = pressure inner tent in ° / m.

Force T (21) must be anchored.This can be done by counterweight: a. The air pressure present 19.

b. any water weight present 6.

25 c. Own weight of the bottom 4.

d. the maximum permissible moment, which the bottom plate can deliver, as a counter moment.

e. any ground anchors 13 through a bottom conduit 14.

Anchoring with ground anchors can be done in two ways: (see fig. 5): 30 1. Anchoring within the inner foil (= inner tent).

2. Anchoring outside the inner foil, ie in the cavity.

The system mentioned under 1 with anchoring within the inner foil is further elaborated in this application. The system mentioned under 2 is elaborated in a separate application.

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In the method of anchoring ground anchors on the inside of the inner tent, the system works as follows: The outer bottom ring 3 pulls the bottom into shape; the bottom and the outer bottom ring are foamed (see fig. 1). (outside and inner tent) there is an air-5 lock, to which a blower 24 and a compressor 8 with valves are connected i. Through the airlock you can enter the inner tent. After the bottom has hardened, the steel inner ring 22 in pieces and can bolt it through the bottom lead-through piece 14 (round plastic or steel tube) to the lower steel ring 23 and / or to the "duckbill® ground stocker 13, which is lead-through piece 14 can be placed in the ground. (see fig 2.) After this, the inner tent is pressurized, the cavity is foamed and the pressure is released after hardening. The airlock (the windows or the doors) allows you to the inner tent, disassemble the (steel) inner ring 22 and remove the inner foil for reuse. (see 15 fig 3 right part) .The inner foil in this case must be smooth and not adhere to the cavity filling.Now series production is possible and this is a great advantage.The disadvantage is that an airlock or needs manhole. However, they can apply this at the location of a window or door opening to be made later.

20 The position of the outer bottom ring 3 is not fixed in a horizontal sense. 1 shows a possibility. the outer bottom ring at the location of the junction of the wall with the bottom, with the foils at the the junction all interconnected to anchor the tensile forces.

The inner tent is attached to the bottom top foil 1 and must be cut loose in the corner during reuse. The cross-sections can be glued back together afterwards, after which the entire inner tent is ready for reuse (bottom 1 and wall 7 is again a whole).

By placing the outer bottom ring 3 next to the wall (see fig. 6); so outside wall 9, it is possible to pre-pour the floor. Before pouring, the bottom lead-through pieces 14 are provided. These consist of a hollow plastic tube (or steel) with welded triangular anchors. See fig. 7. Bottom grommet 14 has a cutting nozzle at the bottom and can be pushed through the bottom foil 2 and remains vertical by the anchors 25. (made of reinforcing steel, eg 0 12 mm.) 35 When the floor is paved , the inner tent is placed on it. The floor is poured on the bottom foil 2 and between the outer bottom ring 3. The top bottom foil 1 is missing. The placed inner tent consists of a wall 7 and a bottom 7. (= bottom foil 1). The inner tent is anchored to the V '. Anchors are brought in by means of the bottom ring 22, the inner tent is pressurized and the wall is poured between the inner and the outer tent.

Optionally, you can also pre-pour the floor with top-bottom foil 1. The bottom and top are now packaged in plastic foil. The transit 5t pieces 14 are now drilled and are now not provided with the triangular anchors. inner tent can now also be placed by clamping it tightly between inner ring 22 and rubber ring 26. In this case, the inner tent can only consist of a wall foil 7. (without bottom foil 1 or 7). The advantage: that the 10 inner tent does not have to be cut loose and is immediately ready for reuse.

To make the drawings easy to read, here is an explanation of the figures used: I Inner tent top bottom 15 2 Outside tent bottom bottom 3 Outer bottom ring 4 Curing liquid; insulating foam as support construction 5 Pump and one mixing system curing liquid.

20 6 Water.

7 Inner tent.

7 Inner tent bottom, fixed to the inner tent.

8 Compressor.

9 Flysheet 25 10 canceled II canceled.

12 Pressure relief valve.

13 Ground Anchors, "Duckbilln Anchoring.

14 Hollow pipe bottom conduit.

30 15 Centering device, anchoring against horizontal displacement.

16 dropped 17 dropped __ 18 dropped 35 19 Internal pressure constant or variable depending on the load.

20 Hydrostatic pressure of the curing liquid.

21 Vertical tensile force in the foil.

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—4— 22 Inner ring, steel or plastic. Consisting of loose pieces.

23 Bottom ring, steel or plastic.

24 Blower.

25 Anchors of wire, triangular with angle of 45e 3 26 Rubber clamping ring.

As regards the materials, for numbers 1,2,7,7 and 9, the foil consists of: cloth, fabric, plastic foil, which has a high tensile strength through a woven reinforcement of plastic fibers with a high tensile strength.

10 The hardening liquid 4 consists of: concrete; foamed concrete; lightweight concrete with foaming agent; concrete consisting of a light, insulating additive bonded with a hydraulic binder with water or by a plastic binder; plastic foams, etc.

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Claims (4)

2. Method of working with the film that the foil of the inner tent can be anchored by means of an inner ring construction, which lies against the inner foil and by means of from a bottom lead-through to the (concrete) base plate or anchored in the ground. 3. Method according to claim 1, characterized in that the lead-through piece can consist of a hollow tube, optionally provided with welded triangular anchors to anchor the forces in the bottom plate. Method according to claim 1, characterized in that the inner tent can consist of one whole and is not removed after the cavity filling 20 has hardened (inner cloth with adhesion). Method according to claim 1, characterized in that the inner tent is placed on the paved floor after the floor has been poured by means of the outer bottom ring lying outside the wall and is ready for reuse and series production without modification. 6. Method according to claim 1, characterized in that if the outer bottom ring is located at the junction of the wall with the floor, the inner tent can be cut loose and, after being glued together, is ready for reuse. Method according to claim 1, characterized in that if the outer bottom ring is located at the junction of the wall with the floor, the inner tent can be anchored to the paved floor by means of a (steel) inner ring construction and rubber strips and after hardening of the cavity filling can be disassembled and then again immediately usable for reuse. Appendices drawings page 6 and 7. -. Λ? 35