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1. WO2020112053 - MULTIPLE FRICTION JOINT PILE SYSTEM

Note: Text based on automatic Optical Character Recognition processes. Please use the PDF version for legal matters

[ EN ]

CLAIMS

1. Multiple friction joint pile system, characterized in that; it contains at least two carrier elements (100), at least one twisted wire duct (101 ), flexible plate (110), twisted wire (120) of desired thickness in the amount of the rope ducts (101 ), twisted wire tightening-loosening apparatus (130) and twisted wire fastening apparatus (140) in the amount of the twisted wires (120).

2. Bearing element of Claim 1 , characterized in that; it can be made of wood, steel, composite, stone-filled cage, concrete and/or reinforced concrete.

3. Twisted wire of Claim 1 , characterized in that; safety rope, steel rope, thick rope, thick steel wire can be used.

4. Multiple friction joint pile system of Claim 1 , characterized in that; it can also be used without a flexible plate.

5. Flexible plate of Claim 1 or 4, characterized in that; a material that allows stretching such as rubber, cut waste car tire, geofoam, plastic, membrane (geomembrane) can be used.

6. Flexible plate of any one of Claims 1 or 5, characterized in that; the structure it can be placed as a plate between the bearing elements of the structure (100) or it can be completely and/or partially coated (or fixed) to the bearing element (100).

7. Bearing element (100) of Claim 1 , wherein it comprises at least one twisted wire duct (101 ) positioned at any point on the concrete block

(100) and it is composed of at least two pieces comprising of a twisted wire (120) long enough to connect the bearing elements (100) passing through the twisted wire duct (101 ) in the amount to meet the need.

8. Rope according to any one of the preceding claims, characterized in that; it can be monolithic and/or two pieces (or more) structure.

9. Multiple friction joint pile system of Claim 1 , characterized in that; the diameter of the rope duct must be bigger than the diameter of the rope to allow lateral displacement.

10. At least one flexible plate (110) of Claim 1 placed between two bearing elements (100) and used to minimize the vibration of the bearing elements (100).

11. Twisted wire (120) of Claim 1 with sufficient amount of bearing elements (100), used to hold the system together by passing it through the twisted wire duct (101 ) located on the bearing elements (100) and the flexible plates (1 10) placed between it.

12. Multiple friction joint pile system of Claim 1 , characterized in that; the twisted wire (120) contains a rope tightening and loosening apparatus which can be adjusted by loosening and tightening from the upper part (or lower part).

13. Multiple friction joint pile system of Claim 1 , characterized in that; the twisted wire (120) contains a fastening system (140) ensuring the fastening of the rope, located on the lower part (or upper part).

14. Multiple friction joint pile system of any of the preceding claims, characterized in that; the system is connected together with the bearing element (100) and the flexible plates (1 10) positioned between said bearing element (100) and the twisted wire (120) used to keep the system together by passing through the bearing elements (100) and the flexible plates (110) and twisted wire tightening and loosening apparatus (130), which is connected to said twisted wire (120) on the upper section, and the twisted wire fastening apparatus (140), which is connected from the bottom.

15. Multiple friction joint pile system of any of the preceding claims, characterized in that; its operation in the event of axial shift is shown, wherein only the element under the effect of the force among the bearing elements (100), where the bearing elements (100) are exposed to lateral force F in any direction moves.

16. Multiple friction joint pile system of any of the preceding claims, characterized in that; when the twisted wire (120) is overloaded inside the multiple friction joint pile system, it can be loosened with the help of the twisted wire tightening and loosening apparatus (130) located on the upper part to reduce the load on the twisted wire (120) and similarly, when the twisted wire (120) is to be tightened, twisted wire tightening and loosening apparatus (130) can be tightened to the desired tension.

17. Multiple friction joint pile system of any of the preceding claims, characterized in that; the segmental structure of the system eliminates the breaking and/or cracking possibility of the pile placed under the structure.

18. Multiple friction joint pile system of any of the preceding claims, characterized in that; it withstands the torsional forces with the frictional force in the joint planes, and exceeding this strength does not cause the pile to twist, but only the bearing element (100) affected by the torsional moment will only rotate.

19. Multiple friction joint pile system of any of the preceding claims, characterized in that; drainage ducts (holes) can be formed in the horizontal and vertical directions of the bearing elements (100) allowing the use of the column for drainage in the horizontal and vertical directions.

20. Multiple friction joint pile system of any of the preceding claims, characterized in that; piles can be created by using one or more geogrids instead of geomembranes between the bearing elements (100) and the geogrids can be connected to each other from the upper region and/or the lower region of the jointed column (or any desired level).