RU2122091C1 - Method of correcting the leaning long walls - Google Patents

Abstract

FIELD: construction, in particular, reconstruction of architecture monuments in correction of leaning long walls to vertical position. SUBSTANCE: method includes fixing of walls, reinforcing of ground base, reinforcing of foundation and turning of wall. Hinged to foundation at right angle is triangular member whose upper free end rests on system of distributing device, and applied to lower free end of truss with the help of jack is vertical force which is transmitted through distributing device to a large number of points up to correction of wall leaning and its return to vertical position. EFFECT: simplification of method; reduced energy consumption and labor input in performance of work. 3 dwg

Description

 The invention relates to the field of construction, in particular to the reconstruction of architectural monuments.

Known methods of straightening the rolls of architectural monuments by uneven lowering or raising angles or sides of the structure. (Methodology for the restoration of architectural monuments (A manual for architects and restorers). M: Publishing house of the Institute of Theory and History of Architecture and Construction Equipment, 1961, p. 144.)
Both methods are reduced to the rotation of the object around its horizontal axis, which is perpendicular to the direction of inclination of the structure. In the first method, the straightening is performed due to the own mass of the structure and the displacement of the support reaction, in the second - due to overcoming partially the mass of the structure, which can be achieved by using hydraulic jacks with great effort or other devices.

 The disadvantage of these methods of production work is the inability to create the same foundation settlement along the length of the extended wall, since moving the center of gravity of the wall structure causes a corresponding increase in stress under the base of the foundation from the side of the slope of the structure.

 The closest in technical essence and the achieved result to the proposed method of straightening the roll of long walls is the method described in the book Methods of restoration of architectural monuments (Handbook for architects and restorers. M: Publishing house of the Institute of Theory and History of Architecture and Construction Equipment, 1961, p. . 147-148), for example, when straightening the heel of the wall of the Pskov Kremlin, including drilling holes in the masonry along the wall with the passage of strands with tension couplings through them and securing the ends of the strands with the help of digged into the ground black poles, a device in the masonry wedge-shaped shtabs along the entire length of the wall to form a conditional hinge assembly and turning the wall into a vertical position by breaking the masonry in the hinge assembly by tensioning the cables with couplings.

 The disadvantage of this method is the creation of a conditional articulated node indicated in the prototype, which requires a wedge-shaped shabby device in the masonry, which for extensive walls is associated with huge labor costs. In addition, the foundation and part of the wall, lying below the wedge-shaped ridge, remain in the initial deformed state, which requires their subsequent strengthening by adding additional foundations. The connection between the upper and lower part of the wall along the created wall is carried out only through the force of friction, and in case of unforeseen deformations of the base soils, they can again be displaced or rotated relative to each other.

 The purpose of the invention is to simplify the method of straightening the roll of long walls, reducing energy consumption and labor costs in the production of works.

 The goal is achieved by fixing the wall, strengthening the soil base, strengthening the foundation and turning the wall by hinging to the foundation at a right angle to the triangular truss, between which the upper free end and the wall are installed, and a vertical force is applied to the lower free end of the truss to straighten the roll.

 The drawings (Fig. 1 and Fig. 2) show a fragment of an extended wall, a vertical section and a diagram of the devices used for this.

 The method is as follows.

 To straighten the wall 1 roll, first fix the position of the wall fixing device, for example, in the form of wooden beams 2, cable brackets 3 with anchor devices 16 from the opposite side of the wall, connect them with bolts 4, passed through holes 5 drilled in the wall (in the fortress walls it is possible installation of bolts through loopholes). The formation of holes 5 in the wall 1 can be carried out using punchers or electric drills with drills with victorious soldering.

 After earthworks are completed, a soil foundation is laid using remote bored piles 6, a monolithic reinforced concrete grillage 7 is arranged, reinforced concrete beams 8 with hinges 9 are placed under the foundation, placing them under the middle of the wall foundation. As hinges, cylindrical trimming of round reinforcement or pipes of different diameters can be used. Wooden bars 2 are used simultaneously to transfer external horizontal load on the wall. Load transfer is carried out using a switchgear 10, the essence of which is to create a large number of points of application of external load to prevent damage to the masonry material when turning the wall. Suspension of the switchgear 10 is carried out on brackets 15. Each element of the switchgear 10 is statically determinable, which makes it possible to accurately control the external load. The load is created by a hydraulic jack 11, mounted vertically on a prepared concrete platform 12. It is advisable to place the platform on an additional drilling pile. The force from the jack 11 is transmitted to the truss 13, and with its help, to the switchgear 10 and wall 1. The triangular truss 13 is installed with the lower free end onto the jack 11, the upper free end of the truss is connected to the main beam of the switchgear 10, the right angle of the truss 13 is fixed with one of the fundamental beams using the hinge assembly 17.

 Thus, the rotation of the truss is possible only relative to the horizontal axis parallel to the wall, in the place of support of its hinge assembly.

 After oil is supplied to the hydraulic jack, the lower free end of the triangular truss rises. The upper free end of the truss connected to the switchgear transfers the load to the wall. The rotation of the wall is carried out until it is lowered onto the fixing supports 14 mounted on reinforced concrete beams 8.

 The number of hydraulic jacks, distribution systems and triangular trusses depends on the length of the walls.

 This method allows you to solve two problems simultaneously. The first is to strengthen the base and strengthen the foundation of the wall, which is a necessary link during restoration work, as well as the straightening of almost any wall roll, even if the wall that results from its own mass leaves the core of the section. The second task is to protect the wall masonry from destruction during rotation, since the rotation is carried out through a hinge assembly located under the existing foundation. In the case of high walls or masonry with low strength, the rotation is carried out using a more complex version of the switchgear located along the entire height of the wall (Fig. 3).

 The proposed method of straightening the roll of extended walls in addition to the prototype requires the manufacture of only metal triangular trusses of simple design and distribution beams from rolled profiles. However, it allows to simplify the work to the utmost, to protect the masonry from destruction when the wall is rotated, to create conditions for the wall to rotate with a significant roll and a different amount of slope along the length.

Claims (1)

 A method of straightening the roll of extended walls, including fixing the wall, strengthening the soil base, strengthening the foundation and turning the wall, characterized in that a triangular truss is pivotally attached to the foundation at a right angle, a switchgear is installed between the upper free end of the wall and the lower free end trusses apply vertical force until the roll straightens.

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