SU1079796A1 - Apparatus for controlling sliding forms - Google Patents

Abstract

DEVICE TO CONTROL sliding formwork, comprising a winch, the cables are fastened to the formwork, characterized in that, in order to improve the quality of buildings under construction by providing its geometrical precision, it is provided arranged in the corners of the formwork stops with rollers and support elements with springs and limit switch mi, each of the lugs connected to the cables of two winches mounted on the formwork, and made in the form of a rod, at the lower end of which are fixed rollers in contact with the support lementami and the upper end suspended to the formwork with the aid, and a Hooke joint, each of the support elements is designed as a bracket suspended to the formwork with the aid of spring tension, on the upper edge of which i are fixed limit switches. (L with so O5

Description

The invention relates to construction and can be used in the construction of monolithic reinforced concrete structures in sliding formwork.

It is known that J is a device for eliminating the formwork twisting around the vertical axis with the help of screw shafts, creating the opposite torque, installed inside the erected buildings and structures. The delays are connected at one end to the sliding formwork, and the other to the embedded parts, which are concreted into the wall, and are arranged at an angle of 15-20 ° to the wall plane. I work with delays, the formwork in the process of lifting return to the design position 1.

The disadvantages of this device are the availability of additional embedded parts, high labor costs and time lost to eliminate the twisting.

The closest to the invention by technical essence is a device for eliminating formwork twisting by means of pull winches installed on a building site at the base of a structure, which are connected with formwork by means of ropes and create a torque opposite to torsion 2.

The disadvantages of this device are the difficulty of creating the required torque, significant labor costs and loss of time during control, interference with the work created by the ropes of greater length stretched along the walls of the structure, the inability to use the device during the construction of high-rise buildings and structures due to the large angle of inclination pull ropes to the horizon.

The purpose of the invention is to improve the quality of the erected structure by ensuring its geometric accuracy.

This goal is achieved in that the device for controlling the sliding formwork, including winches, the cables of which are fixed to the formwork, is provided with stops with rollers and support elements with springs and limit switches located at the corners of the formwork, each of the stops being connected to the cables of two winches, installed on the formwork, I is made in the form of a bar, on the lower end of which are fixed rollers in contact with supporting elements, and the upper end is led to the formwork with the help of Hooke’s joint, each of The pore elements are made in the form of a corner, which is attached to the formwork with the help of expansion springs, on the upper edge of which the limit switches are fixed.

FIG. I schematically shows the proposed device, a general view; in fig. 2 is a diagram of the efforts in the cables when eliminating the formwork tightening; in fig. 3 - the same, with the elimination of formwork displacement; on

FIG. 4 - the same, with the elimination of deformation formwork.

The device contains winches 1 mounted on the formwork 2 on each side of the erected structure, and stops 3 located at the corners of the formwork, each of which is connected in pairs to the cables 4 of the winches 1 located on the adjacent formwork trenches. The stops 3 are connected to the formwork 2 with the help of 5 Tuka joints and

0 are provided with rollers 6, with which they are supported on supporting elements 7. Supporting elements 7 are swiveled R the trimmer 2 below the shields 10 on the extension springs 8 and are adjacent to the wall surface of the erected structure. At the top of the bearing

elements 7 are installed limit switches 9, which are connected to the signaling or control circuit of the electric drive of the respective winches 1 (Fig. 1).

The device works as follows.

When the formwork 2 deviates from the design position caused by its torsion, horizontal displacement or deformation, the winch 1 is put into operation, and a certain group of tracks 4 are pressed. 4. The stops 3 are pressed to the supporting elements 7, supported by surface of the walls. Further tension of the cables 4 ensures the creation of a set of forces acting on the formwork 2 and allowing to eliminate the deviations arising in the process of lifting. When lifting the formwork 2, the stops 3 are moved with the help of rollers 6 along the supporting elements 7, which protect the surface of the walls from deformation and reduce

5 lift resistance. The height of the support of the support elements 7 is determined by the dimensions of the formwork panels 2. When the rollers 9 reach the limit switches 9, the winches 1 are turned on and the tension of the cables 4 is relaxed. At the same time, the support elements are pulled up by the action of the springs 8. After lifting the supporting elements 7 by turning on the winches 1, the tension of a certain group of cables 4 is again provided and the process of returning the formwork 2 to

5, the design position continues.

When the formwork 2 is tightened about the vertical axis of the erected structure, all of the winch 1s turn on simultaneously. The direction of rotation for 0 of all of the winch 1 is the same, and the tension F generated by them in all cables 4 is directed against the tightening (Fig. 2). The tension forces F of the cables 4 are determined in the course of operation, depending on the amount of twisting and the torque M acting on the formwork 2. The opposing moment they create returns the formwork to the original

the state in the process of its rise depends on the size of the structure and the angle of inclination c (of the cables 4 to the formwork plane.

After eliminating the twisting and returning the formwork 2 to the design position, the cables 4 are weakened by briefly turning the winch 1 in the opposite direction.

In order to eliminate the displacement of the formwork 2, the winches 1 are turned on so that the directions of the forces in the ropes 4 are opposite to the components of mixing Lx I go (Fig. 3), i.e. so that the forces Рвс and F®jj, created by the winches 1, located at points B and D, were directed opposite to the displacement along the X axis, and the forces and Рсс, created by winches 1, located at points A and C, were directed in the direction opposite to the displacement along the y axis. The magnitudes of these forces are determined by the magnitude of the displacement.

The device allows to eliminate the deformation of the formwork 2, which arises mainly due to bending (the change in the length of the sides can be neglected). So with an increase in the size A of formwork 2 diagonally and a decrease in diagonal II-IV by winches 1 installed at points A and D,

B and C, create tension forces Fg, the resulting of which are directed towards each other along the diagonal I-I.II (Fig. 4). Due to the effect of these forces, the apiica returns to the design position in the process of lifting.

The device allows to compensate for the torsion, displacement and deformation of the formwork at the same time. In this case, the magnitude of the forces in the cables 4, generated by the winches 1, for the indicated cases. Is determined from the expressions

 tFc, -t-F, f К + duCl +

Gv Gkr-Ge, -Gd GK, -DHK2-LaKz;

Fc FKp-Fcg Fg rK -AyK + AijKj; RD GKR + GS -G, fKi + AxK2-AqK3,

5 where, l, l-magnitudes of formwork deviations 2.-from the design position, characterizing torsion, shear and deformation; KjjK.Kj are weight coefficients determined from operational characteristics.

The effectiveness of the proposed device is that it eliminates the need for additional embedded parts, corrects the formwork movement along three components at once — torsion, shear, and deformation, and automates the formwork control process.

ia

Fig.Z

Claims (1)

DEVICE FOR CONTROL OF SLIDING FORMWORK, including winches, cables of which are fixed on the formwork, characterized in that, in order to improve the quality of the erected structure by ensuring its geometric accuracy, it is equipped with stops located at the corners of the formwork with rollers and supporting elements with springs and end elements switches, each of the stops connected to the cables of two winches mounted on the formwork, and made in the form of a rod, on the lower end of which are fixed rollers in contact with the supporting element s, and the upper end is suspended from the formwork using the Hook joint, each of the supporting elements being made in the form of a corner suspended from the formwork using tension springs, on the upper edge of which limit switches are fixed.