SU737599A1 - Sliding form - Google Patents

Description

(54) SLIDING FORMWORK

The invention relates to the construction and can be applied in the construction of monolithic reinforced concrete structures, having a cross section that varies in height, namely, a sliding formwork for the construction of conical chimneys. Known sliding formwork for the construction of structures with a variable cross-section, containing overlapping shields with circles and stiffening ribs, jacking frames mounted on the rods, and the shields are offset in height and the ribs have openings for skipping shields 1. However, such formwork It does not have a stabilizing device, which does not ensure the accuracy of geometrical parameters during the construction of a building. Sliding formwork for the construction of structures with a variable cross-section, including jacking frames with formwork shields and suspended scaffolding, a stabilizing device and radial beams 2 are also known. The jacking frames are provided with a stabilizing device. made in the form of an annular spatial system of rod wedges and cruciform bonds. When the frames are moved vertically, the angle of inclination of the shields is adjusted by screws. The disadvantages of this formwork are that the annular spatial system, consisting of rod wedges and cruciform bonds, has a large metal intensity, makes it difficult to disassemble the shields and is difficult to operate, and the formwork shields mounted on the lifting frames do not have the ability to change its curvature with a change in the radius of the structure, which leads to a distortion of the geometric dimensions. The purpose of the invention is to increase the accuracy of the geometrical parameters of the erected structure and decrease the metal intensity of the formwork; - -, -., "-...:.: ..., ..-, .. ..". ,,. "The goal is achieved in that the sliding formwork includes jacking frames, fixed and movable shuttering shields, scaffolds, a stabilizing device, radial beams, carriages mounted on them, pivotally connected to the corresponding jacking frames, and the stabilizing device is made in the form of rods with clips, and each fixed shield made along the length of the composite of the central and lateral valves, associated with the central with the help of lanyards. In addition, each pivot of the stabilizing device is at one end secured to the jacking frame, and the other is passed through a clip mounted on the adjacent jacking frame.

FIG. 1 shows schematically a formwork, a general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one.

Sliding formwork includes jacking frames 1 with fixed formwork shields 3 fixed to them by means of screws 2, stabilizing device 4 and suspended scaffolds 5. Jacking frame 1 is connected to carriage 7 by means of hinge 6, which can be moved along radial beams 8 integrated into working the platform, the angle of inclination of the frame I relative to the radial beam 8 is fixed by a screw thrust 9.

The lifting of the jacking frames 1 is carried out by the jacks 10 mounted on them along the jacking rod 11.

The stabilizing device consists of rods 12, fixed at one end of a support 13, mounted on frame 1. The other end of the rod enters clip 14, mounted on an adjacent jackframe frame 1, which passes the rod 12 only in one bar.

The fixed formwork panels 3 are made of composite along the length of the central 15 and 16 side flaps hinged to the central one. The angle between the central and side flaps is adjusted by means of a lanyard 17. Movable shields 18 are mounted between the fixed shields 3, which, when the structure perimeter is reduced, enter the side flaps 16.

The proposed formwork works as follows.

When jacking frame 1 is raised by jacks 10 along rod 11, carriages 7 and radial beams 8 are raised simultaneously, and hinge 6 allows the horizontal position of the radial beam to be maintained regardless of the angle of inclination of the frame.

In order to change the slope of the formwork panels, it is sufficient to use a screw 9 to change the slope of the jacking frame 1. The same distance between the frames 1 is provided in the upper part of the frame by radial beams 8,

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in the lower part, with a stabilizing adapter 4. When the distance between the frames is reduced, the rods 12 freely pass into the clips 14 only in one direction. Thus, with a closed stabilizing system, the distance between the frames will be constant. .

When the structure radius changes, consequently, also the curvature of the formwork with the lanyard 17, the side flaps 16 turn relative to the central 15, which allows more precisely to follow the required geometrical dimensions. The movable shields 18, assembled in a rigid detachable panel, enter the side flaps 16 and are dismounted.

The use of the proposed sliding formwork reduces the metal consumption and increases the geometric accuracy of the structure.

Claims (3)

1. Sliding formwork for erecting structures with a variable section height, including jacking Mb1, fixed and mobile formwork shields, scaffolding, stabilizing device and radial beams, in order to increase the accuracy of the geometric parameters of the erected structure and reduce metal consumption , it is equipped with carriages mounted on radial beams, hingedly connected to the corresponding jacking frames, the stabilizing device is made in the form of a rod with clips, and dy fixed shield formed along the length of the composite from the central and side flaps. 2- The formwork according to claim 1, characterized in that each rod of the stabilizing device is attached with ONE end to the jackframe, and the other is passed through a clip mounted on the adjacent jackframe. 3. Formwork on PP. 1 and 2, characterized in that each side flap of the fixed shield is connected to the central flap by means of turnbuckles. Sources of information taken into account in the examination 1. USSR author's certificate No. 383327, class: E 04 G 11/22, 1971. 2. USSR author's certificate number 210047, cl. E 04 G 11/22, 1968. H 737599 U - -; Y5 10 68 737599 WA-A one OO Oui 1 15 12 fu2.2 fu2.