RU2014110672A - METHOD FOR INSTALLING THE FIXED SUPPORT TO THE DESIGN POSITION WITH THE POSSIBILITY OF ADJUSTING THE ALTITUDE POSITION DURING OPERATION - Google Patents

Abstract

1. A method of installing a fixed support in a design position according to the angle of inclination and height with the possibility of height adjustment during operation, characterized in that for installing the support stationary in the design position, the coil of the pipeline support is sequentially placed and rigidly fixed on two supporting axes, which are beams , transversely located and mounted in the frames of the support with the possibility of movement in the holes of the frame together with the coil of the support, are placed under each supporting axis of the movable-power mechanisms, by means of which the coil is raised or lowered together with the support axes to the design height, while ensuring that the coil tilt angle corresponds to the design value, after which the achieved design position is fixed by fixing the support axes in the support frames at the design height and the corresponding design value of the coil angle using adjustment plates, weld the edges of the support coil to the pipeline, and to adjust the altitude when operating the fixed support, loosen the fixation of the supporting axes in the support frames, mobile-power mechanisms are placed under each supporting axis, by means of which the coil is raised or lowered together with the support axes to the design height, while maintaining the estimated coil tilt angle, after which the achieved design position is also fixed by fixing support axes in the support frames using adjustment plates. 2. The method according to claim 1, characterized in that the support coil is a pipe provided with an external casing and a layer of thermal insulation

Claims (11)

1. A method of installing a fixed support in a design position according to the angle of inclination and height with the possibility of height adjustment during operation, characterized in that for installing the support stationary in the design position, the coil of the pipeline support is sequentially placed and rigidly fixed on two supporting axes, which are beams , transversely located and mounted in the frames of the support with the possibility of movement in the holes of the frame together with the coil of the support, are placed under each supporting axis of the movable-power mechanisms, by means of which the coil is raised or lowered together with the support axes to the design height, while ensuring that the coil tilt angle corresponds to the design value, after which the achieved design position is fixed by fixing the support axes in the support frames at the design height and the corresponding design value of the coil angle using adjustment plates, weld the edges of the support coil to the pipeline, and to adjust the altitude when operating the fixed support, loosen the fixation of the supporting axes in the support frames, mobile-power mechanisms are placed under each supporting axis, by means of which the coil is raised or lowered together with the support axes to the design height, while maintaining the estimated coil tilt angle, after which the achieved design position is also fixed by fixing supporting axes in the frames of the support with the help of adjusting plates. 2. The method according to p. 1, characterized in that the support coil is a pipe equipped with an external casing and a layer of thermal insulation with an inner shell fixed to it in the central part to which stiffeners are attached. 3. The method according to p. 1, characterized in that the support frames are welded support structures provided with stiffeners, including vertically oriented panels fixed to horizontal subframes by bolt connection, and the stops are mounted on the boards with the possibility of translational movement along the rails which are placed supporting axes, as well as interchangeable stops to accommodate the adjustment plates. 4. The method according to claim 3, characterized in that for fixing the supporting axes, the sets of adjustment plates are placed on removable stops under the supporting axes and the supporting axes are fixed with adjusting screws installed in the upper stops above the supporting axes. 5. The method according to p. 1, characterized in that as the movable-power mechanisms using hydraulic jacks. 6. The method according to p. 1, characterized in that when the support is fixed in the design position between the frames placed on one side of the pipeline, a removable transport stop is installed. 7. The method according to p. 1, characterized in that the supporting axes are provided with stiffeners, by means of which they are fixed to the support coil through the shell. 8. The method according to p. 1, characterized in that when adjusting the design position of the fixed support, the support coil is moved by the value of the predicted heaving (subsidence) of soils. 9. The method according to p. 1, characterized in that when the support is fixed in the design position when the angle of support of the support is set, a set of adjustment plates are added under one support axis, and a set of adjustment plates are removed under the other support axis, while the thickness of the sets of plates added and the seized plates correspond to each other. 10. The method according to p. 3, characterized in that when installing the support to ensure its electrical isolation from the pile foundation between the boards and subframes, dielectric gaskets are placed, and the bolted joints of the boards with subframes are electrically insulated with bushings and washers made of dielectric material. 11. The method according to p. 3, characterized in that the frames are equipped with lateral stops, providing the transmission of axial loads from the pipeline to the pile foundation through dielectric gaskets.