SU1036884A1 - Slipform lifter - Google Patents

Abstract

SLIDING FORMWORK LIFT containing a hydraulic cylinder, upper and lower clamping devices, the bodies of which are made in the form of pistons and placed in the working chamber of the hydraulic cylinder, characterized in that, in order to simplify the design, it is equipped with an electrode, and the piston of the upper clamping device has a groove in which an electrode is placed, the second electrode being a hydraulic cylinder. (L 00 O5 oo oo 4

Description

one

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

The known electromechanical jack PDO-60 is used for raising sliding formwork. The jack consists of a first stage, which is provided with a nut in the upper part, and a clamping device in the lower part, a second stage consisting of a hollow screw and a clamping device, a driving screw that is screwed into the first stage nut, a jack support, an automatic reversing mechanism for the driving screw. , in the guide of which is placed a slider connected to the crankshaft of the pinion of a gear straight reducer and the electric motor 1.

The disadvantage of this jack is the complexity and bulkiness of the design, which limits its scope.

Closest to the invention to the technical essence and the achieved result is a hydraulic lift, including a hydraulic cylinder, upper and lower wedging devices, each of which is made in the form of a separator installed in the housing with clamping elements, and a jack. The bodies of the wedging devices are made telescopic, placed in the working chamber of the hydraulic cylinder and have conical cavities in which clamping elements are placed, the tail part of the separator of the lower wedging device located in the body cavity of the upper wedging device, the tail part of the separator 2 is provided with a spring-loaded pressure nut 2.

For the operation of hydraulic jacks of this design, it is required to use high-pressure pumping stations containing electric motors, pumps and hydraulic regulating devices that deliver high-pressure working fluid through pipelines to hydraulic jacks. The presence of complex structures of high-pressure stations and hydraulic pipelines increases the cost of hydraulic equipment for lifting sliding formwork, reduces the reliability of its work and increases the loss of electricity caused by the need to turn it into mechanical.

The purpose of the invention is to simplify the design.

The goal is achieved by the fact that the piston of the upper clamping device has a bore in which an electrode is mounted, and the second electrode is metal structures of the jack.

FIG. Figure 1 shows a sliding form lift with a partial cut; in fig. 2 - connection scheme of the lift

to power supplies by electric current and working fluid.

A sliding formwork elevator is installed under the upper lug beam 1 of the slide formwork jacking frame and rests on a vertical rod 2. It consists of a hydraulic cylinder 3 with nozzles 4 and 5, in the working cavity of which the upper 6 and lower 7 clamping devices are installed. Upper 6 and lower 7 cases

the clamping devices are made in the form of pistons with seals and form interconnecting cavities A and B. Cavity A is located between the hydraulic cylinder 3 and the housing of the upper clamping device 6. Cavities A and B are connected by fitting 4 to the working fluid supply pipeline. In the bore of the housing of the upper clamping device 6, an annular electrode 8 insulated from the housing is installed with a lead stud 9 for connecting to an electrical current source by means of a cable 10. The second electrode is the metal structures of the jack. A return spring 11 is placed under the lower clamping device 7, resting on the cover 12 of the hydraulic cylinder 3.

A glider of formwork through fitting 4, check valve 13, dispenser 14 (e.g. float) and pipe 15 are connected to a source of low pressure fluid supply.

A pipe 17 is connected to the fitting 5 via a check valve 16, which drains the exhaust steam into the condensate trap or into the steam jacket of the formwork to heat the concrete (not shown).

Sliding form lift works as follows.

Cavities A and B are filled with working fluid, then to electrode 8 from the source

an electric current through the cable 10 serves an electric current. In this case, between the electrode 8 and the housing of the upper clamping device 6, which is also an electrode, an electrical discharge occurs in the liquid, and vaporization begins in cavity B. The rate of vaporization is controlled by the parameters of the electric current in a known manner. The vaporization is accompanied by an increase in the vapor pressure in cavities A and B, while the check valve 13 closes. As the vapor pressure increases in cavities A and B, the pistons 6 and 7 of the upper and lower clamping devices move. In this case, the upper clamping device is disconnected from the jack rod 2, and the lower clamping it. AT

5, the hydraulic cylinder 3 is raised relative to the fixed lower clamping device 7 and, consequently, the formwork is raised. When the nozzle 5 reaches the upper edge of the lower clamping device 7 pairs, the pressure outlet from the cavities A and B opens the check valve 16 connected to the electric current switch in a known manner and stops the supply of electricity to the electrode 10 and, obviously, vaporization. At the same time, exhaust steam into the condensate trap or in the steam jacket to heat the concrete. The valve 15 opens and the liquid from the dispenser 14 enters into the cavities A and B. When the pressure drops, the return spring 11 returns the lower clamping device 7 to its original position, while it is disconnected from the vertical rod 2, and the upper clamping device 6 catches the rod 2, holding the formwork. A time relay of known construction gives impulse to supply electricity to the lifts, and the formwork lifting cycle is repeated. Hydroelectric equipment for lifting sliding formwork is 30% cheaper than hydraulic equipment and 20% cheaper than electromechanical equipment.

Claims (1)

SLIDING FORMWORK LIFT, comprising a hydraulic cylinder, upper and lower clamping devices, the bodies of which are made in the form of pistons and placed in the working chamber of the hydraulic cylinder, characterized in that, in order to simplify the design, it is provided with an electrode, and the piston of the upper clamping device has a groove in which an electrode is disposed, the second electrode being a hydraulic cylinder. FigT OE oo αο>