SU1576628A1 - Hydro-engineering carrying member - Google Patents

Abstract

The invention relates to hydraulic construction, in particular to the construction of berthing and protective structures using bearing elements in the form of shells of large diameter, composed in height and connected by a joint. The purpose of the invention is to reduce the material consumption of the structure and the complexity of its construction. The carrier includes an upper shell 1 and a lower shell 2 of large diameter with vertical channels 3 in the walls. Channels contain a ferro-concrete core connecting the shells, including a longitudinal metal element 4 with formwork 5, stops 6. The element 4 is supported on an annular support 8. The length of the longitudinal metal element 4 is equal to two lengths of embedment of the reinforced concrete core in channel 3. At the upper end of the lower shell an annular recess 9 in which a dry concrete mixture 10 is placed in a sealed package of elastic material, crushed stone or asphalt. At the lower end of the upper shell is made the corresponding annular ledge. 1 hp ff, 4 ill.

Description

The invention relates to hydraulic engineering construction, in particular to the construction of berthing and protective structures using bearing elements in a large diameter casing made up in height and connected by a joint.

The purpose of the invention is to reduce the material consumption of the structure and the complexity of its construction.

Figure 1 shows the carrier element, a horizontal section; figure 2 - node I in figure 1; on fig.Z - section aa in figure 2; figure 4 - node II in Fig, 3.

The supporting element contains the upper ring element 1, the lower ring element 2 with vertical channels 3 in the walls in which is placed a reinforced concrete core 4, comprising a frame of longitudinal reinforcement 5 with stops 6 and transverse reinforcement 7 embedded in the formwork 8, and concrete 9. Formwork 8 is supported on an annular support 10, made at a distance equal to the length of the embedment of the reinforced concrete element in channel 3 from the upper end of the lower annular element 2. At the same length, reinforced concrete cores 4 are embedded in the channels 3 of the upper annular element and 1.

An annular recess 11 is made on the upper end of the lower annular element 2, in which a dry concrete mix 12 is placed in a sealed package 13 of elastic material; a corresponding annular protrusion 14 is made on the lower end of the upper annular element 1.

The mounting of the carrier is carried out as follows.

In the annular recess 11 of the lower annular element 2 is placed dry concrete mix 12 in a sealed package 13, the lower annular element 2 is installed in water, the upper annular element 1 is installed on the lower annular element 2 so that the annular protrusion 14 in plan coincides with the annular recess 11 , with the inclined planes forming the annular recess 11 and the annular protrusion 14, serve as guides, ensuring an exact match of the ends of the abutting elements, the annular protrusion 14 destroys the hermetic packaging 13 and the dry beta Mixture 12 sets.

A frame of longitudinal and transverse reinforcement 5 and 7 is inserted into the vertical channel 3, and it is lowered until the formwork 8 is supported on the annular support 10, while the formwork 8 and

the stop 6 fixes it in the plan, after which the channel 3 is filled with concrete 9 to a height equal to the length of the frame.

Such a structure ensures that the upper support element is evenly supported on the lower element, the exact coincidence of the ends of the joined elements in the plan, the joint can take tensile stresses, eliminates underwater work, and you can apply

shells of large diameter, consisting of several rings in height, in cases of limited capacity of cranes.

20

Claims (2)

1. A supporting element of a hydraulic structure, containing annular elements with vertical channels in the walls, combined with reinforced concrete cores located in the channels, and a sealing gasket at the joints in height between the ring elements, characterized in that, in order to reduce the material intensity of the structure and the complexity of its construction, the lower end of the upper annular element is made with an annular protrusion, the length of each channel is equal to the embedment length of the corresponding core, and at the upper end the lower annular element has an annular recess located centrally to the protrusion of the upper annular element, with circular annular in the channels of the lower annular element the support on which the formwork of the reinforced concrete core of the upper ring element is installed, the distance from the upper end of this ring element to the ring support is equal to the length of the reinforcement of the reinforced concrete core in the channel, and the sealing gasket is made in the form of a sealed package of elastic material filled with a dry concrete mix, and is located in the annular recess of the lower annular element. 2. An element according to claim 1, distinguished by the fact that gravel or asphalt is placed in the annular recess. Fig FIG. one Fig