SU785413A1 - Quay - Google Patents

Description

(54) QUAY

one

The invention relates to hydraulic engineering construction, in particular, to structures of embankments, mainly erected on weak soils, and also intended, first of all, to be used as deep-water berths.

The embankment is known, which includes a front wall, backfill and anchor rods connecting the front wall with an-> 0 cores and its l.

A disadvantage of the known embankment is the complexity of its erection, which is determined by the need to perform a significant amount of work under water or in a trench under the protection of a sheet pile. Furthermore, the embankment height is limited by the bearing capacity of the front wall that perceives significant pressure from backfilling, 20

The closest solution to the invention in its technical essence and the effect achieved is an embankment comprising a front wall, a backfill and a discharge device in a stone prism with a filter in contact with the front wall 2.

The main disadvantage of the last quay is its large consumption of materials due to the need to use JQ

calling in it a large number of stones, as well as due to significant loads from the stone prism acting on the front wall. In addition, the well-known embankment is complex in construction, so the geological complex requires the production of a significant amount of underwater work associated with the laying of a stone prism and filter.

The aim of the invention is to simplify the production of works, as well as to eliminate other noted disadvantages.

The goal is achieved by the fact that the unloading device is made in the form of cylindrical cells formed directly from the fixed soil backfill and partially intersecting among themselves, and the soil can be fixed by cementation.

FIG. 1 shows the embankment on solid ground, a cross-section; in fig. 2 - the same, on the basis of weak soils, in FIG. 3 - section A-A of FIG. 2,

The embankment consists of a front wall 1, located by its lower part in relatively strong ground 2 and in contact with a lateral surface with vertically located

cells of structure 3, the walls of which have cross-sections of shapes, chu rings, partially intersecting each other, and made of cement fixed predominantly, fruit-A soil filling 4 is located on top of the cells 3.

In the case of a bed at the base of a loose ground 5, the cells reach a solid ground 2, and the array of the cellular structure is made with a projection b on the front wall 1, the projection b has a longitudinal groove 7 filled with concrete, in which the lower part of the front wall 1 is located The embankment is additionally provided with ti: 8 and monolithic reinforced concrete incl. Breathes 9, the latter being located in the cavity of the cells of structure 3 and connected along the top of the drags with the front wall 1.

The embankment is erected in the following manner. .

Along the cordon line of the embankment under construction, local ground bounded by slope 11 is washed or poured over the surface of the submerged soil 10. Then, vertically located cells of the structure 3 from the ground fixed by cement without its excavation are made from the surface of the ground or washed soil. shchi drilling rigs, supplied. working bodies. In this case, the cell centers are located in the plan at a distance from each other somewhat smaller than the outer diameters of the cells, which in this case partially intersect with each other in their transverse sections.

If the embankment is erected on solid ground after completing the cells of the structure 3, the front wall 1 is slaughtered close to them and the dredger houses the ground in front of it to the level of the project bottom 12.

In the case of construction, a scoop on the weak ground in the protrusion of 6 hours of the 1st structure forms a groove 7 by performing Henpepi: JBHoro p and the cells of the structure of reduced height. A narrow trench is developed over the cells of a reduced height under the protection of a thixotropic solution and the concrete is laid in its lower part, forming a longitudinal groove 7 in the protrusion 6 of the cellular structure 3. After the concrete is placed in the groove 7, prefabricated reinforced concrete elements of the front wall 1 are placed with cranes 9 Monolithic reinforced concrete liners 9 fabricated after curing by cells. For this, using airlift, mobura or other drilling equipment, equipment is developed to extract soil from cells of structure 3 to a depth equal to monolithic concrete liner 9, wherein the cell wall structure is performed role water retaining membranes, thus formed in cells in the cavity

install reinforcement cages and lay the concrete.

The structures of the structure 3, which are joined together between the cells, completely perceive the horizontal pressure from the inlet 4 to transfer it to the solid ground 2, unloading the vertical wall 1, which perceives the horizontal pressure from the backfill 4 only up to the level of the top cells of the structure 3, which determines small values of the bending moments in the front wall 1, wherein the bars 8 serve as a support for the front wall 1 and transfer forces to monolithic reinforced concrete liners 9, and of them on the cell structure 3. The presence vystupa6 cellular array structure outside wall tsevoy l 1 provides soft ground 5 stability of the embankment and shear against tipping. Only 10-15% of the cement of the cell wall volume is consumed to make the cells of the structure. The cost of a cubic meter of fixed ground according to the calculation of the Kaspmorniiproekt is 5.43 thousand rubles, whereas the cost of a stone prism reaches 15 or more rubles per cubic meter. In addition, the cell structure provides almost complete unloading of the front wall and the possibility of building an embankment on caivwx weak soils, while a stone prism does not ensure complete unloading of the front wall and building the embankment on the weakest soils.

Thus, the invention provides a significant reduction in the material intensity of the embankment in the most complex geological and environmental conditions.

Claims (1)

1. It is cautious, including the front wall and unloading: a device in the backfill soil, about tl and h y, and with that. in order to simplify the production of works, the unloading device is made: with the form of cylindrical H4eeKj, formed directly. from the fixed ground of the backfill and partially intersecting the path with itself. 2, Embankment according to claim 1, about tl and h and s and a - with the fact that the soil is fixed by cementation of Sources of information taken into account in the examination 1.L.Hnitsky, V.E., et al. Port Hydraulic Structures, 1955 p. 114, 115, fig. 35, 2, V. Udovichenko, N., et al. Marine and River Hydrotechnical Constructions 1976, p. 231.