SU1733551A1 - Hollow concrete mass - Google Patents

Abstract

Use: in hydraulic engineering construction for the construction of gravity-type quay berths. SUMMARY OF THE INVENTION: The array is made in the form of a prism with bases parallel to a horizontal plane, two end walls parallel to a vertical plane, two side vertical walls with vertical cuts made in them and an internal vertical through hole. The side wall of the cutout is parallel to the side wall of the inner hole. The total area of the horizontal section of the cutouts is equal to the area of the horizontal section of the inner hole. The prism bases are in the form of an isosceles trapezoid, and the distance between the side wall of the inner hole and the side wall of the cut is determined from the expression ln a + b-4c / 4, where In is the distance between the side wall of the inner hole and the side wall of the cut, and - the length of the shorter side of the base of the trapezium; b is the length of the larger side of the base of the trapezium; с - the width of the inner hole .3 Il. SO with

Description

The invention relates to hydraulic construction, in particular to structures of hollow concrete massifs used for the construction of gravity-type quay berths.

The purpose of the invention is to expand the field of use of hollow concrete massifs and increase the overall strength of the structure erected from them by improving the adhesion of concrete massifs to each other.

FIG. 1 shows a concrete hollow massif, axonometrics; in fig. 2 - Vsfiant of the laying of the rectilinear wall, combined with the design scheme; in fig. 3 is a variant of laying a closed (ring-shaped) structure.

The concrete hollow massif is made in the form of a prism, the base 1 of which is shaped as an isosceles trapezium. In the array there is a vertical through cavity 2, the walls 3 of which are perpendicular to the base 1, the vertical plane of symmetry coincides with the plane of symmetry of the hollow array. The cross section of the through vertical cavity 2 is shaped as a rectangle with rounded corners. Symmetrical through side notches 4 have a wedge-shaped cross section. The total area of the side notches 4 is equal to the area of the see-through of the vertical cavity 2. The side wall 5 of the notch 4 is parallel to the side wall 3 of the through cavity 2.

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The thickness of the web 6 between the side wall 3 of the through cavity 2 and the side wall 5 of the notch 4 is determined from the expression

. a + b-4c

,

where In is the lintel thickness;

a is the length of the shorter side of the base;

b is the length of the larger side of the base (parallel to the smaller);

c is the width of the vertical through cavity.

The derivation of this mathematical expression is based on the following.

The cavities of the arrays laid in the rectilinear wall should be located at equal distances from each other to ensure the possibility of stitching the seams in the laying layers (displacing the overlying arrays relative to the underlying).

Since in a single block, which occurs during the manufacture of a block, this size is the distance between the axis of the vertical cavity and the axis of the holes (cavities) adjacent to it, formed by the contacting notches, i.e. Such a parameter, which is difficult to measure, is easier to use with the thickness of the web left between the side walls of the cavity and the notch, i.e. P.

From the diagram in figure 2, it can be seen that In (a + b) / 4 - c / 2 - c / 2, or after transformations, we have 1H a + b-4c / 4.

The slope of the sides of the wedge (which is the base of the prism) to each other is taken from the conditions 2 360 / n, where n is an integer.

When this condition is fulfilled, it is possible to stack arrays in a ring-shaped structure (FIG. 3). When laying out the ring-shaped structure, the openings (cavities) formed by the notches are wedge-shaped, and their axes are radially spaced at equal distances from each other, which makes it possible to relock the seams in the laying layers, as in the laying of the straight machine .

The smaller the angle of intersection of the side faces of the array (i.e., the larger the number of arrays will form a ring), the better the cavities formed by the notches will correspond to the shape of the through vertical cavities of the blocks.

The linear wall is laid out when placing neighboring blocks with a narrow end in opposite directions, while in the upper row arrays are laid with an offset so that the middle

the vertical through cavity 2 of the array coincided with the middle of the vertical through cavity formed by the adjacent side notches 4.

When laying out a ring-shaped structure of minimum radius, concrete masses within the layer are laid so that the narrow side of the wedges faces the center of the ring.

At the same time, the next row of arrays is laid out so that the joints of the lateral faces of the arrays, which are extreme, within the straight line section (side), are located along the axis of symmetry of the through vertical cavity.

After laying the structure to the design height, the through vertical cavities are filled with rocky soil.

The use of the proposed arrays provides for their increased adhesion to each other within the range due to the adhesion of the oblique side surfaces.

Claims (1)

A hollow concrete massif made in the form of a prism with bases parallel to a horizontal plane, parallel to two vertical end walls and two side walls with vertical cuts made in them and an internal vertical through hole, while the side wall of the cut is parallel to the side wall of the internal hole, and the total area of the horizontal section of the notches is equal to the area of the horizontal section of the inner hole, characterized in that The expansion of the field of application of arrays and the increase in the strength of the structure erected from them by improving their adhesion to each other, the bases of the prism are made in the form of an isosceles trapezium, and the distance between the side wall of the internal opening and the side wall of the cutout . a + b-4c where 1P is the distance between the side wall of the inner bore and the side wall of the notch; a is the length of the shorter side of the base of an isosceles trapezium; b is the length of the greater side of the base of an isosceles trapezium; c is the width of the internal vertical through hole. 199SSH with t. s ©