RU2100545C1 - Method of erection of monolithic foundation and blocks for its realization - Google Patents

Abstract

FIELD: construction, in particular, erection of foundations. SUBSTANCE: after digging of the foundation trench and erection of the foundation-bed an angular block, L-shaped detachable block and a flat detachable block with a tapered hole are installed on it; grooves and extensions of reinforcement bars are made on the butt ends of the blocks, they are interconnected and form gaps that are filled with concrete mix, and the angular block has one slab arranged horizontally and the two others are installed vertically with an angle between them equal to or exceeding 90 deg, and their external sides have pivot chamfers and a slope of 4 to 5 deg. relative to their inner sides; the outer side of the vertical slab of the L-shaped detachable block is arranged in the same manner. EFFECT: facilitated procedure. 4 cl, 14 dwg ЫЫЫ1

Description

 The invention relates to construction, in particular to the construction of foundations.

A well-known foundation, which includes interconnected lower plate and an intermediate block between them. The intermediate unit is made in the form of a flat lattice, on both sides of which protrusions with through transverse holes are formed in the nodes. On the surfaces of the plates facing the intermediate block, projections with through transverse holes are also made. The surfaces of the protrusions of the plates are in contact with the surfaces of the corresponding protrusions of the intermediate unit. The adjacent coaxial openings of the slabs and the intermediate block are filled with reinforced mortar [1]
The disadvantages of this well-known solution are the complexity of the structures, a lot of joints-joints between blocks and plates, lamination, voids, limited application possibilities. In addition, this foundation may be susceptible to cracking and even breaking, and therefore groundwater access.

Known prefabricated reinforced concrete foundation, designed for construction on plastic-frozen soils and consisting of volumetric blocks arranged in a checkerboard pattern and additional P and L-shaped elements located along the contour of the foundation. The walls of the blocks, located along the contour of the foundation, and additional elements are made with open to the bottom of the protrusions, which are filled to compensate for uneven resistance of the soil [2]
The disadvantages of the known solutions are limited application, low reliability, a large number of joint joints, the ability to pass groundwater and breakage due to changes in soil behavior as a result of groundwater withdrawal.

 The purpose of the invention is the creation of a universal monolithic foundation without seams (with sinks), varying its size (length, width, height and configuration), saving time, money, creating great amenities in working with it and the universality of using it in various climatic zones .

The goal is achieved as follows. A corner-shaped block with metal reinforcing rods protruding on its end sides is installed on the concrete mixture (in the amount of 4 pieces), on a foundation basis, a site located in the pit, according to the planned building structure in the form of a square, rectangle or polygon. Combine metal rods and fittings together and firmly weld them with electric welding. If the foundation should be large or have a curved polygon shape, an additional plug-in L-shaped block (in the required quantity) and an additional (flat) block-insert are used. The main one is a corner-shaped block with an angle α 90 ^o its vertical sides of the plates, can be with an angle of more than 90 ^o . In order to create greater stability of the monolithic foundation, the outer sides of the corner-shaped block and the L-shaped block are made with tilt angles of d 4 5 ^o . The heel of the lower bevels of the blocks is closed. The gaps between the blocks are closed with metal or wooden shields from the outer and inner sides of the foundation and are tightly connected to each other by a metal wire. Then the gaps between the blocks are poured with concrete mixture. The internal space-base-foundation foundation is also poured with concrete mixture and made solid, even. After hardening of the concrete mixture in the gaps, on the inner base and on the bevels, the panels are removed. Thus, varying in blocks and gaps, they obtain the necessary dimensions of a continuous, monolithic foundation and its shape, eliminate multi-suturality, exclude its destruction from water or breaking and improve working conditions.

 In FIG. 1 shows a corner-shaped block, designed to implement the method of erecting a monolithic foundation, general view; in FIG. 2 L-shaped plug-in unit, designed to implement the method of erecting a monolithic foundation, general view; in FIG. 3 flat block insert, designed to implement the method of erecting a monolithic foundation, general view; in FIG. 4 installation of a corner-shaped block (4 pieces) on a base-pad, followed by welding between each other with metal rods-fittings, general view; in FIG. 5 the perimeter of the foundation formed of four corner-shaped blocks with closed gaps and shields and the base, prepared for pouring concrete mixture, general view; in FIG. 6 erected monolithic foundation, formed of four corner-shaped blocks, general view; in FIG. 7 installation of a corner-shaped block (4 pieces), a plug-in L-shaped block (4 pieces) and a flat block-insert on the base-pad, followed by their bundling with metal rods-fittings and welding, in order to obtain a solid monolithic foundation of large sizes, general view; in FIG. 8 view A in FIG. 7; in FIG. 9 trapezoidal groove of the rod sides of the blocks; in FIG. 10 semicircular groove of the pivotal sides of the blocks; in FIG. 11 the perimeter of the foundation of large sizes with closed gaps between the blocks and the base, prepared with concrete mixture, general view; in FIG. 12 - an erected monolithic foundation, formed of four corner-shaped blocks, four L-shaped blocks and a flat insert block, general view; in FIG. 13 erected foundation of curved shape, general view; in FIG. 14th part of the building, built on a monolithic foundation.

 Corner-shaped block (figure 1), designed to implement the method of erecting a monolithic foundation, contains three plates with sides 1, metal loops 2, metal reinforcement rods 3, heel slopes 4.

 L-shaped plug-in unit (figure 2), designed to implement a method of erecting a monolithic foundation, contains two plates with sides 1, metal loops 2, metal reinforcement rods 3, heel bevel 4.

 The flat block insert (Fig. 3), intended for implementing the method of erecting a monolithic foundation, comprises a plate 1, metal loops 2, metal reinforcement rods 3, a conical hole 5.

 In FIG. 1 shows a corner-shaped block in a static state and ready for implementation of the method of erecting a monolithic foundation.

 In FIG. 2 shows a plug-in unit, which is in a static state and ready to implement the method of erecting a monolithic foundation.

 In FIG. 3 shows a flat block-insert, which is in a static state and ready to implement the method of erecting a monolithic foundation.

 The construction of a monolithic foundation is implemented as follows (Fig. 4).

 In a pre-dug foundation pit on a planned basis, site 6, using metal loops 2, varying in blocks and intervals, four angular-shaped blocks with plates 1 are installed on the concrete mixture according to the design dimensions of the building or structure. Combine the metal rods 3 together and are welded by electric welding. Corner heel slopes 4, located at the bottom of each block, close up with concrete mixture and align them with the outside. Thus, the vertical slabs 1 of each corner-shaped block form a continuous perimeter of the foundation. Two metal or wooden shields 7 and 8 are applied to each of the gaps 9 (Fig. 5) between the blocks and firmly connected with a metal-viscous wire 10. The gaps 9 and the gaps in the inner space 12 with reinforcing rods 3 are poured with concrete. After the concrete mixture mortar has hardened (Fig. 6), the panels 7 and 8 are removed and a ready-made, continuous, monolithic foundation is obtained, where the sides 1 of each corner-shaped block merge with the frozen concrete mixtures 11, and the inner space 12 of the foundation becomes solid and interlocked with the base platform 6. Metal loops 2 are bent and put into their nests. On this foundation they build a building or a civil or industrial building.

 If it is necessary to erect a monolithic foundation of large sizes, then between corner-shaped blocks with plates 1 (Fig. 7), insert blocks (with varying gaps and blocks) are installed with plates 1, and an additional flat block insert 1 with a conical hole is laid in the base 5 (Fig. 8, view A), in which metal reinforcing rods protrude on all four end faces. 3. When laying this block on the base-pad 6, the larger diameter of the hole is located on top. Combine metal rods-reinforcement 3 and weld them with electric welding. The resulting gaps 9 (Fig.11) are closed with metal or wooden shields 7 and 8 and reliably pairwise connected with a metal wire-viscous 10.

 To increase the reliability of the penetration of groundwater, the end sides of the blocks are made with trapezoidal or semicircular grooves (Fig.9 and 10). Then heel slopes 4 are poured with a solution of concrete. This greatly improves the sealing of the erected foundation. The gaps 9 and in the inner space-base 12 and the gaps with the rods 3 of the foundation are poured with concrete mixture. After the concrete mixture has solidified, the shields 7 and 8 are removed and the same continuous and monolithic foundation is obtained (Fig. 12), where the sides 1 of each block merge with the hardened mass of concrete 11, and the inner space-base 12 becomes solid, smooth and firmly adhered to base-pad 6. Metal loops 2 are bent and put into their nests. The foundation is ready to build a building on it or a civil or industrial building.

If it is necessary to erect a curved foundation (for example, polygonal, Fig. 13), then the corner-shaped block can be made with an angle of a 90 ^o . The process of preparing, installing and erecting a monolithic foundation is similar to the above. Unlike the known methods, the proposed method for erecting a monolithic foundation and blocks for its implementation have differences and advantages: elimination of multi-seam, better sealing, convenient variations in the size and shape of the foundation, significant time and material savings and great ease of use.

 In FIG. 14 shows a part of a building built on the proposed foundation. With shrinkage of the soil, this foundation will fluctuate and lead, as a single and inextricable.

 The method of building foundations from blocks can be used in rural areas, in areas with high humidity and cold, in the construction of buildings, structures with low and medium floors.

Claims (3)

 1. A method of erecting a monolithic foundation, including digging a foundation pit, installing a base-platform and installing blocks on it to form a perimeter of the foundation, characterized in that a corner-shaped block, an L-shaped insertion block and a flat insertion block with a conical hole are installed, and on the end sides of blocks, grooves and outlets of metal reinforcing bars are made, the outlets of reinforcing bars are connected together to form gaps that are filled with concrete mix. 2. A corner-shaped block, including interconnected plates, characterized in that one plate is horizontal, the other two are mounted vertically on it with an angle between them equal to 90 ^o , and their outer sides have heel bevels and an inclination angle equal to 4 5 ^o in relation to their inner sides. 3. The insertion unit, including interconnected plates, characterized in that it is made L-shaped, the outer side of the vertical plate contains a fifth bevel and has an angle of inclination equal to 4-5 ^o with respect to its inner side.

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