RU2477770C1 - Lock prefabricated strip footing - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: lock prefabricated strip footing includes a support slab and rows of foundation slabs arranged on it. The support slab has a face inclined and bonder surfaces, the upper rib for a slot fixation into a lock of the above block. Foundation units have vertical and horizontal slots, protruding beyond faces of the bed and outbond surface by 1/3 of the width, at the same time the last row of the strip footing is arranged from a block, having a flat upper horizontal surface for resting of wall materials when erecting above walls.

EFFECT: reduced labour intensiveness of foundation blocks assembly, increased accuracy of foundation blocks installation, reduced deviations from horizontal and vertical planes, higher resistance of foundation blocks to displacement due to application of geometric parameters of a foundation block.

5 cl, 1 ex, 6 dwg

Description

The invention relates to construction, and in particular to prefabricated strip foundations, widely used in the construction of buildings and structures of various types and purposes in various operating conditions.

A strip foundation is known (patent for invention RU 2014391, 08/07/1989), containing a foundation plate and rows of blocks placed on it laid in tiers, each of which has two opposite longitudinal walls and a horizontal shelf uniting them. The longitudinal walls of the block are made in the form of a right-angled triangle, one leg of which is aligned with a horizontal shelf located on top of the block, and the other leg is with the end of the block, closed by means of a transverse rib. In each tier, the blocks are successively supported on each other by ends free from ribs, and in adjacent tiers, the blocks are oriented in opposite directions.

The disadvantage of this strip foundation is the need for electric welding of adjacent rows of the block, which significantly affects the duration of the period of installation of the foundation, the price of the foundation, as well as the service life (welding during operation is oxidized).

Closest to the claimed invention is a strip foundation, consisting of a FL base plate and a PBS building block of rectangular cross section, having end-to-end grooves and slots for gripping the block with a sling device when stripping at the stage of manufacture, transportation and installation (GOST 13579-78 * “Blocks concrete for walls of basements. Technical conditions ").

The disadvantage of this strip foundation, consisting of a FL base plate and an FBS block for erecting foundations, is the presence of excess vertical and horizontal deviations from design marks that can occur when erecting blocks in a row, in addition, the foundation's resistance to shear due to lateral soil pressure is reduced. Another significant drawback is the presence of through grooves on the block on the lateral faces (for its capture by the construction device during formwork, transportation and installation), which after installation of the block must be sealed with cement-sand mortar, which together increases the duration of the foundation.

The objective of the invention is to improve the installation method of the foundation blocks, increase the accuracy of installation of the foundation blocks, reduce deviations from horizontal and vertical planes, reduce labor costs, increase the resistance of the foundation blocks to shear by using the geometric parameters of the foundation block, its vertical and horizontal grooves.

The problem is solved in that in the castle prefabricated strip foundation, including the base plate and the rows of foundation blocks placed on it, according to the invention, the base plate has a front inclined and poked surface, an upper rib for groove fastening to the lock of the overlying block; foundation blocks have vertical and horizontal grooves protruding 1/3 of the width of the bed and spoon surfaces; the last row of the strip foundation is made of a block having a flat upper horizontal surface for supporting wall materials during the construction of overlying walls. At the same time, vertical risks are plotted in the center of the front side of the foundation blocks and on the front side of the base plate. On the bed surface in the upper edge of the block and the base plate in the end corners there are nests where the mounting loop of the fittings is arranged. The grooves of the foundation blocks are reinforced with plates and reinforcement.

Figure 1 shows the types and risks of the castle foundation concrete block for the construction of the strip foundation. Figure 2 shows the types and risks of the base plate for the construction of a strip foundation for foundation blocks 60 cm thick. Figure 3 shows the types and risks of a castle foundation concrete block with an upper flat surface for supporting wall materials during the construction of overlying bearing walls. Figure 4-6 shows a General view of the castle strip foundation, consisting of base plates and castle foundation blocks.

The castle foundation concrete block for the construction of a precast strip foundation has vertical and horizontal grooves that protrude beyond the edge of the bed (1) and bonded (2) surface by 1/3 of the width of the block. On the front (3) side of the block, vertical risks (4, 5) are applied, passing through the center of the front (3) side in order to increase the productivity of laying foundation concrete blocks in a row, accurately erect masonry and to evenly distribute the load from overlying blocks and load-bearing walls. The grooves are reinforced with plates and reinforcement class A240. On the bed (1) surface in the upper edge (6) of the block and the base plate in the end corners there are slots (7) where the mounting loop (8) is arranged (from hot-rolled reinforcement of class A240) for gripping the block with a sling device when the block is removed at the manufacturing stage , transportation and installation. Raw materials for creating a castle foundation concrete block for the construction of a precast strip foundation are concrete with additives of an average density of at least 1800 kg / m ³ and reinforcement class A240. The base plate consists of an oblique front (9) and a bonded (10) surface, an upper rib (11) for groove fastening into the lock of the overlying block, which rests on the bed surface (12) of the base plate. On the front side of the base plate there are vertical risks (13, 14), which serve for the accurate installation of the overlying blocks and the correct load distribution.

When using the invention, labor costs are reduced during the construction of the strip foundation due to the presence of vertical and horizontal grooves, as well as the possibility of erecting the foundation by workers of various qualifications. The physical and technical indicators of both the block and the method of laying the foundations of the wall of the building as a whole are also improved, i.e. increasing the accuracy of installation of blocks during the construction of the foundation, reducing deviations from horizontal and vertical planes, increasing the resistance of the foundation masonry to shear due to the use of the geometric parameters of the block, its vertical and horizontal grooves. In this case, it is not necessary to fill the vertical grooves with a binder material during the construction of the foundation (in some cases, only sealing the vertical joint from the outside is required). Due to the arrangement of vertical and horizontal grooves, the integrity of the foundation wall increases. Due to the special shape that allows you to evenly distribute the load on neighboring blocks, this foundation block can be used as a supporting frame in buildings up to 20 floors or more.

Castle strip foundation is erected as follows.

On the prepared base, lay the base plate. Then mount the bottom row of blocks, then the middle one, etc. (the number of rows depends on the design height of the foundation), mounting them in the grooves. Blocks of overlying rows should be stacked with dressing, alternating with respect to risks. The upper row of blocks has a flat upper horizontal surface for supporting wall materials during the construction of overlying load-bearing walls.

Concrete example

The castle prefabricated strip foundation, consisting of support pillows and castle foundation blocks (Figs. 1-6), has dimensions: castle blocks with a cross section of 580 × 300 mm, 580 × 400 mm, 580 × 500 mm, 580 × 600 mm and a length of 880 mm , 1180 mm, 2380 mm. The last row of the strip foundation is made of a block having grooves and a flat upper horizontal surface for supporting wall materials during the construction of overlying load-bearing walls. Castle blocks have: average weight from 260 to 1960 kg, respectively (depending on the density of the concrete mix); density from 1800 to 2500 kg / m ³ ; frost resistance - not less than F200. Castle blocks can be used for low-rise and high-rise construction, as small foundations for bearing and self-supporting walls of buildings and structures. An example of the execution of the castle foundation block:

1) as the supporting foundation skeleton of buildings and structures;

2) as retaining walls;

3) as the walls of underground structures.

Claims (5)

1. Castle prefabricated strip foundation, comprising a base plate and rows of foundation blocks placed on it, characterized in that the base plate has a front inclined and poked surface, an upper rib for groove fastening to the lock of the overlying block; foundation blocks have vertical and horizontal grooves protruding 1/3 of the width of the bed and spoon surfaces; the last row of the strip foundation is made of a block having a flat upper horizontal surface for supporting wall materials during the construction of overlying walls. 2. The foundation according to claim 1, characterized in that in the center of the front side of the foundation blocks are vertical risks. 3. The foundation according to claim 1, characterized in that on the bed surface in the upper edge of the block and the base plate in the end corners there are sockets where the mounting loop of the reinforcement is arranged. 4. The foundation according to claim 1, characterized in that the grooves of the foundation blocks are reinforced with plates and reinforcement. 5. The foundation according to claim 1, characterized in that the vertical side of the base plate causes vertical risks.

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