RU88365U1 - ARMED STONE BOLTED FOUNDATION OF SMALL BUILDINGS AND CONSTRUCTIONS - Google Patents

Abstract

Armored stone pillar foundation of small buildings and structures, including a rectangular pillar and a foundation slab, made of high-quality masonry from ordinary ceramic bricks and reinforced with spatial reinforcing cages, characterized in that the longitudinal rods of the spatial reinforcing cage of the foundation pillar intersect the spatial reinforcing cage of the base plate and are firmly fixed in it, and the transverse rods in the form of clamps are placed in the grooves of the beds of brick minutes or masonry joints, thus laying the foundation slab is formed on an edge, the vertical rows of the foundation masonry column made with complete horizontal rows and dense filling of all joints, grooves and holes brick grained multicomponent plasticized reinforced concrete and bricks placed in the openings of reinforcement rods.

Description

The utility model relates to the field of construction, in particular, to the stand-alone foundations of small, remote from the construction industry enterprises, buildings or structures located on relatively strong soils with a certain depth, possibly permafrost, heaving subsidence.

Typical structures of columnar foundations from precast or monolithic concrete / Stone structures and their construction are known and widely used in small buildings on strong soils. The reference book of the builder - M., Stroyizdat., 1989. - 117 p ./ [1]. However, these structures very often turn out to be of high material consumption and cost, and their construction is accompanied by high costs for transport and crane equipment.

The closest to the utility model in technical essence (adopted as a prototype) is the construction of a stone columnar foundation for small buildings on relatively strong soils / Architecture of civil and industrial buildings. Volume 3. Residential buildings. Edited by prof. K.K.Shevtsova. M., Stroyizdat., 1983. - 101 p. / [2]. However, these structures are often very massive, they do not resist the uneven subsidence of individual parts of the building and are unreliable.

The essence of the utility model is to reduce the economic and material costs during the construction or reconstruction of separate foundations of small stone buildings and structures remote from construction enterprises located on relatively strong soils with a certain depth, possibly permafrost, heaving, subsidence.

The technical result of the utility model is to improve the design of reinforced stone column foundations, increase their bearing capacity, rigidity, durability, reduce their massiveness, material consumption and cost.

The technical result in the implementation of the utility model is achieved by the fact that in the well-known armored columnar foundation of small buildings and structures, including a rectangular pillar and a fundamental slab made of high-quality masonry from ordinary ceramic bricks and reinforced with spatial reinforcing cages, the feature is that the longitudinal rods of the spatial the reinforcing cage of the foundation pillar intersect the spatial reinforcing cage of the foundation pillar s and are securely fixed in it, and transverse rods in the form of clamps are placed in the grooves of the bed of bricks or in the joints of the masonry, while the laying of the foundation slab is made on the edge, in vertical rows, the laying of the foundation pillar is made in horizontal rows with full and dense filling of all joints, grooves and brick holes with fine-grained plasticized multicomponent concrete and reinforced with reinforcing bars placed in brick holes.

The stone-stone pillar foundation of small buildings and structures is a rectangular pillar foundation on a foundation slab, made of high-quality masonry from ordinary ceramic plastic bricks with three cylindrical, vertically and symmetrically located holes with grades not lower than in strength M300 and in frost resistance F50 with reinforcing, spatial reinforcing frames installed inside and during masonry, the longitudinal rods of which are placed in holes TIFA brick and transverse rods in the form of collars, like carcasses in a knitted reinforced concrete structures are placed in the grooves of beds brick or masonry joints. High-quality masonry is achieved by complete and dense filling of all joints, grooves and holes with fine-grained plasticized multicomponent concrete with a strength class not lower than B30 and a frost resistance grade not lower than F50 with a standard cone draft mobility of 2-4 cm; Brick is used in a water-saturated state, and if necessary, it is humidified during masonry. The laying of the foundation slab is carried out in vertical rows on the rib, the laying of the pillar is carried out in horizontal rows. At the same time, the longitudinal rods of the reinforcing cage of the foundation pillar are sealed in almost the entire thickness of the foundation plate and left in the corresponding places of the upper surface and in the form of outlets so that they extend beyond its upper face to the entire height above the located foundation beam. Calculation and construction of reinforced stone column foundations is performed for both compressed and flexible structural elements according to the norms of designing the foundations of buildings and structures, as well as the norms and rules of the design of reinforced concrete and stone and reinforced stone structures.

Figure 1 shows the longitudinal and transverse sections of the stone-stone columnar foundation, where the following designations are accepted: concrete preparation - 1; hard shield with stops - 2; longitudinal rods of the reinforcing cage of the base plate - 3; transverse clamps of the reinforcing cage of the base plate - 4; vertical clamps of the reinforcing cage of the base plate - 5; longitudinal rods of the reinforcing cage of the foundation column - 6; longitudinal clamps of the reinforcing cage of the foundation pillar - 7; transverse clamps of the reinforcing cage of the foundation pillar - 8.

Figure 2 shows the cross section with the orderly laying of the brick of the base plate, where the following notation is accepted: longitudinal rods of the reinforcing cage of the base plate - 3; transverse clamps of the frame of the foundation plate - 4; vertical clamps of the reinforcing cage of the base plate - 5.

Figure 3 shows the cross-section with the orderly laying of the brick of the foundation pillar, where the following designations are accepted: longitudinal rods of the reinforcing cage of the foundation pillar - 6; longitudinal clamps of the reinforcing cage of the foundation pillar - 7; transverse clamps of the reinforcing cage of the foundation pillar - 8.

Information confirming the possibility of implementing a utility model.

The installation of the reinforced stone columnar foundation of small buildings or structures begins with the laying of the foundation slab. A hard shield with stops is installed on a leveled, concrete preparation under the rail and marked on the first vertical row, to fix it, 2. The first vertical row of bricks with side seams made of fine-grained concrete is placed close to the rigid shield with an emphasis. The longitudinal rods of the reinforcing cage of the base plate - 3 are put into certain holes in the bricks of Fig. 2 to ensure their horizontal position, close them in the holes with fine-grained concrete, horizontal cross clamps of the reinforcing cage of the base plate - 4 of the same frame are arranged. Next, by stringing on the longitudinal rods of the reinforcing cage of the base plate - 3, the second vertical row of bricks is laid out with the corresponding holes, also with full and tight sealing with fine-grained concrete of all the seams and holes in figure 2, the vertical clamps of the base plate frame - 5 are installed and continue in this way lead the masonry to the installation site of the vertical longitudinal rods of the reinforcing cage of the foundation pillar - 6. They are first filled up into the grooves and seams of the vertical rows of the foundation plate of Figures 1 and 3 about nent of rebar from this plate, and a length equal to the height of the foundation pillar plus the length of rebar from foundation pillar to the device interface with hard ground beam, which in this application is not considered. Then, using the same technology in FIGS. 1 and 2, the laying of the foundation slab is completed, and according to the same technology in the drawings of Figures 1 and 3, but laying the foundation pillar in horizontal rows (according to the more commonly used “on bed” technology).

The construction of the claimed design is preferably carried out in the warm season. The erected structures should be provided with the necessary care, prescribed by building codes, and providing a set of design strength of the material of the joints and sealing holes.

The widespread introduction of a utility model in the construction of these buildings and structures will give a significant economic effect and will open a new direction in the improvement of stone structures.

Information sources.

1. Stone structures and their construction. Reference builder. - M., Stroyizdat, 1989 .-- 117 p.

2. Architecture of civil and industrial buildings. Volume 3. Residential buildings. Edited by prof. K.K.Shevtsova. - M., Stroyizdat., 1983 .-- 101 p.

Claims (1)

Armored stone pillar foundation of small buildings and structures, including a rectangular pillar and a foundation slab, made of high-quality masonry from ordinary ceramic bricks and reinforced with spatial reinforcing cages, characterized in that the longitudinal rods of the spatial reinforcing cage of the foundation pillar intersect the spatial reinforcing cage of the base plate and are firmly fixed in it, and the transverse rods in the form of clamps are placed in the grooves of the beds of brick minutes or masonry joints, the laying foundation slab is formed on an edge, the vertical rows of the foundation masonry column made with complete horizontal rows and dense filling of all joints, grooves and holes brick grained multicomponent plasticized reinforced concrete and bricks placed in the openings of reinforcement rods.