SU1418452A1 - Building or structure erected on non-uniformity deformable soils - Google Patents

Abstract

The invention relates to construction, in particular to low-rise buildings erected on unevenly deforming soils. The aim of the invention is to increase the resistance to uneven deformations of the soil, 0 warping, reducing the labor intensity of construction and material intensity. The building construction includes wall, eaves and basement elements made in the form of a single building height, the construction of panels 1 having wedge-shaped in the lower part the protrusion 2, the height of which corresponds to the maximum lifting of the axis of the siege (G C. fat. I

Description

soil ki with pulenin, swelling or subsidence. The length is equal to the length of the panel, the straight edge 3 is with the continuation of the outer front face of panel 1, and the beveled edge 4 is turned to the side surface of the corresponding pile 5 ”Panel 1 rests; when performing over a planned: ground surface, the ends of the pile are 5, so that the distance b from the pile to the top; The ticking joint of the panels 1 is i b (0.1-0.38) 1, where 1 is the length of the board and the height of the piles above the planned soil surface is equal to the height of the protrusion 2 o The junction points of the panels 1 are located in the level of the upper and lower longitudinal reinforcement 8 at a distance a from the upper and lower edges of the panel, equal to a {0.015-0.1) b. Panel 1 can be equipped with insulation 9c. Sealing the subfield is carried out by a protrusion 2 lean on a lightweight reinforced concrete slab 12 mounted on a concrete column 13 supported on the pile 5, placed under the oven heater 9, laid on ground along the outer perimeter pane-. lei 1c2ipo

 ; one . .

The invention relates to construction, namely to low-rise buildings erected on unevenly deformed soils.

The purpose of the invention is to increase the resistance to uneven deformations of the foundation soil, reducing the labor intensity of construction and material consumption.

Fig. 1 shows a building, a structure erected on unevenly deforming soils, a cross section; Fig 2 is the same longitudinal section;

Building, construction includes old, eaves and plinth elements, made in the form of building uniform in height, building panels 1, having a wedge-shaped protrusion 2 in the lower part, the height of which corresponds to the magnitude of the maximum rise or fall of the soil during heaving, swelling or drawdown, length is equal to length-. not the panels 1, the rectilinear face 3 is a continuation of the outer face of the panel, and the beveled face 4 faces the side surface of the corresponding pile 5. Panel 1 rests against the edges of the pile 5 above the planned ground surface so that the distance b from the pile to the vertical junction of 6 panels. 1 is (0.1-0.38) 1, where 1 is the single panel and the height of the pile is above. planned by

the soil height is equal to the height of the wedge-shaped protrusion 2. When the ratio b / 1 is in the range of 0.1-0.38, the envelope moment in the combined wall panel and the steel consumption become the smallest, and the bearing capacity of the pile on the ground is greatest, since each works as a single. With L / 1 0.1, 38 adjacent piles test. interaction, their bearing capacity on the ground decreases, bending e-moments and the steel consumption in panel 1 increases sharply, the junction points 7 of panel 1 in vertical joints 6-across the height h of the panel is located in the upper and lower levels of reinforcement B at the distance a from the top and bottom edges of the panel, and the ratio a / h should be in the range of 0.015 a / h 0.1, at a / h 0.15 the protective layer of concrete for working reinforcement may be insufficient, and at a / h 0.1 significantly increases the consumption of steel, and for large a / h the reinforcement does not fit into the wall panel and its width must be increased. .

Panel 1 can be equipped with insulation 9, for example, I with polystyrene foam. Sealing the subfield is carried out by a wedge-shaped protrusion 2 and the bridge U Paul 11 can be supported on logs, brick columns and soil (not or lightweight reinforced concrete).

a slab 12 mounted on concrete pillars 13 resting on piles 5. The building is protected from cold flow through the floor with insulation 14, which is laid on the ground along the outer perimeter of the panels. The lower part of the panel 1 and the wedge-shaped ledge 2 are coated with bitumen for two times (as in a typical solution) to protect against accidental moisture.

The stability of the proposed building from the deformations of the frost heave (swelling) of the soil is achieved due to the fact that the forces arising from the lifting of the soil are transmitted to panel 1 through a narrow wedge-shaped protrusion 2, i.e., a small area of ground pressure in this case the area of the protrusion 2 and the strength of the soil and does not exceed its own weight of the wall and the loads acting on it. The use of enlarged panels 1 makes it possible to reduce the construction labor costs - 25 uniform deformations of the ground and material consumption. Console support of panel 1 on pile 5 makes it possible to eliminate the tip or not to use piles of larger diameter

The combination of basement elements with wall elements eliminates the formation of cold bridges in the area of the wall element resting on the basement element, improves the microclimate of the building, reduces heat loss. Thermal insulation of the underground with the help of an effective industrial insulation 14. (Polymer foam), the dimensions of which are determined on the basis of heat engineering calculations, ensures a predetermined building microclimate, reduces the labor intensity of installation. The implementation of panel 1 of a single height building, the construction essentially increases the rigidity of the building as a whole.

vani, reducing the complexity of the construction and material consumption, wall, eaves and basement elements are made in the form of a building of the same height,

30 construction of panels with a wedge-shaped protrusion at the bottom end, the length of which corresponds to the length of the panel, the straight line of which is the extension of the outer edge of the panel, and

2g the beveled face faces the side; the surface of the corresponding pile, with; what is the height of the protrusion with / this corresponds to the magnitude of the maximum rise or siege

. when grounding, when heaving, swelling or subsiding, the joints of panels in the vertical joints are located in the levels of the upper and lower longitudinal reinforcement of the panels at a distance from the upper and lower edges

which increases its stability at 45 Equal a (0.015-0.1) h,: where h are irregular base deformations.

The proposed construction of the building in combination with the pile foundation (without a rift solution) allows

to avoid labor-intensive land operations, while retaliation 10 can be arranged on the ground of an undisturbed structure, which increases operational reliability

The absence of foundation trenches under the building is favorable for construction on subsiding soils, since atmospheric water cannot be used as storage tanks, increasing the size of soaking zones under the foundation,

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Claims (1)

Invention Formula Building, construction, erected; on unevenly deforming the ground layer:: max, including wall, curtain and supported piles protruding above the planned surface of the ground, socle elements, blind area, characterized in that, in order to increase resistance to the nevani, reduce the labor intensity of erection and material intensity, wall , eaves and basement elements are made in the form of a building of uniform height, 30 construction of panels with a wedge-shaped protrusion at the bottom end, the length of which corresponds to the length of the panel, the straight line of which is the extension of the outer edge of the panel, and 2g beveled face facing the side; the surface of the corresponding pile, with; than the height of the protrusion with / et corresponds to the magnitude of the maximum rise or sieges. When grounding, heaving, swelling, or subsidence, the joints of the panels in the vertical joints are located in the levels of the upper and lower longitudinal reinforcement of the panels at a distance from the upper and lower faces. the cell of the panel, and the distance b from the vertical joint to the axis of the pile is within b (0.1-0.38) 1, where 1 is the length of the panel. Compiled by V. Gonik Editor A. KozorizTechred A. KravchukKorrektor L, Pilipenko Order 4136/33 Circulation 688 VPIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 2 Subscription