RU2252986C1 - Wall in ground - Google Patents

Abstract

FIELD: building, particularly for erecting new buildings and for reconstruction of deepened in ground or underground buildings.

SUBSTANCE: composite wall consists of upper and lower parts. Upper wall part includes concreted reinforcing metal members and/or reinforced concrete members having heights equal to upper wall part height. The members include at least one vertical channel with height of not less than upper wall part height and with diameter defined by a certain relation. Composite reinforcing members or reinforced concrete members are provided with longitudinal metal sheets forming sheet reinforcement parts from inner wall side. Sheet reinforcement is continuous along wall length. Lower wall part is formed of ground reinforced with hardening material fed through vertical channels of composite members of upper wall part. Hardening material is pumped in ground through cavities formed in ground during pumping process. Upper and lower wall part embodiments are also disclosed.

EFFECT: reduced material consumption and labor inputs.

14 cl, 14 dwg

Description

The invention relates to construction and can be used in the construction of new and reconstruction of existing underground and underground structures.

There are various designs of walls buried in the ground and underground structures constructed using the “wall in soil” method, including those involving the use of such structures when fencing pits during the construction of underground structures (see, for example, RU 2046883 C1, 10.27.1995, RU 2056475 C1, 03.20.1996).

The closest to the invention in its essence and the achieved result is a wall in the ground of an underground structure made in height of a composite of upper and lower parts, the upper part made of prefabricated elements and the lower part as an anti-filtration curtain-wall (for example, Kheifets V. B., Prefabricated load-bearing walls in the ground. Energy construction abroad, 1974, No. 3, p.22-25).

A disadvantage of the known design is the high material consumption and the complexity of the construction and insufficient reliability during the construction of structures in flooded soils due to difficulties in sealing joints of prefabricated elements, insufficient stability in conditions when the depth of wall sealing is limited by local conditions.

The objective of the present invention is to reduce the cost of materials on the wall in the soil while improving the manufacturability and reliability of its work in flooded soils and in conditions where the depth of the wall is limited by local conditions.

The problem is solved due to the fact that in the wall in the soil, made up of the height of the upper and lower parts, according to the invention, the upper part is made of homogeneous prefabricated reinforcing metal and / or reinforced concrete elements with a height corresponding to the height of the upper part of the wall, at least part of which has in its composition at least one vertical channel with a height not less than the height of the upper part of the wall, the diameter of which is determined by the dependence:

D = (0.08-0.38) S,

where D is the inner diameter of the channel, m;

S is the width of the upper part of the wall, m;

moreover, prefabricated reinforcing metal and / or reinforced concrete elements are provided with longitudinal metal sheets forming sections of its sheet reinforcement continuous along the length of the wall on the inner side of the wall, and the lower part of the wall is made of soil reinforced with hardening material through vertical channels of the elements of the upper part of the wall by injection into the ground a solution of hardening material through the cavity formed in the soil during the injection process.

In this case, the reinforcing reinforced concrete element with a height corresponding to the height of the upper part of the wall can be made in the form of a concrete body with a width corresponding to the width of the wall, with longitudinal, preferably curved, grooves on the end faces and tiers of transverse intersecting reinforcement connected to the longitudinal metal sheets, and the vertical channel is located in a space bounded by transverse reinforcement.

The reinforcing reinforced concrete element with a height corresponding to the height of the upper part of the wall can be made in the form of a prismatic reinforced concrete beam with a width smaller than the width of the upper part of the wall, located at the wall edge remote from the sheet reinforcement and connected to it by connecting elements arranged in tiers along the height of the upper part of the wall, moreover a vertical channel or channels are located in the body of the beam between the connecting elements.

The reinforcing metal element with a height corresponding to the height of the upper part of the wall can be made of a pipe forming a vertical channel, which is located at the wall edge remote from the sheet reinforcement and is connected to it by connecting elements in the form of steel plates arranged in tiers along the height of the upper part of the wall.

The lower part of the wall can be made in the form of a system of flat panels of hardening material, filling the cavities formed in the ground during injection of the hardening material, the panels being arranged in plan at an angle to the longitudinal axis of the wall, the odd panels are made parallel to each other, and the even panels are combined opposite directed end sections of adjacent odd panels and are also made parallel to each other, and vertical channels in prefabricated reinforcing elements of the upper part of the wall are located in the plan coaxially to the middle line.

The lower part of the wall can be made in the form of a system of flat panels made of hardening material, filling the cavities formed in the ground during injection of the hardening material, the panels being arranged in plan with the formation of rays adjacent to each other at an angle, the common vertices of the pairs of which are remote from the wall having sheet reinforcement in the upper part, are placed coaxially with the vertical channels of the prefabricated reinforcing elements of the upper part of the wall through which they are formed.

The lower part of the wall can be made in the form of parallel panels of hardening material adjacent to each other by end sections of the wall, which fill the cavities formed during the injection of the hardening material, each vertical channel of the assembly reinforcing element of the upper part of the wall located in the middle of the corresponding panel formed through it.

The lower part of the wall can be made in the form of arranged in a straight line parallel to the longitudinal axis of the wall, alternating flat panels and cylindrical sections adjacent to each other from the soil, fixed by hardening material, and the vertical channels of the prefabricated elements are located in the center of the corresponding flat panels and cylindrical sections formed through them.

The lower part of the wall can be made wound up with the lower end of the water with the formation of its anti-filter curtain in the ground.

The lower part of the wall can be made in the form of a buttress forming system of flat transverse vertical panels of hardening material, filling the cavities formed during the injection of the hardening material, and the vertical channels in the prefabricated reinforcing elements of the upper part of the wall are aligned with the end sections of the panels remote from the edge of the upper part of the wall having sheet reinforcement.

The lower part of the wall can be made in the form of a system of concrete columns, coaxial in plan to the vertical channels in the prefabricated reinforcing elements of the upper part of the wall through which they are formed.

As a hardening material of the lower part of the wall, a water-cement mortar with the addition of clay powder was used.

The upper and lower parts of the wall can be combined with each other with additional vertical unifying elements, each of which is wound with its upper end into the corresponding vertical channel of the corresponding prefabricated reinforcing element of the upper part of the wall and monolithic in it, and the lower is wound into the lower part of the wall.

Additional vertical unifying elements can have a height equal to the height of the wall in the ground, be provided with outer shells within the upper part of the wall, which exclude adhesion to the prefabricated reinforcing element when monolithic, are prestressed and anchored at the upper end of the corresponding prefabricated reinforcing element of the upper part of the wall.

The technical result provided by the given set of essential features consists in reducing material consumption and labor costs during the construction of newly constructed or reconstructed buried in the ground or underground structures, including those being built in flooded soils, while improving the reliability and manufacturability of the construction of the combined design developed in the invention, part which, being connected both structurally and technologically, jointly perceive the effects of the soil mass and loads of building elements for which it is intended.

The invention is illustrated by drawings, where

figure 1 shows a wall, a cross section,

figure 2 is a view along aa in figure 1, an embodiment of a reinforcing reinforced concrete element of the upper part of the wall in the form of a concrete body with a width corresponding to the width of the wall,

figure 3 is the same, a view along CC in figure 2,

figure 4 is a view along aa in figure 1, an embodiment of a reinforcing reinforced concrete element of the upper part of the wall in the form of a reinforced concrete beam with a width less than the width of the upper part of the wall,

figure 5 is the same, a view along D-D in figure 4,

in Fig.6 is a view aa in Fig.1, an embodiment of a reinforcing metal element of the upper part of the wall from a pipe forming a vertical channel,

Fig.7 is the same, a view along EE in Fig.6,

on Fig - the lower part of the wall in plan, an embodiment of the lower part of the wall in the form of a system of flat panels of soil, fixed with hardening material, located in plan at an angle to the longitudinal axis of the wall,

figure 9 is the same, an embodiment of the lower part of the wall with the formation of adjacent rays from the soil, fixed by hardening material,

figure 10 is the same, an embodiment of the lower part of the wall in the form of a system of flat panels of soil, fixed by hardening material, parallel to the longitudinal axis of the wall,

figure 11 is the same, an embodiment of the lower part of the wall in the form of arranged in a straight line parallel to the longitudinal axis of the wall, alternating flat panels and cylindrical sections of soil adjacent to each other, fixed by hardening material,

on Fig - the same, an embodiment of the lower part of the wall in the form of a system of flat panels of soil, fixed by hardening material, located perpendicular to the longitudinal axis of the wall,

Fig.13 is the same, an embodiment of the lower part of the wall in the form of separate cylindrical sections.

The positions in the drawings indicate:

1 - upper reinforced concrete part of the wall,

2 - the lower part of the wall of soil, fixed by hardening material,

3 - metal sheets forming sheet reinforcement,

4 - vertical channel

5 - connecting elements,

6 - additional uniting element,

7 - prefabricated reinforcing metal element in the form of a pipe forming a vertical channel,

8 - connecting elements in the form of steel plates,

9 - reinforcing reinforced concrete element in the form of a prismatic reinforced concrete beam,

10 - vertical channel in a prismatic beam,

11 - reinforcing reinforced concrete element in the form of a concrete body with a width corresponding to the width of the wall,

12 is a longitudinal curved groove,

13 - transverse intersecting reinforcement,

14 - longitudinal reinforcement,

15, 16 - flat panels of soil, fixed by hardening material,

17 - the longitudinal axis of the wall,

18 - oriented beam

19 - buttress,

20 is a cylindrical section,

21 is the center of the panel,

22 - the curtain

23 - outer shell

24 - soil concrete columns.

The wall of an underground structure buried in the ground (not shown in the drawings) is made of a composite of the upper 1 and lower 2 parts. The upper part 1 of the wall consists of homogeneous prefabricated reinforcing metal 7 and / or reinforced concrete 9, 11 elements with a height corresponding to the height of the upper part 1 of the wall, at least part of which includes at least one vertical channel 4, not less than the height of the upper parts of the wall, the diameter of which is determined by the dependence:

D = (0.08-0.38) S,

where D is the inner diameter of the channel, m;

S - width of the upper part of the wall, m.

Prefabricated reinforcing metal 7 and / or reinforced concrete 9, 11 elements are provided with longitudinal metal sheets 3, forming on the inner side of the wall sections of its sheet reinforcement, continuous along the length of the wall. The lower 2 part of the wall is made of soil reinforced with hardening material through the vertical channels of 4 elements 7, 9, 11 of the upper part of the wall by injecting a solution of hardening material into the soil through the cavities formed in the soil during injection.

The reinforcing reinforced concrete element 11 of the upper 1 part of the wall can be made in the form of a concrete body with a width corresponding to the width of the wall, with longitudinal, preferably curved, grooves 12 on the end faces and provided with tiers of transverse intersecting reinforcement 13 connected to the longitudinal metal sheets 3, and a vertical channel 4 is located in a space limited by transverse reinforcement 13 (Fig.2, 3).

The reinforcing reinforced concrete element 9 of the upper part 1 of the wall can be made in the form of a prismatic reinforced concrete beam 10 with a width less than the width of the upper part 1 of the wall, which is located at the face of the wall remote from the sheet reinforcement 3 and is connected to it by connecting elements 5, arranged in tiers along the height of the upper part of the wall, moreover, the vertical channel 4 (or channels) is located (or located) in the space between the connecting elements 5 (4, 5).

The reinforcing metal element 7 of the upper part 1 of the wall can be made of a pipe forming a vertical channel 4, which is located at the edge of the wall remote from the sheet reinforcement 3 and connected to it by tiers along the height of the upper part 1 of the wall with connecting elements in the form of steel plates 8 (Fig. 6, 7).

The lower part 2 of the wall can be made in the form of a system of flat panels 15, 16 made of hardening material, filling the cavities formed in the soil during injection of the hardening material, with panels 15, 16 located in plan at an angle to the longitudinal axis of the wall, the odd panels 15 are made parallel each other, and even 16 panels unite the opposite directional end sections of adjacent odd 15 panels and are also made parallel to each other, and vertical channels 4 in prefabricated reinforcing elements of the upper 1 part of the wall races laid in plan aligned with the midpoints of the panels 15, 16 (Fig. 8).

The lower 2 part of the wall can be made in the form of a system of flat panels of hardening material, filling the cavities formed in the soil during the injection of the hardening material, the panels being arranged in plan with the formation of rays 18 adjacent to each other at an angle, the common vertices of the pairs of which are remote from the faces of the wall having sheet reinforcement 3 in the upper part are placed coaxially with the vertical channels 4 of the prefabricated reinforcing elements 7, 9, 11 of the upper part of the wall through which they are formed (Fig. 9).

The lower 2 part of the wall can be made in the form of flat panels 21 adjacent to each other by end sections of the wall panels parallel to each other and made of hardening material, filling the cavities formed during the injection of the hardening material, each vertical channel 4 of the assembled reinforcing element 7, 9, 11 the upper part 1 of the wall is located in the middle of the corresponding panel 21 formed through it (figure 10).

The lower part 2 of the wall can be made in the form of a wall arranged in a straight line parallel to the longitudinal axis 17, alternating flat panels 21 adjacent to each other and cylindrical sections 20 of soil fixed with hardening material, the vertical channels 4 of prefabricated reinforcing elements 7, 9, 11 are located in the center of their respective flat panels 21 and cylindrical sections 20 formed through them (FIG. 11).

The lower 2 part of the wall can be made wound up with the lower end in the water seal with the formation of its anti-filter curtain 22 in the ground.

The lower 2 part of the wall can be made in the form of a buttress forming system 19 of flat transverse vertical panels 15 of hardening material, filling the cavities formed during the injection of the hardening material, and the vertical channels 4 in the prefabricated reinforcing elements 7, 9, 11 of the upper part of the wall are aligned with the end sections of the panels 15, remote from the face of the upper part of the wall, having sheet reinforcement 3 (Fig.12).

. The lower 2 part of the wall can be made in the form of a system of concrete columns 24, coaxial in plan vertical channels 4 in the reinforcing reinforcing elements 7, 9, 11 of the upper part of the wall through which they are formed (Fig.13). As a hardening material of the lower part of the wall, a water-cement mortar with the addition of clay powder was used.

The upper 1 and lower 2 parts of the wall can be combined with each other with additional vertical uniting elements 6, each of which is wound with its upper end into the corresponding vertical channel 4 of the corresponding prefabricated reinforcing element 7, 9, 11 of the upper part 1 of the wall and monolithic in it, and the lower wound in the lower 2 part of the wall.

Additional vertical combining elements 6 can have a height equal to the height of the wall in the ground, be provided with outer shells within the upper part 1 of the wall, which exclude adhesion to the prefabricated reinforcing element 7, 9, 11 when monolithic, are prestressed and anchored at the upper end of the corresponding precast reinforcing element 7, 9, 11 of the upper part 1 of the wall.

The wall is erected as follows. First, a prefabricated element of the upper part of the wall is lowered into a trench secured by a bentonite suspension or a borehole, then it is monolithic, for example, using a vertically moving pipe through which a hardening mixture is supplied. After that, through the channels in the prefabricated element, a well is drilled in the lower part of the wall, a monitor for jet grouting is lowered into it, and panels or sections of the lower part of the wall are made, which can be brought to water confusion. At the final stage, additional unifying elements can be installed between the upper and lower parts of the wall.

Fixing the soil at the bottom of the wall can provide anti-filter protection for the pit and increase the resistance of the soil into which the upper part of the wall is embedded. At the same time, the depth of the upper (most expensive) part of the wall can be reduced, and the cost of the wall as a whole is reduced, while ensuring the required stability and anti-filtration characteristics.

Claims (14)

1. A wall in the ground made in height of a composite of upper and lower parts, characterized in that the upper part of the wall is made of homogeneous prefabricated reinforcing metal and / or reinforced concrete elements with a height corresponding to the height of the upper part of the wall, at least part of which has composition of at least one vertical channel with a height not less than the height of the upper part of the wall, the diameter of which is determined by the dependence D = (0.08-0.38) S where D is the inner diameter of the channel, m; S is the width of the upper part of the wall, m; moreover, prefabricated reinforcing metal and / or reinforced concrete elements are provided with longitudinal metal sheets forming sections of its sheet reinforcement continuous along the length of the wall on the inner side of the wall, and the lower part of the wall is made of soil reinforced with hardening material through vertical channels of the elements of the upper part of the wall by injection into the ground a solution of hardening material through the cavity formed in the soil during the injection process. 2. The wall in the soil according to claim 1, characterized in that the reinforcing reinforced concrete element with a height corresponding to the height of the upper part of the wall is made in the form of a concrete body with a width corresponding to the width of the wall, with longitudinal, preferably curved, grooves on the end faces and transverse tiers intersecting reinforcement attached to the longitudinal metal sheets, and the vertical channel is located in the space bounded by transverse reinforcement. 3. The wall in the soil according to claim 1, characterized in that the reinforcing reinforced concrete element with a height corresponding to the height of the upper part of the wall is made in the form of a prismatic reinforced concrete beam with a width smaller than the width of the upper part of the wall, located at the wall edge remote from the sheet reinforcement and attached to it is arranged in tiers along the height of the upper part of the wall with connecting elements, the vertical channel or channels being located in the beam between the connecting elements. 4. The wall in the soil of the structure according to claim 1, characterized in that the reinforcing metal element with a height corresponding to the height of the upper part of the wall is made of a pipe forming a vertical channel, which is located at the wall face remote from the sheet reinforcement and is connected to it by tiers in height the upper part of the wall with connecting elements in the form of steel plates. 5. The wall in the soil according to any one of claims 1 to 4, characterized in that the lower part of the wall is made in the form of a system of flat panels of hardening material, filling the cavities formed in the soil during the injection of the hardening material, the panels being arranged in plan at an angle to the longitudinal axis of the wall, the odd panels are made parallel to each other, and the even panels combine the oppositely directed end sections of adjacent odd panels and are also made parallel to each other, and the vertical channels in prefabricated reinforcing elements The cents of the upper part of the wall are located in plan aligned with the middle of the panels. 6. The wall in the soil according to any one of claims 1 to 4, characterized in that the lower part of the wall is made in the form of a system of flat panels of hardening material, filling the cavities formed in the soil during injection of the hardening material, the panels being arranged in plan to form adjacent to each other at an angle of rays, the common vertices of the pairs of which are remote from the edge of the wall, which has sheet reinforcement in the upper part, are aligned with the vertical channels of the prefabricated reinforcing elements of the upper part of the wall through which they are formed. 7. The wall in the soil according to any one of claims 1 to 4, characterized in that the lower part of the wall is made in the form of parallel panels of hardening material adjacent to each other by the longitudinal axis of the wall, filling the cavities formed during the injection of the hardening material, moreover, each vertical channel of the precast reinforcing element of the upper part of the wall is located in the middle of the corresponding panel formed through it. 8. The wall in the soil according to any one of claims 1 to 4, characterized in that the lower part of the wall is made in the form of arranged in a straight line parallel to the longitudinal axis of the wall, alternating flat panels and cylindrical sections of soil adjacent to each other, fixed by hardening material moreover, the vertical channels of prefabricated reinforcing elements are located in the center of their respective flat panels and cylindrical sections formed through them. 9. The wall in the soil according to any one of claims 1 to 8, characterized in that the lower part of the wall is made wound with the lower end into the water seal with the formation of an anti-filter curtain in the soil. 10. The wall in the soil according to any one of claims 1 to 4, characterized in that the lower part of the wall is made in the form of a buttress forming system of flat transverse vertical panels of hardening material, filling the cavities formed during the injection of hardening material, and the vertical channels in prefabricated reinforcing the elements of the upper part of the wall are aligned with the end sections of the panels, remote from the edge of the upper part of the wall having sheet reinforcement. 11. The wall in the soil according to claims 1 to 4, characterized in that the lower part of the wall is made in the form of a system of concrete columns, coaxial in plan to the vertical channels in the precast reinforcing elements of the upper part of the wall through which they are formed. 12. The wall in the soil according to any one of claims 1 to 11, characterized in that a water-cement solution with the addition of clay powder is used as the hardening material of the lower part of the wall. 13. The wall in the soil according to any one of claims 1 to 12, characterized in that the upper and lower parts of the wall are interconnected by additional vertical unifying elements, each of which is wound with its upper end into the corresponding vertical channel of the corresponding prefabricated reinforcing element of the upper part of the wall and monolithic in it, and the bottom is brought to the bottom of the wall. 14. The wall in the soil according to item 13, characterized in that the additional vertical combining elements have a height equal to the height of the wall in the soil, are provided with outer shells within the upper part of the wall, which exclude adhesion to the prefabricated reinforcing element when monolithic, are made with prestress and anchored at the upper end of the corresponding precast reinforcing element of the upper part of the wall.

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