RU166560U1 - INVENTORY FORMWORK FOR WALL CONSTRUCTION IN SOIL PROTECTING A CAPITAL UNDERGROUND CONSTRUCTION - Google Patents

Abstract

1. Inventory formwork for constructing a wall in the ground enclosing the capital underground room, containing vertically oriented support pipes located at a distance from each other and a frame placed between them with an internal formwork located on the side of the capital underground room and an external formwork shields, characterized in that it is made of two support pipes located at a fixed distance "b" between their centers, a metal frame with formwork shields, size between them, the upper and lower restrictive elements, located respectively in the upper and lower parts of the support pipes near their ends, while the upper and lower restrictive elements are made of two pipes enclosing the support pipes, and rigid connecting elements located on the sides of the pipes and rigidly attached to them, the metal frame is made in the form of a rigid end-to-end structure with a height equal to the height of the support pipes and a width of "c" together with shuttering boards, and the end parts of the frame according to The planes are inscribed in plan into a concave surface enveloping the support pipe, while along the entire height of the support pipe from the side of the metal frame there are restrictive protrusions of the same cross section along the center, the inner formwork panel being made in the form of a metal sheet, the main dimensions being connected by the following relations: c = d · cosα, m; l = bd · sinα + 2δ, m; l = bd-2δ, m; b = b + d, m, where c is the total width of the side and central metal frames, taking into account formwork boards, m; d - outer diameter of support pipes, m; α - angle, determining the difference “b”, “l” and “c”, degrees, α <20 °; l- full

Description

The proposed technical solution relates to the field of construction of underground structures.

Known inventory formwork for constructing a wall in the ground, containing vertically oriented pipes and a frame with formwork panels placed between them (STO-GK Transstroy 014 - 2007, p. 36, Fig. 22, a).

The disadvantage is the lack of accuracy in the installation of sections, which leads to additional difficulties in ensuring water resistance.

Known inventory formwork for constructing a wall in the ground, enclosing the capital underground room, containing vertically oriented pipes located at a distance from each other and placed between them with an internal, located on the side of the capital underground room, and external, located on the ground side, formwork panels ( STO-GK Transstroy 014 - 2007, p. 36, Fig. 22, c).

The device of the connecting grips, i.e. dividing them into lateral and central, significantly increases the accuracy of wall formation in the ground. However, the existing formwork kit scheme does not allow the surface facing the internal capital premises to turn into a plane, therefore, difficulties arise with the waterproofing device, reliability is reduced, and labor and material costs are increased.

The purpose of this technical solution is to increase the accuracy of wall installation.

This goal is achieved by the fact that the inventory formwork for constructing a wall in the ground enclosing the capital underground room contains vertically oriented support pipes located at a distance from each other and the frame located between them with an internal, located on the side of the capital underground room, and external, located with sides of the soil, formwork panels, while it is made of two support pipes located at a fixed distance “b” between their centers, a metal frame with formwork full-time shields placed between them, the upper and lower restrictive elements, located respectively in the upper and lower parts of the support pipes near their ends. The upper and lower restrictive elements are made of two nozzles enclosing the support pipes, and rigid connecting elements located on the sides of the nozzles and rigidly attached to them. The metal frame is made in the form of a rigid end-to-end structure with a height equal to the height of the support pipes and a width of "c" together with shuttering boards. The end parts of the frame in shape in plan are inscribed in a concave surface enveloping the support tube. Along the entire height of the support pipe from the side of the metal frame, restrictive protrusions of the same cross section are located at its center, the inner formwork board being made in the form of a metal sheet. The main dimensions are related by the following relationships:

c = d · cosα, m;

l _b = bd · sinα + 2δ, m;

l _bts = bd-2δ, m;

b _side = b + d, m;

where c is the full width of the metal frames 2 and 8, taking into account the formwork panels, m;

d is the outer diameter of the support pipes, m;

α is the angle defining the difference “b”, “l _b ” and “c”, degrees, α <20 °;

l _b - the total length of the metal frame 2, m;

l _BC - the length of the metal frame 2 along the longitudinal axis, m;

b is the distance between the centers of the support pipes, m;

δ is the gap between the metal frame 2 and the support pipes 1, m;

b _side - the full length of the inventory formwork kit, m

The gap δ in the drawing and in the formulas indicates that the installation is carried out by "free insertion" of one element into another. It excludes such forms of installation (assembly) as pressing. This technical solution involves the manufacture of assembly units (frames, restrictive elements, etc.) in the factory or at well-equipped training grounds, so the manufacturing accuracy is 2-3 mm, and the gap does not exceed 5 mm.

In addition, inventory formwork may also have the following relationships:

d = 1.0, m;

The essence of the utility model is illustrated by drawings, which depict:

in FIG. 1 - a pair of inventory formwork, located in the plan at the design distance;

in FIG. 2 is a side view of inventory formwork;

in FIG. 3 is a plan view of a connecting element;

in FIG. 4 - the stage of assembling a pair of inventory formwork (view in plan of pits with inventory formwork);

in FIG. 5 - stage of construction of the "wall in the ground" (view in plan of the general foundation pit with concreted lateral parts and a connecting element);

in FIG. 6 is a general view of a concreted elementary section of a “wall in the ground”.

Concreting of the “wall in the ground” is carried out by separate elementary sections, for which two inventory formwork for the construction of the wall in the ground and a connecting element are used.

Inventory formwork for constructing a wall in the ground is made (Fig. 1 and 2) of two support pipes 1 located vertically at a fixed distance “b” between their centers, a metal frame 2 with an external 3 formwork panel located on the ground side and internal 4 formwork shield, located on the side of the capital underground premises. The support pipes 1 contain upper 5 and lower 6 restrictive elements, which are made of pipes with a wall thickness of "δ _st ", enclosing the support pipes 1 with a gap of "δ", and rigid connecting elements 7 located on the sides of the pipes 5 and 6 and rigidly attached to them. The metal frame 2 is made in the form of a rigid end-to-end structure with a height equal to the height of the support pipes and a width of "c" together with shuttering boards.

The connecting element (Fig. 3) is made of a connecting metal frame 8 with an external 9 formwork panel located on the ground side and an internal 10 formwork panel located on the side of the main underground building.

The connecting metal frame is made in the form of a rigid end-to-end structure with a height equal to the height of the inventory formwork and a width of "c" together with the formwork panels, while both end parts are inscribed in a convex surface corresponding to the surface of the support pipe, taking into account the tolerance.

Along the entire height of the support pipe from the side of the side metal frame along its center and along the entire height of the connecting metal frame on the end parts along their center there are restrictive protrusions 11 of the same cross section. An approximate cross-section of the restrictive protrusion is an equilateral triangle with sides of 10 cm. The end parts of the frame 2 are inscribed in plan shape into a concave surface enveloping the support tube 1 taking into account the protrusion 11.

Internal formwork panels 4 and 10 are made in the form of a metal sheet, which plays the role of waterproofing.

The main dimensions are related by the following relationships:

c = d · cosα, m;

l _b = bd · sinα-2δ, m;

l _bts = bd-2δ, m;

b _side = b + d, m;

b _c = b _tso + d (1-sinα), m;

_commonly l = b _n + l _BC + 4δ, m;

where c is the full width of the metal frames 2 and 8, taking into account the formwork panels, m;

d is the outer diameter of the support pipes, m;

α is the angle defining the difference “b”, “l _b ” and “c”, degrees, α <20 °;

l _b - the total length of the metal frame 2, m;

l _BC - the length of the metal frame 2 along the longitudinal axis, m;

b is the distance between the centers of the support pipes, m;

δ is the gap between the side metal frame 2 and the support pipes 1, m;

b _c - the length of the metal frame 8 along the longitudinal axis, m;

b _tso - the length of the rectangular part of the metal frame 8, m;

l _total - the total length of the wall section, concreted during one inventory set and connecting element, m;

b _side - the full length of the inventory formwork kit, m;

S ₁ and S ₂ - auxiliary (explanatory) dimensions at the contact of metal frames 2 and 8 (see. Fig. 1 and 3), m

The angle "α" (see Fig. 1) is assigned so that the value of "c", on the one hand, is as close as possible to the diameter "d" of the support pipe (in this case, the cross-sectional surface of the excavation is closest to the cross-sectional surface an inventory formwork kit for constructing a wall in the ground, that is, no unnecessary excavation work is performed), and, on the other hand, so that the angle “β” is not too small (otherwise the strength of these ends in the installation stage is not ensured).

Based on the experimental results, the following relationships should also be considered

d = 1.0, m;

To describe the nature of the work of the proposed technical solution, the following items are also introduced:

12 - the boundary of the pit for inventory formwork;

13 - the boundary of the pit for two inventory formwork and one connecting element;

14 - surface bounding the pit from the soil;

15 - surface bounding the capital underground space;

16 - soil backfill.

Inventory formwork for the construction of a wall in the ground enclosing the capital underground space works as follows. The construction of the wall is carried out in 8 stages:

1) development of a pit with the dimensions indicated in FIG. 4, under one inventory formwork. It is developed at a distance l _total from the previous foundation pit. During development, it is filled with a bentonite suspension;

2) installation of two support pipes 1 with upper 5 and lower 6 restrictive elements and fixing the distance between them using rigid connecting elements. Pipes and restrictive elements are lubricated with special grease to eliminate adhesion to concrete;

3) installation of a metal frame 2;

4) concreting the area of the metal frame 2. In this case, the inner formwork board 4, which consists of a metal sheet, which later plays the role of waterproofing, does not allow the flow of concrete, and the external formwork board 3, which consists of a frequent mesh, does not allow soil to enter the inside frame 2. Provide a stand to achieve concrete strength of 100 kg / cm ² ;

5) removal of the support pipes 1. In this case, the upper restrictive element (elements 5 with element 7) is removed, and the lower restrictive element (elements 6 and 7) remains. Mixing slurry with cement milk with setting accelerator. Exposure to a strength of 20 kg / cm ² ;

6) the development of an intermediate sunset for the connecting element between the two primary guides (Fig. 5);

7) installation of a metal frame 8 (Fig. 5);

8) concreting the volume inside the metal frame 8 (Fig. 6).

This ends the cycle. The next cycle begins again with the development of a foundation pit for inventory formwork at a distance l _total (Fig. 4) from the center of the already concreted inventory formwork.

The dimensions of the pits are determined by the following relationships (Fig. 4, 5, 6):

b _boiler = b _side + 2δ _ogre , m,

where δ _ogre - the gap between the support pipe 1 and the wall of the pit, m. It is determined from experimental data;

d _article - the distance between the wall of the pit and the surface of the wall in the ground, m

Salient features:

1) support pipes 1, since this is the main determining element;

2) rigid restrictive elements 5 and 6 - they fix the distance between the pipes 1 and thereby provide a technical result - improving the accuracy of wall installation;

3) a metal frame 2 between the pipes 1, "donning" on the restrictive protrusions 11, provides the location of the longitudinal axes of both pipes 1 in the same plane;

4) the inner formwork sheet 4, joining after concreting the elementary section of the wall with the inner formwork sheet 10 of the connecting element, provides the main thing in this technical solution - continuous metal waterproofing. The whole structure and the technology of its construction are designed so that the panels 4 and 10 are located in the same plane, and the joint remains to be welded.

All four essential features are necessary and sufficient to ensure the claimed technical result.

The effectiveness of the proposed technical solution is determined by increasing the accuracy of the installation, which increases the reliability of waterproofing and reduces labor and material costs. The accuracy of the installation is achieved by using a system of rigid components connected with the use of clamps. Inventory formwork is rigid, metal frames 2 and 8 are rigid (they are entirely manufactured separately at the landfill). The latches 11 provide alignment of the individual parts. As a result, metal sheets 4 and 10 are precisely joined, providing reliable waterproofing.

Claims (2)

1. Inventory formwork for constructing a wall in the ground enclosing the capital underground room, containing vertically oriented support pipes located at a distance from each other and a frame placed between them with an internal formwork located on the side of the capital underground room and an external formwork shields, characterized in that it is made of two support pipes located at a fixed distance "b" between their centers, a metal frame with formwork shields, size between them, the upper and lower restrictive elements, located respectively in the upper and lower parts of the support pipes near their ends, while the upper and lower restrictive elements are made of two pipes enclosing the support pipes, and rigid connecting elements located on the sides of the pipes and rigidly attached to them, the metal frame is made in the form of a rigid end-to-end structure with a height equal to the height of the support pipes and a width of "c" together with shuttering boards, and the end parts of the frame according to The planes are inscribed in plan into a concave surface enveloping the support pipe, while along the entire height of the support pipe from the side of the metal frame there are restrictive protrusions of the same cross section along the center, the inner formwork panel being made in the form of a metal sheet, the main dimensions being connected the following relationships: c = d · cosα, m; l _b = bd · sinα + 2δ, m; l _bts = bd-2δ, m; b _side = b + d, m, where c is the total width of the side and central metal frames, taking into account the formwork panels, m; d is the outer diameter of the support pipes, m; α is the angle defining the difference “b”, “l _b ” and “c”, degrees, α <20 °; l _b - the total length of the side metal frame, m; l _bts is the length of the side metal frame along the longitudinal axis, m; b is the distance between the centers of the support pipes, m; δ is the gap between the side metal frame and the support pipes, m; b _side - the total length of the lateral sub-set; 2. Inventory formwork according to claim 1, characterized in that

d = 1,0, m.

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