RU2758826C1 - Method for strengthening structure of metal chimneys - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the field of construction, in particular to methods for strengthening the structure of metal chimneys, more precisely to methods for strengthening metal chimneys of gas-pumping units of compressor shops and can be used to strengthen load-bearing metal structures for various purposes. The effect in the method for strengthening the structure of metal chimneys, including the installation and fastening of support posts on the outer side of the pipe along its perimeter, is achieved by the fact that the support posts are installed and fixed along the pipe perimeter on the inner side of the pipe, and the support posts on the inner side are installed through one in relation to the support legs fixed on the outside of the pipe, the support posts on the outside are fixed to each other along their entire length by means of metal elements with a distance of 250 to 500 mm, and the support posts on the outside are additionally fixed to the lower base of the pipe using stiffeners, and the stiffeners themselves are fixed on a metal plate, which, in turn, is fixed to the metal sheet of the lower base of the pipe and is additionally fixed to the reinforced concrete foundation of the pipe by means of an anchor.

EFFECT: increasing the reliability of strengthening the pipe structure.

1 cl, 6 dwg

Description

The invention relates to the field of construction, in particular to methods of strengthening the structure of metal chimneys, more precisely to methods of strengthening metal chimneys of gas pumping units of compressor shops and can be used to strengthen load-bearing metal structures for various purposes.

There is a known method of strengthening and repairing a reinforced concrete chimney using a reinforcing reinforced concrete holder (sleeve) installed on the damaged inner or outer surface of the pipe barrel, and including preliminary cleaning of the surface from destroyed concrete and traces of corrosion. The damaged and pre-cleaned surface of the pipe barrel is alternately and in separate sections covered with synthetic resin with reinforcing heat-resistant fibers, and reinforcing heat-resistant fibers are also included in the concrete composition, while the concrete is compacted before the resin hardens by vibration pressing, and the outer surface of the cage is formed by the retained formwork, which is fixed. synthetic resin with heat-resistant fibers and bolts, which are pre-fixed in the concrete of the pipe barrel [patent of the Russian Federation No. 2443838, IPC E04H 12/28, authors Bely A.G. and others, publ. 27.02.2012, bul. No. 6].

The disadvantage of this method is that the use of a reinforced concrete cage (sleeve) does not eliminate the problem of the impact of aggressive gases flowing along the inner pipe barrel on the bearing reinforced concrete or brick pipe barrel from the inside. Gases continue to affect the bearing shell (trunk) of the pipe, causing its intense destruction and additional heating, as a result of which temperature stresses increase in it, which increases the overall loading of the bearing shell and accelerates its wear. Through burnout is possible. All this leads to a significant reduction in the service life of the chimney. When installing the holder, a decrease in the performance of the unit is required in order to reduce the volume and reduce the temperature of the gases passing through the pipe during repairs, and in some cases stop the unit if burnout occurs. All this leads to a loss in the performance of an object or unit. In addition, the installation of the liner on the supporting shaft significantly increases the mass of the entire structure of the chimney, increases the load on the existing foundation, bearing the shaft and walls of the chimney within the boundaries of the chimney construct, which is also a disadvantage of the known method.

A known method for reinforcing chimney reinforced concrete pipes using a metal structure covering the damaged section of the pipe. Along the perimeter of the pipe, in places of thickening of the pipe section, annular recesses are cut into which support rings are installed and tightened with bolts, between the lower and upper rings around the pipe around the entire perimeter, spacer racks with hydraulic or thermal jacks and spacer racks with screw jacks are mounted, while racks alternate through one [patent of the Russian Federation No. 2385400, IPC E04H 12/28, authors Bely G.I. and others, publ. 27.03.2010, bul. No. 9].

The disadvantage of this method is that the support rings with the racks with jacks mounted between them remove the load from the local section of the pipe body, while creating stress concentrators in the places of their installation, since the reinforced concrete pipe barrel is cut through. Also, the transfer of loads from the upper part of the pipe barrel is transmitted to the foundation through the lower support ring, which leads to local destruction of the concrete under it, thereby reducing the durability and reliability of the pipe structure. In addition, when using the known method, there is no actual strengthening of the reinforced concrete walls of the pipe, only local stress relief of the damaged section of the pipe takes place, and the structure to be mounted can be attributed to temporary emergency protection structures.

It should also be noted that these methods are not applicable to reinforcing the structure of metal chimneys.

A known method of reinforcing the metal barrel and the base of the metal chimney, selected by the applicant as a prototype, using a profile (angle, channel), which are actually support posts, including reinforcing the shell of the pipe side racks, in which the support posts are evenly placed around the entire perimeter outside the pipe [ RD 153-34.0-21.524-98 "Typical instructions for the operation of metal chimneys of power companies", approved. Department of Development Strategy and Scientific and Technical Policy of RAO "UES of Russia" on June 30, 1998, effective from September 1, 1999, tab. 2 p. 22, fig. 10-11 p. 24-25].

The disadvantage of the prototype is that the support legs are fixed to the base of the pipe only from the outside, and they are not rigidly connected to each other, which reduces the rigidity of the structure and, therefore, reduces the durability and reliability of the pipe structure.

The technical problem of the present invention is the creation of a method for strengthening the structure of metal chimneys, the implementation of which increases the reliability of strengthening the structure of the pipe.

The technical result in the proposed method consists in increasing the reliability of the reinforcement of the pipe structure.

The technical result in the method of strengthening the structure of metal chimneys, including the installation and fastening of support posts on the outer side of the pipe along its perimeter, is achieved by the fact that the support posts are installed and fixed along the pipe perimeter on the inner side of the pipe, and the support posts on the inner side are installed through one in relation to the support posts fixed on the outside of the pipe, while the support posts on the outside are fixed to each other along their entire length by means of metal elements with a distance of 250 to 500 mm, and the support posts on the outside are additionally fixed to the lower base pipes with the help of stiffeners, and the stiffeners themselves are fixed to a metal plate, which in turn is fixed to the metal sheet of the lower base of the pipe and additionally fixed to the reinforced concrete foundation of the pipe by means of an anchor.

The invention is illustrated in FIG. 1–6, in Fig. 1 shows a general view of a metal chimney with a structural reinforcement unit, FIG. 2 shows an enlarged fragment of the structure reinforcement assembly, FIG. 3 is a view of the reinforcement assembly of the chimney structure in section a-a, FIG. 4 is a view of the reinforcement assembly of the chimney structure in section b-b, in Fig. 5 - enlarged fragment of section a-a, in Fig. 6 - enlarged fragment of section b-b.

In figures 1–6, the numbers indicate: 1 - metal chimney, 2 - lower base of the chimney, 3 ₁ - support posts on the outside of the chimney, 3 ₂ - support posts on the inside of the chimney, 4 - metal elements, 5 - stiffeners, 6 - metal plate, 7 - anchor.

FIG. 1 shows a chimney 1 with installed and fixed on the outside of the chimney 1 support legs 3 ₁ and on the inside of the chimney 1 with support legs 3 ₂ (not shown in Fig. 1). The support legs 3 ₁ and 3 ₂ are, for example, channels made of steel, for example.

FIG. 2 shows an enlarged fragment of a structural reinforcement unit with support posts 3 ₁ fixed on the outside of the chimney 1, and the support posts 3 _{1 are} fixed to each other along their entire length by means of metal elements 4, for example, strips or corners, made, for example, of steel, with a distance ranging from 250 to 500 mm. The specified distance is determined by calculation when determining the required rigidity of the structure. To increase the reliability of the reinforcement of the structure, the support posts 3 _{1 are} fixed to the lower base 2 of the chimney 1 by means of stiffening ribs 5, made, for example, of steel. Stiffeners 5 are fixed to the metal plate 6 (shown in Fig. 5), which in turn is fixed to the metal sheet of the lower base 2 of the chimney 1 and additionally fixed to the reinforced concrete foundation of the pipe 1 by means of the anchor 7 (shown in Fig. 5).

FIG. 3.4 shows sectional views of the structural reinforcement assembly, where the support pillars 3 fixed on the inner side of the chimney 1₂ installed through one in relation to the support posts 3₁, fixed on the outside of the pipe 1 to increase the rigidity of the reinforcement of the structure.

Consider the implementation of the proposed method for strengthening the structure of metal chimneys.

On the outer and inner sides of the metal chimney 1 along its entire perimeter, support posts 3 ₁ and 3 ₂ are installed and fixed to the pipe, respectively. To increase the rigidity of the reinforcement of the structure on the inner side of the chimney 1, the support posts 3 ₂ are installed through one in relation to the support posts 3 ₁ , fixed on the outside of the chimney 1. Also, an increase in the strength of the structure is provided due to the fact that on the outside of the chimney 1 support the posts 3 _{1 are} fixed to each other along their entire length by means of metal elements 4, for example, strips or corners, made, for example, of steel, with a distance ranging from 250 to 500 mm.

To increase the reliability of the reinforcement of the structure, the support posts 3 _{1 are} additionally fixed to the lower base 2 of the metal chimney 1 with the help of stiffeners 5, while the stiffeners 5 are fixed to the metal plate 6, which in turn is fixed to the metal sheet of the lower base 2 of the chimney 1 and additionally secured to the reinforced concrete foundation of the pipe 1 by means of the anchor 7.

Thus, the technical problem has been solved and the technical result has been achieved.

In the example of a specific implementation, the technical condition of the metal chimney of the gas compressor unit No. 4 of the compressor shop Urengoy - Center 1 of the Shemordan linear production department of main gas pipelines of Gazprom Transgaz Kazan was examined. During the survey, it was found that the total roll of the chimney is 200 mm, which exceeds the maximum permissible value. Also, during the examination of the metal structures of the pipe, 10 zones of plastic deformation of the lower segment of the pipe were found, caused by the deviation of the pipe from the vertical. Thanks to the implementation of the proposed method, the structures of the said chimney were strengthened without taking the object out of operation, its further destruction was prevented and further safe operation was ensured.

Claims (1)

A method of strengthening the structure of metal chimneys, including the installation and fastening of support posts on the outer side of the pipe along its perimeter, characterized in that the support posts are installed and fixed along the pipe perimeter on the inner side of the pipe, and the support posts on the inner side are installed through one with respect to support posts fixed on the outside of the pipe, while the support posts on the outside are fixed to each other along their entire length by means of metal elements with a distance of 250 to 500 mm, and the support posts on the outside are additionally fixed to the lower base of the pipe using stiffeners, and the stiffeners themselves are fixed to a metal plate, which in turn is fixed to the metal sheet of the lower base of the pipe and additionally fixed to the reinforced concrete foundation of the pipe by means of an anchor.

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