RU117956U1 - DEVICE FOR STRENGTHENING THE COLUMN AND MOUNTED PANELS OF THE WALL - Google Patents

Abstract

1. A device for reinforcing the column and curtain wall panels, which includes thrust elements of the supporting frame, a stress strut and a tension unit, characterized in that the supporting frame of the column reinforcement device and curtain wall panels consists of two branches of the frame of the stress spacer and a pair of non-stress corner rods; the thrust elements of the reinforced column are made in the form of thrust columns of the column, articulated with the longitudinal reinforcement of the column, as well as the support table of the stress-strain strut; the support table is made of a piece of bent steel angle or rolled angle steel, reinforced with stiffeners, equipped with holes for installing the load screws of the tension unit; the skeleton of the prestressing strut of the composite frame is made of two branches connected by strips and transverse reinforcement in the form of a reinforcing mesh "zigzag" along the length of the branches; a tension unit installed between the top of the support table and the upper stop table includes cargo screws with tension nuts; transverse reinforcement on the lateral edges of the column is made in the form of reinforcing meshes "zigzag" articulated with the corner elements of the reinforcement device; Reinforcing elements for securing the curtain wall panels to the column include corner brackets, panel overlays and mounting tie bolts. ! 2. The device according to claim 1, characterized in that the prestressing spacer is installed between the support table attached to the top of the frame branches and the column stop table attached from the bottom of the frame branches to the bars of the column longitudinal reinforcement. ! 3. The device according to claim 1, characterized in that the cross-sectional area of the branches of the frame of the prestressing strut pr

Description

The utility model relates to construction and can be used to strengthen the supporting structures of operating buildings, more specifically, when reinforcing reinforced concrete columns and wall panels that are severely damaged by fire in a fire or technological accident.

Severe thermal damage to the column and curtain panels include the detachment of destructive concrete to a depth of 40-80 mm or more, buckling of reinforcing bars, the appearance of residual thermal tensile stresses (up to 10,000 N / cm ² ) in the working reinforcement of the column. Damage to wall mounted panels is characterized by the destruction of concrete in cross section; significant weakening of wall panel mounts is possible. With severe damage to the wall mounted panels, there is a danger of their destruction. In some cases, it is advisable to repair damaged reinforced concrete walls and curtain wall panels without dismantling them, completely or partially unloading the columns.

A device is known for recovering compressed elements (columns) with additional stressed metal profile elements / cm. Onufriev N.M. Reinforcement of reinforced concrete structures of industrial buildings and structures. L.-M.: Stroyizdat, 1965; ch. VIII: Prestressed reinforcement struts. - S.241-247. / [1]. The reasons that impede the achievement of the technical result indicated below when using the known restoration device include the fact that in the known device Prestressed struts increase the bearing capacity of only the columns, therefore, it is impossible to ensure the proper reinforcement of damaged wall mounted panels; with inaccurate manufacture of prestressed struts along their length, in the known device it is impossible to reliably incorporate them into joint work with a reinforced column, therefore, the accuracy of controlling the degree of unloading of the junction of the crossbar and the column is reduced; the cross-section of the strut branches is taken constructively, with a large overspending of the metal for reinforcement, therefore, in the manufacture of the known device, the metal consumption and the complexity are increased; in a known device, when using metal without structural fire protection, the actual fire resistance of the reinforcing elements in particular and the column as a whole is reduced.

A device is known for reinforcing a column, including a prestressed metal clip, in the upper part of which a tensioning unit is fixed, a clip of 4 rolling corners connected in pairs by connecting strips in two branches, which are crimped in the longitudinal direction by a spacer device; / A.s. SU No. 607932, class 2 E04G 23/02. The way to strengthen the columns. / V.V.Guselnikov. Publ. 05/25/78. Bull. No. 19 / [2]. The reasons that impede the achievement of the technical result indicated below when using the known device for strengthening the columns and wall mounted wall panels include the fact that the known device uses a bulky, metal-intensive clip from rolling corners; the efficiency of the known amplification device is reduced due to the fact that the load screw of the tension unit has a hinge at both ends, while the coefficient of the reduced length of the load screw is very significant; the supporting platform for the crossbar is significantly removed from the strut branch, therefore, a bending moment additionally arises, acting on this strut branch and the supporting table, the overall dimensions of the head section of the reinforced column are increased; in the known device, when using metal without structural fire protection, the actual fire resistance of the reinforcing elements in particular and the column as a whole is reduced.

A device is known for reinforcing a column, including a metal cage made of angles mounted along the sides of the column, equipped with tensioning nodes, each of which consists of support elements and a tension screw, while the metal cage is made in the height of the composite, and the supporting elements are fixed at the abutting ends constituent parts of the clip / A.s. SU No. 916722, cl. 3 E04G 23/02. Device for strengthening columns / M.D. Boyko. Publ. 04/05/82. Bull. No. 12 / [3]. For reasons that impede the achievement of the technical result indicated below, when using the known column amplification device, the known device consumes a significant amount of metal in its manufacture, which is not used effectively to strengthen the column, the support nodes of the known device at the bottom and at the top of the column do not have rigid fixing , the components of the branches of the cage are connected by a tension screw characterizing their articulated abutment, in the known device, the location of the tension screws is not in the center the severity of the cross-section of the corner of the cage leads to bending moment from the spacer force acting on the tensioned branches of the components of the cage; when using metal for a known amplification device without structural fire protection, the actual fire resistance of the amplification elements and columns is reduced.

The closest technical solution to a utility model for the totality of features is a device for strengthening the column, including a thrust element, a tensioned spacer and a tension unit; wherein the thrust element is made in the form of a supporting table and a thrust shoe of a prestressed spacer, the skeleton of which is made of two branches, the tension unit is made using cargo screws and tension nuts. When reinforcing a loaded column damaged on one side, the support table and the tension strut are installed on the same side (face) of the column. When reinforcing a loaded column damaged from two or three sides, supporting tables and tension struts are installed from two opposite sides. The supporting tables are made of pieces of steel corner or channel. The bearing branches of the prestressed strut are made of angular steel or a steel pipe of rectangular or circular cross section. Each cargo screw is placed at the center of gravity of the cross section of the core branch and is rigidly attached to the prestressed strut. After the prestressing strut has been put into operation, the lower strut support plate and the top of the support table are connected by a metal plate or a corner piece. The metal elements of the spacer device are subjected to firing by burners and are coated with a layer of concrete, the thickness of which is adopted depending on the required fire resistance of the column on the basis of loss of bearing capacity. / Patent 2 038 581 RU, IPC E04G 23/00 (2006.01) A device for strengthening columns and their heads. / N.A. Ilyin. Publ. 10.20.2007. Bull.№29 / [4] - taken as a prototype.

For reasons preceding the achievement of the technical result indicated below, when using the known amplification device adopted for the prototype, there is a significant mass of metal diverging in the known device for its manufacture, which is not effectively used to strengthen the columns and wall mounted panels; a persistent table located at the bottom of the column does not directly reduce thermal stresses in the rods of the longitudinal reinforcement of the column; in the manufacture of reinforcing cages for a column reinforcement device, the transverse reinforcement (clamps and bends) is first cut, then each piece of the rod is welded to the corner rods of the reinforcement device and to the branches of the skeleton of the tensioned strut; therefore, the volumes of cutting of the transverse reinforcement of flat frames are large, a large number of welded intersections of the reinforcement with the angular rods of the reinforcement device, the laboriousness and expense of metal when cutting the transverse reinforcement are significant.

The essence of the utility model is as follows. The problem to which the claimed utility model is directed is to increase the reliability and safety of the state of the reinforced columns and wall panels that have received severe thermal damage, to reduce the consumption of steel and material costs due to the rational use of the elements of the reinforcement device.

EFFECT: rational and effective reinforcement of damaged columns and wall mounted wall panels, reliable inclusion in the joint work of a tensioned strut with control of prestresses in it, rigid connection of the cargo screw with the supporting branch of the strut, halving the coefficient of the reduced screw length when calculating its strength and stability as a compressed element, simplifying the design of the transmission “cargo screw - thrust nut" of the proposed tension unit in the design and manufacture of it, increasing reliability awnings in work, getting a big gain in strength, ensuring silent, slow and smooth movements with great accuracy, placing cargo screws in the center of gravity of the cross-sections of the corners of the struts, improving the work of the tensioned branches of the struts during compression, increasing the degree of control of the unloading of the reinforced column and its head strained spacers, reducing the consumption of metal for the manufacture of amplification devices and gaining the ability to effectively use metal when reinforcing columns and wall mounted panels, providing fire protection cross section of metal elements of the amplification device; simplification of the manufacture of clamps and bends of the flat reinforcing cage of the column reinforcement device, increasing the stiffness and unchanged shape of the flat frame; increasing the reliability of anchoring of clamps and bends of the transverse reinforcement of the frame; increasing the adhesion to concrete rods of the transverse zigzag reinforcement, reducing the cutting volume of the transverse reinforcement of the frame, reducing the number of simultaneously welded intersections; reducing the complexity in the manufacture of transverse reinforcement in the form of zigzags and assembling it into a reinforcing cage; reduction of reinforcing steel consumption during cutting of clamps and bends; improving the quality of manufacturing flat reinforcing cages; reduction in welding work; energy and steel savings; the possibility of mechanization of reinforcing work and the centralized manufacture of zigzag transverse reinforcement.

The specified technical result in the implementation of the utility model is achieved by the fact that in the known device for reinforcing columns and wall mounted panels, including thrust elements of the supporting frame, a tensioned strut and tension unit, the feature is that the supporting frame of the column reinforcing device and wall mounted panels consists of two branches of the skeleton of a prestressed strut and a pair of non-stressed angular rods; thrust elements of the reinforced column are made in the form of thrust columns of the column articulated with the longitudinal reinforcement of the column, as well as the supporting table of the tensioned strut; the supporting table is made of a section of a bent steel corner or rolled angle steel, reinforced with stiffeners, equipped with holes for installing the load screws of the tension unit; the skeleton of the prestressed spacer of the composite frame is made of two branches connected by trims and transverse reinforcement in the form of a zigzag reinforcement mesh along the length of the branches; a tension unit installed between the top of the support table and the upper stop table, includes cargo screws with tension nuts; the transverse reinforcement on the side faces of the column is made in the form of a zigzag reinforcing mesh articulated with the corner elements of the reinforcement device; reinforcing elements for attaching wall-mounted wall panels to the column include angled corner rods, panel covers, and mounting tie bolts.

A tension strut is installed between the supporting table attached on top of the branches of the core and the resistant table of the column attached on the bottom of the branches of the core to the rods of the longitudinal reinforcement of the column. The cross-sectional area of the branches of the skeleton of the tensioned strut is adopted taking into account the perception of the magnitude of the residual thermal stresses in the rods of the longitudinal reinforcement of the column. The branches of the skeleton of the tensioned strut, working in compression, are made of steel unequal corners of reinforced cross-section, with a larger thickness of the shelves according to assortment. The connection of the branches of the skeleton of the tensioned strut is made in the form of strips - elements of thrust tables from the segments of the rolled steel - at the ends of the branches of the strut and transverse zigzag reinforcement along the length of the tensioned strut. Composite reinforcement cages of the column are made of steel corner elements and zigzag rods of transverse reinforcement with a diameter of ⌀ 6 ÷ 16 mm of classes A 240 (AI), A 300 (A-II) or A 400 (A-III) in the form of horizontal and inclined branches, located at an angle θ = (45 ± 15) degrees to the longitudinal axis of the column. The reinforcement of the column was carried out with the unloading of its thermal stresses in the longitudinal reinforcement.

The angular corner rods of the amplification device are installed in the abutment angles of the column with the hinged wall panels with the lug inside the cross section and the shelves outside the reinforced column.

Hinged wall panels are connected by coupling bolts to corner corner rods of the supporting reinforcement cage of the column.

The persistent tables of the column and the supporting table of the tensioned strut, working on a longitudinal bend, are made of steel equal-angled corners with a smaller thickness of the shelves in the assortment.

Compression and bending angular corner rods are made of steel unequal corners with a smaller thickness of shelves according to assortment.

The dimensions of the cross section of the supporting table reinforced with a stiffener are taken from the results of checking the stability of the small and large shelves working for compression and bending.

The surfaces of the thrust tables subjected to firing by the burner are recessed “into the juice” of a plastic cement-sand mortar with a composition of 1: 3 with squeezing.

The height of the weld connecting the elements of the reinforcement device is accepted as calculated for shear and bending, but not less than 6 mm.

After introducing the prestressing spacer into operation, the supporting table and the upper supporting table of the column are tightly connected with metal plates or corner pieces by applying welds.

In the additionally laid concrete of the column head, indirect reinforcement is installed in the form of nets or separate U-shaped crossed steel brackets with a given section of 25 ÷ 30% of the cross-sectional area of the longitudinal reinforcement of the column.

The load screws of the tensioning unit are removable, reusable, removed after putting into operation a prestressed strut and tightly connecting plates between the thrust table of the column and the supporting tables of the prestressed strut.

The load screws of the tension unit are made of permanent, single-use, remaining in reinforced concrete reinforced columns.

The drawings show:

figure 1 ÷ 3 shows a device for strengthening the columns and wall mounted panels: longitudinal sections aa and bb (figures 1 and 2) and a cross section bb (figure 3):

1 - reinforced column; 2 - longitudinal rods of column reinforcement;

3 - thermally stressed rods of the longitudinal reinforcement of the column;

4 - cargo screws of the tension unit; 5 - branches of the prestressed strut;

6 - angular corner rods of the amplification device; 7 - composite skeletons of the core reinforcement of the column; 8 - lower thrust table;

9 - wall mounted panels; 10 - mounting coupling bolts of the panels;

11 - coating beam;

figure 4 ÷ 6 shows the cross-section of the reinforced columns at the level of the upper thrust table (section G-D; figure 4), at the level of the supporting table (section DD; figure 5) and at the level of the lower thrust table (section E -E; Fig.6); (designations of elements 1-3, 5-9 see the description to figures 1-3):

12 - upper persistent table; 13 - supporting table;

14 - a destructive layer of concrete; 15 - welds;

7 ÷ 10 depicts the fastening schemes of the supporting table 13 and thrust tables on the rods of the longitudinal reinforcement of the reinforced column (designation of elements 3, 5, 8, 12, 13, 15, see the description of figures 1-3 and 4-6);

Figures 11 and 12 show the tension unit of the amplification device, a longitudinal section A-A (Fig. 7) and a transverse section B-B (Fig. 8) (designation of elements 3 and 4, see description of Figs. 1-3; element 15 to figure 4-6):

16 - skeleton of the persistent table of the column; 17 - a collar of the cargo screw;

18 - persistent nut; 19 - skeleton of the supporting table;

20 - through holes for the cargo screw;

21 - a corner element of a prestressed strut;

22 - stiffener plate; 23 - stiffener;

24 - a lock-nut; 25 - spring washer;

26 - a connecting level, a piece of a corner (shown by a dotted line);

13 and 14 depict reinforcing mesh "zigzag" of composite frames KRS-1 and KRS-2 for a prestressed strut:

27 - rods of the zigzag reinforcing mesh of the composite frame KRS-1;

28 - rods of reinforcing mesh "zigzag" composite frame KRS-2;

31 - place knitting reinforcing wire;

on Fig and 16 shows the skeleton of a prestressed strut equipped with connecting strips and reinforcing mesh "zigzag" of the composite frame KRS-1 from a bent rod: a longitudinal section aa (Fig.11); cross section BB (Fig):

5 - branches of the prestressed strut;

7 - composite skeletons of the core reinforcement of the column; 15 - welds;

26 - a connecting level, a piece of a corner (shown by a dotted line);

27 - rods of the zigzag reinforcing mesh of the composite frame KRS-1.

on Fig and 18 shows the composite frames KRS-3 and KRS-4 for the side faces of the reinforced columns (designation of elements 5 and 6, see the description of figures 1-3; element 15 to figure 4-6) ::

29 - bars of the reinforcing mesh - “zigzag” of the composite frame KRS-3 with transverse rods, strained by means of their ties;

30 - rods of reinforcing mesh "zigzag" composite frame KRS-4;

31 - place knitting reinforcing wire; 32 - coupling nuts;

33 - backing pads for contractible rods of transverse reinforcement;

34 - the position of the horizontal rods of the transverse reinforcement after their ties; 35 - mounting welds; 36 - a coupling bolt clamp;

37 - bar-washer of the coupling bolt-clamp;

38 - components of the tie rod;

39 - shrink disk; 40 - a protective layer of concrete (optionally laid).

B is the width of the composite frame; b is the width of the zigzag reinforcement mesh; u, u _i - step of the transverse rods; d is the diameter of the rod; l ₀ is the length of the spacer frame; s, s _i - the length of the legs.

Information confirming the possibility of carrying out the invention with obtaining the above technical result.

An example of a specific implementation. The reinforced concrete column of a one-story single-span warehouse building with a height of H = 7.2 m is made in the form of a continuous square section B × C = 400 × 400 mm equipped with wall mounted panels; heavy concrete of class B 30, longitudinal reinforcement made of steel of class A 400 (A-III), - 8⌀22 mm; reinforcement depth a = 40 mm, protective layer thickness u = 30 mm; the thickness of the destructive layer of concrete δ = (35 ÷ 45) mm; severe thermal damage to concrete was found in a section 2.6 m long from the head on three heated faces of the column; thermal tensile stresses of the order of (9000 ± 1000) H / cm ² have angular rods of longitudinal reinforcement located on the front surface of the column.

The column reinforcing device comprises thrust elements — a lower thrust table 8 and a core of the thrust table of the column 8 and 16, branches of the tension strut 5, composite frames and a tension unit; reinforcing elements for attaching wall mounted panels to the column include angular corner rods of the reinforcing device, panel overlays, and mounting bolts for panels 10. The backbones of the thrust tables and the supporting table of the reinforced column 1 are made of a corner piece with dimensions h × b × s = 75 × 75 × 6 mm, length l = B-2 · u = 400-2 · 30 = 340 mm. To increase the rigidity of the skeleton of the thrust and support tables of the tension unit, stiffeners 22 with a thickness of 30 mm are additionally installed on the corners. In the skeletons of the thrust and support tables and their stiffening plates 22 for passing the ends of the cargo screw with a diameter of d = 20 mm, through holes are drilled with a diameter of d _o = 21 mm or oval grooves are cut with a width of b _o = d _o = 21 mm and a length of e _o = b + 0.5 · de = 75 + 0.5 · 20-45 = 40 mm.

The branches of the skeleton of the tensioned strut are made of segments of an unequal corner of the rolling profile of size B × b × 8 = 75 × 50 × 6 mm and have end connecting strips of size l × b × s = 360 × 80 × 6 mm and transverse reinforcement in the form of a reinforcing mesh zigzag ”of the composite frame KRS-1 or KRS-2.

Bent rods of reinforcing nets are made of reinforcement of class A 240 (AI) with a diameter of d = 8 mm with a pitch of u = 300 mm, or of class A300 (A-II), d = 6 mm, with a step of u = 250 mm. The load screw of the tension unit 4 is made with a shoulder, the screw diameter d = 20 mm, the screw length 260 mm, the length of the metric thread M20 at both ends of the screw b ₁ = 50 mm, b ₂ = 150 mm.

The load screw of the tension unit 4 is equipped with a hexagonal lock nut 24 with a height of m = 16 mm and a spring washer 25 for a screw with a hole diameter d ₁ = 20.5 mm and a thickness s = 4 mm from the upper end; from the lower end, the load screw of the tension unit 4 is equipped with two thrust nuts 18 with a height of m = 20 mm, a thread diameter M20 and a hexagonal lock nut 24 with a height of m = 16 mm and two spring washers 25 (for a screw d ₁ = 20.5 mm) with a thickness s = 4 mm.

Introduction to the work of the details of the column reinforcement device and wall mounted wall panels is as follows. During the technical inspection of the column and wall mounted panels, beaten with a metal hammer a destructive layer of concrete (t _b ≥550 ° C), sections of the reinforced column 1 with severe damage and residual thermal stresses in the longitudinal reinforcement after the fire (t _s ≥500 ° C) are established .

Previously, in the machine shop, the skeleton of the supporting and stopping tables, cargo screws of the tensioning unit 4, thrust nuts 18, locknuts 24 and spring washers 25, stiffeners 22 and stiffeners 23, connecting plates 26, zigzag reinforcing nets, angled elements spacers 21, corner angular rods of the reinforcing device 6, shrink discs 39 and clamp bolts 36, mounting clamp bolts of panels 10 for wall mounted wall panels 9.

First, the lower and upper thrust tables are attached to the reinforced column 1 on the thermally stressed rods of the longitudinal reinforcement of the column 3 using a weld 15. Then the angular corner rods of the reinforcement device 6 and the core of the tensile strut are mounted, onto which the transverse reinforcement in the form of “zigzag” reinforcing mesh is attached front and side surfaces of the reinforced column 1.

Then, stiffening plates 22 are attached to the skeletons of the supporting and persistent tables; cargo screws of the tensioning unit 4 are equipped with thrust nuts 18, locknuts 24, spring washers 25 and the cargo screws of the tensioning unit 4 are installed in place in the tensioning unit. By simultaneously tightening the thrust nuts 18 of the cargo screws of the tensioning unit 4 with a predetermined (controlled) force, the longitudinal reinforcement is unloaded from thermal stresses, while increasing the load-bearing capacity of the reinforced column 1. After introducing the branches of the skeleton of the tensioned strut into operation, the stiffening plate 22 of the upper thrust and support the tables are connected tightly by pieces of corner or connecting strips 26 using welds 15. The metal elements of the reinforcement device have a fire retardant coating 40 - a layer of heavy b for compressive strength is taken equal to the concrete class of the reinforced column, but not less than B 15.

Using the proposed device reinforcing columns and wall mounted wall panels eliminate severe damage without dismantling or preliminary unloading of the supporting structure, making full use of the residual strength of the materials during its further operation.

The proposed device allows you to rationally and efficiently strengthen heavily damaged columns due to the reliable inclusion in the joint work of a tensioned strut with control of prestresses.

A rigid connection of the cargo screw with the supporting branch of the spacer halves the coefficient of the reduced length of the screw when calculating the strength and stability of it as a compressed element. The proposed device simplifies the design of the transmission “cargo screw - thrust nut" of the tension unit when designing and manufacturing it, increasing reliability, gain in strength and providing silent, slow and smooth movement of the tensioned struts with great accuracy. Placing cargo screws in the center of gravity of the cross-sections of the corners of the struts improves the work of the tensioned branches of the struts during compression.

The proposed device allows to increase the degree of control of the unloading of the reinforced column by tension struts, to reduce by 2-3 times the metal consumption for its manufacture and to provide the required fire protection of the metal elements of the amplification device.

The proposed device is used in industry for reinforcing the extreme columns and wall panels of a building wall.

The column with severe thermal damage to the upper part was located at the border between the partially operational and emergency state. The material of the elements of the amplification device is steel grade St.3 class 2-1. The design load on the column is 505 kN (50.5 tf).

Strengthening reinforced concrete columns and expanded clay concrete curtain wall panels were carried out without stopping the process in an industrial building (Samara, 2010).

Information sources

1. Onufriev, N.M. Reinforcement of reinforced concrete structures of industrial buildings and structures. L.-M.: Stroyizdat, 1965; chap. VIII: Prestressed reinforcement braces. - S.241-247.

2. A.S. SU 607932, class 2 E04G 23/02. The way to strengthen the columns. / V.V.Guselnikov. Publ. 05/25/78. Bull. No. 19.

3. A.S. SU 916722, class 3 E04G 23/02. Device for strengthening columns / M.D. Boyko. Publ. 04/05/82. Bull. No. 12.

4. Patent 2038581 RU, IPC E04G 23/00 A device for strengthening columns and their heads. / N.A. Ilyin. Publ. 10.20.2007. Bull. Number 29

Claims (18)

1. A device for reinforcing columns and wall mounted wall panels, including thrust elements of the supporting frame, a tensioned strut and a tension unit, characterized in that the supporting frame of the column strengthening device and wall mounted wall panels consists of two branches of the skeleton of the tensioned strut and a pair of non-tensioned corner rods; thrust elements of the reinforced column are made in the form of thrust columns of the column articulated with the longitudinal reinforcement of the column, as well as the supporting table of the tensioned strut; the supporting table is made of a section of a bent steel corner or rolled angle steel, reinforced with stiffeners, equipped with holes for installing the load screws of the tension unit; the skeleton of the prestressed spacer of the composite frame is made of two branches connected by trims and transverse reinforcement in the form of a zigzag reinforcement mesh along the length of the branches; a tension unit installed between the top of the support table and the upper stop table, includes cargo screws with tension nuts; the transverse reinforcement on the side faces of the column is made in the form of a zigzag reinforcing mesh articulated with the corner elements of the reinforcement device; reinforcing elements for attaching wall-mounted wall panels to the column include angled corner rods, panel covers, and mounting tie bolts. 2. The device according to claim 1, characterized in that the tensioned spacer is installed between the supporting table attached on top of the branches of the core and the resistant table of the column attached on the bottom of the branches of the core to the rods of the longitudinal reinforcement of the column. 3. The device according to claim 1, characterized in that the cross-sectional area of the branches of the skeleton of the prestressed strut is adopted taking into account the perception of the magnitude of the residual thermal stresses in the rods of the longitudinal reinforcement of the column. 4. The device according to claim 1, characterized in that the branches of the skeleton of the prestressed strut, working in compression, are made of steel unequal corners of reinforced cross-section, with a greater thickness of the shelves in the assortment. 5. The device according to claim 1, characterized in that the connection of the branches of the skeleton of the tensioned strut is made in the form of planks-elements of thrust tables from the sections of rolled steel - at the ends of the branches of the strut and transverse zigzag reinforcement along the length of the tensioned strut. 6. The device according to claim 1, characterized in that the composite reinforcement cages of the column are made of steel angular corner elements and zigzag rods of transverse reinforcement with a diameter of ⌀ 6 ÷ 16 mm of classes A 240 (AI), A 300 (A-II) or A 400 (A-III) in the form of horizontal and inclined branches located at an angle θ = (45 ± 15) degrees to the longitudinal axis of the column. 7. The device according to claim 1, characterized in that the reinforcement of the column is carried out with the unloading of its thermal stresses in the longitudinal reinforcement. 8. The device according to claim 1, characterized in that the angular corner rods of the amplification device are installed in the angles of abutment of the column with hinged wall panels with the lug inside the cross section and the shelves outside the reinforced column. 9. The device according to claim 1, characterized in that the wall hinged panels are connected by coupling bolts to the corner corner rods of the supporting reinforcement framework of the column. 10. The device according to claim 1, characterized in that the persistent tables of the column and the support table of the tensioned strut, working on a longitudinal bend, are made of steel equal-angled corners with a smaller thickness of the shelves in the assortment. 11. The device according to claim 1, characterized in that the angular corner rods operating in compression and bending are made of steel unequal corners with a smaller thickness of the shelves in the range. 12. The device according to claim 1, characterized in that the cross-sectional dimensions of the support table reinforced with a stiffener are taken from the results of checking the stability of the small and large shelves working for compression and bending. 13. The device according to claim 1, characterized in that the surfaces of the resistant tables subjected to firing by the burner are recessed “into the juice” of a plastic cement-sand mortar with a composition of 1: 3 with squeezing. 14. The device according to claim 1, characterized in that the height of the weld connecting the elements of the reinforcement device is adopted for shear and bending, but not less than 6 mm. 15. The device according to claim 1, characterized in that after the introduction of the prestressed spacer into operation, the supporting table and the upper supporting table of the column are connected tightly with metal plates or corner pieces by applying welds. 16. The device according to claim 1, characterized in that in the additionally laid concrete of the column head, indirect reinforcement is installed in the form of nets or separate U-shaped crossed steel brackets with a given section of 25 ÷ 30% of the cross-sectional area of the longitudinal reinforcement of the column. 17. The device according to claim 1, characterized in that the cargo screws of the tensioning unit are removable, reusable, removed after putting into operation the prestressed spacer and tightly connecting the connecting plates between the thrust table of the column and the supporting table of the prestressed strut. 18. The device according to claim 1, characterized in that the cargo screws of the tension unit are made permanent, disposable, remaining in the reinforced concrete of the reinforced column.