RU2675272C1 - Interface node of assembly reinforced concrete column with monolithic base (options) - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, namely to interface nodes of assembly reinforced concrete columns with monolithic foundations. Interface node of assembly reinforced concrete columns with monolithic foundations includes assembly concrete column with longitudinal working reinforcement, lean concrete and monolithic foundation with embedded elements. At the same time from the body of monolithic foundation there are vertical anchor connection bars, passed through the through fixing holes in horizontal metal support plate. Holes in metal support plate coaxially coincide with the location of longitudinal working reinforcement releases from the bottom end of the assembly concrete columns. On the upper plane of horizontal support metal plate, which coincides with the top of plane of monolithic foundation, a metal protrusion is provided for supporting concrete support protrusion from the lower end of the assembly concrete column on it. For fixing vertical anchoring reinforcement protrusions in the body of a monolithic foundation is made vertical anchor reinforcement protrusions to the full height of monolithic foundation, at the same time, they are made in the form of spatial reinforcement unit and combined with transverse horizontal reinforcement. In the spatial reinforcement block there are vertical reinforcement frames in four directions of the spatial reinforcement block. In vertical reinforcement frames, reinforcing or laminar diagonal elements are provided. Ends of vertical anchor reinforcement for each column are supported by a horizontal supporting metal plate. In the bearing part of the diagonal elements of the vertical reinforcing frames, provided metal supporting plates located under the diagonal elements, as well as support plate, under the vertical reinforcement anchoring protrusions, based on the lean concrete on the layer of cement-sand mortar. Connection of vertical anchor reinforcement protrusions with the release of longitudinal working reinforcement from the bottom end of assembly concrete columns was carried out using tub welding. Cavities of the junction of assembly concrete column with a monolithic foundation within the perimeter of assembly concrete column are covered with concrete of a grade not lower than the concrete brand of the assembly concrete column. Also other options for the junction of a reinforced concrete column with a monolithic foundation are described.

EFFECT: technical result consists in the elimination of columns in the support of assembly concrete columns directly on the monolithic foundation, with the required accuracy of the installation of assembly concrete columns.

7 cl, 28 dwg

Description

- образных арматурных элементов на сварке с периметральными закладными деталями по вертикальным граням колонны в опорной части колонны.The invention relates to the field of construction, namely, the nodes of the pair of precast concrete columns with monolithic foundations. Known joint reinforced concrete prefabricated columns with the foundation ("Reinforced concrete structures (General course)", Baykov VN, Sigalov E.E., M., Stroyizdat, 1976, Fig. XII.2) includes a reinforced concrete column, the lower end which is inserted into the glass of the kneecap of the foundation, which mates with the slab part of the foundation, and the slab part is supported on a natural base or on a pile base, depending on the engineering and geological conditions of the construction site. The gap between the faces of the glass of the column and the faces of the column is filled with cast concrete. The disadvantages include the presence of an intermediate stage of a monolithic device or installation of a precast column. The aim of the present invention is the elimination of the pillars when leaning precast concrete columns directly on a monolithic foundation. Known is the junction of the precast reinforced concrete column with the foundation, including a base plate connected to the base plate part of the column, metal embedded parts of the column in the form of a plate, from the lower end support part of the column with holes for anchor bolts, while the precast reinforced concrete column is connected to the foundation by passing anchor bolts through the support end plate. (Utility model RU 128636, authors Matveev A.V., Permyakov V.L., Rodovich V.V., publication 05.27.2013). This technical solution is taken as a prototype. The disadvantage of this connection is the ability to only swivel the columns with the foundation, while the device of the hollow niches in the end support part of the column for the passage and fastening of anchor bolts weakens the supporting most loaded part of the column. In addition, in this technical solution there is no possibility of precise fixation of the anchor outlets and the base plate in the body of a monolithic foundation. The aim of the present invention is to remedy these disadvantages. 1st version of the claimed invention. A unit for coupling a precast concrete column with a monolithic foundation, including a precast concrete column with longitudinal working reinforcement, a concrete and a monolithic foundation with embedded elements, while vertical anchor reinforcement outlets passed through through fixing holes in a horizontal metal base plate are provided from the body of the monolithic foundation the holes in the metal base plate coincide coaxially with the arrangement of the outlets of the longitudinal working reinforcement from the lower end with reinforced concrete columns, while on the upper plane of the horizontal supporting metal plate, coinciding with the plane of the top of the monolithic foundation, a metal protrusion is provided for supporting the counter concrete supporting protrusion on it from the lower end part of the precast concrete column, while for fixing the vertical anchor reinforcement outlets in the body of the monolithic foundation vertical anchor reinforcing outlets are made to the entire height of the monolithic foundation, while vertical anchor reinforcing starts are made in the form of a spatial reinforcing block combined by transverse horizontal reinforcement, while in the spatial reinforcing block there are vertical reinforcing frames in four directions of the spatial reinforcing block, while in the vertical reinforcing frames reinforcing or plate diagonal elements are installed, while the ends of the vertical anchor reinforcing outlets for each column rests on a horizontal support metal plate, while in the support part The support elements of the vertical frameworks are provided with support metal plates, while the support plates under the diagonal elements, as well as the support plate under the vertical anchor reinforcement outlets, are supported on the concrete under the layer of cement-sand mortar, while the connection of the anchor reinforcement outlets with the longitudinal reinforcement outlets from the lower end prefabricated reinforced concrete columns is carried out using bath welding, while the joint cavity of the precast concrete column with a monolithic foundation in gran The perimeter of the precast reinforced concrete column is concreted with concrete of a brand not lower than the concrete grade of the precast concrete column. 2nd option of the claimed invention. A unit for coupling a precast concrete column with a monolithic foundation, including a precast concrete column with longitudinal working reinforcement, a concrete and a monolithic foundation with embedded elements, while vertical anchor reinforcement outlets passed through through fixing holes in a horizontal metal base plate are provided from the body of the monolithic foundation the holes in the metal base plate coincide coaxially with the location of the vertical outlets of the longitudinal working reinforcement of n the bottom end of the precast concrete columns, while on the upper plane of the horizontal support metal plate, coinciding with the plane of the top of the monolithic foundation, a metal protrusion is provided for supporting the counter concrete support protrusion on it from the lower end part of the precast concrete column, while the vertical anchor reinforcement outlets are made in the form spatial reinforcing block combined by horizontal transverse reinforcement, while in the spatial reinforcing block are provided vertical reinforcing frames in four directions of the spatial reinforcing block, while reinforcing or plate diagonal elements are installed in the vertical reinforcing frames, while supporting metal plates are provided in the supporting part of the diagonal elements, while the supporting plates under the diagonal elements are supported on a concrete under a layer of cement-sand solution, while the connection of the anchor reinforcement outlets with the releases of the longitudinal working reinforcement from the lower end of the precast concrete onn carried out by means of welding bath, wherein the cavity the junction precast concrete columns with monolithic foundation perimeter boundaries in precast concrete column encased in concrete concrete brand, grade concrete precast concrete column. 3rd option of the claimed invention. The assembly unit of the precast concrete column with the monolithic foundation, including the precast concrete column with the longitudinal working reinforcement, the concrete and the monolithic foundation with embedded elements, while the lower supporting end concrete part of the precast concrete column is sunk into the body of the monolithic foundation to a depth less than the distance to the upper working reinforcement of the monolithic reinforcement foundation, while the vertical releases of the longitudinal working reinforcement from the lower end face of the precast concrete column are skipped over the entire the height of the monolithic foundation, while the releases of the longitudinal working reinforcement are made in the form of a spatial reinforcing block combined by transverse horizontal reinforcement, while the spatial reinforcing block has vertical reinforcing frames in four directions of the spatial reinforcing block, while reinforcing or plate diagonal elements are installed in the vertical reinforcing frames while the ends of the vertical outlets of the longitudinal working reinforcement for each column are supported by and a horizontal supporting metal plate, while supporting metal plates are provided in the supporting part of the diagonal elements of the vertical frames, while the supporting plates under the diagonal elements, as well as the supporting plate under the vertical anchor reinforcement outlets, are supported on the concrete under a layer of cement-sand mortar. 4 variant of the claimed invention. The assembly unit of the precast concrete column with the monolithic foundation, including the precast concrete column with the longitudinal working reinforcement, the concrete and the monolithic foundation with embedded elements, while the lower supporting end concrete part of the precast concrete column is sunk into the body of the monolithic foundation to a depth less than the distance to the upper working reinforcement of the monolithic reinforcement foundation, while the vertical outlets of the longitudinal working reinforcement from the lower end face of the precast concrete column are anchored into the bodies e monolithic foundation, while the vertical outlets of the longitudinal working reinforcement are made in the form of a spatial reinforcing block combined by transverse horizontal reinforcement, while in the spatial reinforcing frame there are vertical reinforcing frames in four directions of the spatial reinforcing block, while reinforcing or plate diagonal are installed in the vertical reinforcing frames elements, while in the supporting part of the diagonal elements of the vertical frames provided supports metal plates, while the supporting plates under the diagonal elements are supported on a concrete under a layer of cement-sand mortar. 5th embodiment of the claimed invention. The assembly unit of the precast concrete column with the monolithic foundation, including the precast concrete column with the longitudinal working reinforcement, the concrete and the monolithic foundation with embedded elements, while the lower supporting end concrete part of the precast concrete column is sunk into the body of the monolithic foundation to a depth less than the distance to the upper working reinforcement of the monolithic reinforcement foundation, while the vertical releases of the longitudinal working reinforcement from the lower end face of the precast concrete column are skipped over the entire the height of the monolithic foundation, while the vertical outlets of the longitudinal working reinforcement are made in the form of a spatial reinforcing cage combined by transverse horizontal reinforcement, while the vertical ends of the longitudinal working reinforcement outlets for each column are supported by a horizontal supporting metal plate, while to the supporting concrete part of the precast concrete column in four directions are fixed diagonal elements of a metal rolling profile, while in the supporting part of the diagonal ele ENTOV provided supporting metal plates, with the support plates under the truss elements, and a vertical support plate anchor starter bars footing based on the layer of cement-sand mortar. 6th embodiment of the claimed invention. The assembly unit of the precast concrete column with the monolithic foundation, including the precast concrete column with the longitudinal working reinforcement, the concrete and the monolithic foundation with embedded elements, while the lower supporting end concrete part of the precast concrete column is sunk into the body of the monolithic foundation to a depth less than the distance to the upper working reinforcement of the monolithic reinforcement foundation, while the releases of the longitudinal working reinforcement from the lower end face of the precast concrete column are anchored in the body of a monolithic foundation, while to the supporting part of the precast concrete column in four directions rack-mounted and diagonal elements of a metal rolling profile are fixed, while in the supporting part of the rack and diagonal elements, support metal plates are provided, while the support plates under the rack and diagonal elements are supported on the base on a layer of cement-sand mortar. 7th embodiment of the claimed invention. The unit for interfacing a precast concrete column with a monolithic foundation, including a precast concrete column with longitudinal working reinforcement, concrete and a monolithic foundation with embedded elements, while in the body of the monolithic foundation a calibrated and fixed spatial reinforcing block with longitudinal vertical rods combined by transverse horizontal reinforcement is provided, while in the spatial reinforcing block, vertical reinforcing cages are provided in four directions reinforcing block, in this case reinforcing or plate diagonal elements are installed in vertical reinforcing frames, while the ends of the longitudinal vertical reinforcing bars are supported by a horizontal supporting metal plate, while supporting metal plates are provided in the supporting part of the diagonal elements of vertical frames, while supporting plates under the diagonal elements, as well as the base plate under the longitudinal vertical reinforcing bars, are supported on a concrete under a layer of cement ntn-sand mortar, while the longitudinal vertical rods are connected by welding with a horizontal supporting metal plate, the top of which coincides with the upper plane of the monolithic foundation, while the precast concrete column mounted after the monolithic foundation is installed is supported by the flat end face on the embedded element of the horizontal supporting metal plate of the monolithic foundation according to a layer of cement-sand mortar or fine-grained concrete, while the connection of the supporting horizontal metal plates of a monolithic foundation with a precast concrete column are welded using

- shaped reinforcing elements in welding with perimeter embedded parts along the vertical faces of the column in the supporting part of the column.

1. In the drawings, the positions indicated:

pos. 1 - prefabricated reinforced concrete column mounted after the installation of a monolithic foundation with the connection of working fittings using bathtub welding;

pos. 2 - a shortened precast concrete column is monolithic in the body of a monolithic foundation, while the longitudinal working reinforcement outlets from the lower end face of the precast concrete precast column are skipped to the entire monolithic foundation height, while the ends of the longitudinal working reinforcement outlets from the lower end face of each column are supported by a horizontal metal support a plate;

pos. 3 - a shortened precast concrete column monolithic in the body of the monolithic foundation, while the releases of the longitudinal working reinforcement from the lower end face of the precast concrete column are anchored in the body of the monolithic foundation;

pos. 4 - a multi-storey precast reinforced concrete column monolithic in the body of a monolithic foundation, while the releases of the longitudinal working reinforcement from the lower end face of the precast reinforced concrete column are skipped to the entire height of the monolithic foundation, while the ends of the longitudinal working reinforcement from the lower end face of each column are supported by a horizontal supporting metal a plate;

pos. 5 - multi-story precast concrete column monolithic in the body of a monolithic foundation, while the releases of longitudinal working reinforcement from the lower end face of the precast concrete column are anchored in the body of the monolithic foundation;

pos. 6 - vertical anchor reinforcing outlets missed to the entire height of the monolithic foundation, while the ends of the anchor reinforcing outlets rely on a horizontal supporting metal plate;

pos. 7 - releases of the longitudinal working reinforcement from the lower end face of the precast concrete column skipped to the entire height of the monolithic foundation, while the ends of the longitudinal working reinforcement from the lower end face rest on a horizontal supporting metal plate;

pos. 8 - releases of longitudinal working reinforcement from the lower end face of a precast concrete column anchored in the body of a monolithic foundation;

pos. 9 - transverse horizontal reinforcement of spatial reinforcing cage;

pos. 10 - horizontal support metal plate for supporting vertical anchor rods of longitudinal working reinforcement;

pos. 11 - horizontal support metal plate for supporting diagonal elements of a vertical reinforcing cage;

pos. 12 - lower rod of the transverse diagonal element of the spatial reinforcing cage;

pos. 13 - the upper rod of the vertical reinforcing cage;

pos. 14 - an inclined metal plate between the upper and lower rods of the diagonal element of the spatial reinforcing cage;

pos. 15 - lower contour horizontal connection rod stiffener;

pos. 16 - a vertical rod of a vertical reinforcing cage;

pos. 17 - a connecting element of their metal corner;

pos. 18 - horizontal transverse reinforcement of the spatial reinforcement cage;

pos. 19 - upper contour horizontal connection rod stiffener;

pos. 20 - a metal base plate with holes coaxially coinciding with the location of the outlets of the longitudinal working reinforcement from the lower end of the precast concrete columns;

pos. 21 - a metal protrusion for supporting the reciprocal concrete support protrusion on it from the lower end part of the precast concrete column mounted after the monolithic foundation is installed;

pos. 22 is a flat embedded part in a precast reinforced concrete column monolithic in the body of a monolithic foundation,

pos. 23 - lower horizontal rod of a vertical reinforcing cage;

pos. 24 - diagonal element of the rolling profile;

pos. 25 - corner embedded part in a precast reinforced concrete column for fastening racks oz corner rolling profile;

pos. 26 - racks from rolling corners;

pos. 27 - connecting strips;

pos. 28 - embedded part installed in the body of the concrete for fixing the monolithic spatial frame;

pos. 29 - connecting piece;

pos. 30 - footing;

pos. 31 - reinforcing mesh;

pos. 32 - cement-sand mortar;

pos. 33 - concrete monolithic foundation;

pos. 34 - lower working reinforcement of a monolithic foundation;

pos. 35 - upper working reinforcement of a monolithic foundation;

pos. 36 - transverse reinforcement of a monolithic foundation;

pos. 37 - a cavity in the body of a multi-storey precast concrete column for a monolithic ceiling device;

pos. 38 - precast concrete column mounted after the installation of a monolithic foundation with a flat contact joint bearing on a monolithic foundation, with perimeter embedded parts along the vertical faces of the column in the supporting part of the column;

pos. 39 - precast concrete column mounted after the installation of a monolithic foundation with a flat contact joint bearing on a monolithic foundation, with embedded perimeter embedded parts along the vertical faces of the column in the supporting part of the column;

pos. 40 - verified and fixed horizontal base plate in the plane of the top of the monolithic foundation connected to the spatial reinforcing block installed on the concrete foot of the monolithic foundation;

pos. 41 is a vertical plate of the embedded part of a precast concrete column with a flat contact joint bearing on a monolithic foundation installed along the vertical faces of the column in the supporting part of the column;

pos. 42 is a vertical plate of the embedded part of a precast concrete column with a flat contact joint bearing on a monolithic foundation installed indented from the vertical faces of the column in the supporting part of the column;

- образная соединительная деталь.pos. 43 -

- shaped connecting piece.

pos. 44 - cement-sand mortar, or fine-grained concrete;

pos. 45 - beacon protrusion for forming the thickness of the seam.

Embodiments of the present invention are shown in illustrative examples: FIG. 1 - shows a vertical section A1-A1 along the interface node precast concrete columns with a monolithic foundation, including precast concrete columns pos. 1 with longitudinal working reinforcement, concrete pos. 30 and a monolithic foundation with embedded elements, while vertical anchor reinforcement outlets pos. Are provided from the body of the monolithic foundation. 6 passed through the through fixing holes in the horizontal metal base plate pos. 20, while the holes in the metal base plate pos. 20 coaxially coincide with the location of the releases of the longitudinal working reinforcement from the lower end of the precast concrete columns pos. 1, while on the upper plane of the horizontal support metal plate pos. 20, coinciding with the plane of the top of the monolithic foundation, a metal protrusion of pos. 21 for supporting the reciprocal concrete support projection from the lower end part of the precast concrete column pos. 1, while for fixing the vertical anchor reinforcing outlets pos. 6 in the body of the monolithic foundation vertical anchor reinforcing releases pos. 6 are made to the entire height of the monolithic foundation, while the vertical anchor reinforcing releases pos. 6 are made in the form of a spatial reinforcing block united by transverse horizontal reinforcement pos. 9, while in the spatial reinforcing block provides vertical reinforcing frames pos. 12, 13, 16 in four directions of the spatial reinforcing block, while in the vertical reinforcing cages between pos. 12 and pos. 13 mounted metal plate diagonal elements pos. 14, while the ends of the vertical anchor reinforcement outlets pos. 6 for each column are supported on a horizontal support metal plate pos. 10, while in the supporting part of the diagonal elements pos. 14 vertical frames provided support metal plates pos. 11, while the base plates pos. 11 under the diagonal elements pos. 14, as well as the support plate pos. 10 under the vertical anchor reinforcement outlets pos. 6 are based on concrete under a layer of cement-sand mortar pos. 32, the connection of the anchor reinforcing releases pos. 6 with releases of longitudinal working reinforcement from the lower end of precast concrete columns pos. 1 is carried out by means of bath welding, while the joint cavity of the precast concrete column with a monolithic foundation within the boundaries of the perimeter of the precast concrete column is concreted with concrete of grade not lower than the concrete grade of the precast concrete column.

in FIG. 2 shows a section C3-C3 for a coupling assembly of a precast concrete column with a monolithic foundation of FIG. one;

in FIG. 3 - shows a vertical section A2-A2 along the interface of a precast concrete column with a monolithic foundation, including a precast shortened reinforced concrete column pos. 2 with longitudinal working reinforcement pos. 7, footing pos. 30 and a monolithic foundation with embedded elements, while the lower supporting end concrete part of the precast concrete column pos. 2 is sunk into the body of the monolithic foundation to a depth less than the distance to the upper working reinforcement of the monolithic foundation, while the vertical outlets of the longitudinal working reinforcement pos. 7 from the lower end face of the precast concrete column pos. 2 are skipped to the entire height of the monolithic foundation, while the releases of the longitudinal working reinforcement pos. 7 are made in the form of a spatial reinforcing block united by transverse horizontal reinforcement pos. 9, while in the spatial reinforcing block provides vertical reinforcing frames pos. 12, 13, 16 in four directions of the spatial reinforcing block, while in the vertical reinforcing cages between pos. 12 and pos. 13 installed plate diagonal elements pos. 14, while the ends of the vertical outlets of the longitudinal working reinforcement pos. 7 for each column are supported on a horizontal support metal plate pos. 10, while in the supporting part of the diagonal elements pos. 14 vertical frames provided support metal plates pos. 11, while the support plate under the diagonal elements pos. 11, as well as the support plate pos. 10 under the vertical anchor reinforcement outlets pos. 7 are based on the footing pos. 30 along the layer of cement-sand mortar pos. 32.

in FIG. 5 shows a section C1-C1 for the interface unit of a precast concrete column with a monolithic foundation of FIG. 1 and FIG. 3;

in FIG. 6 shows a section C2-C2 for a coupling assembly of a precast concrete column with a monolithic foundation of FIG. 1 of FIG. 3 of FIG. 7 of FIG. 8 of FIG. 25, as shown in FIG. 27;

in FIG. 7 - shows a vertical section A3-A3 along the interface of the precast concrete column with the monolithic foundation, including the precast concrete column pos. 1 with longitudinal working reinforcement, concrete pos. 30 and a monolithic foundation with embedded elements, while vertical anchor reinforcement outlets pos. Are provided from the body of the monolithic foundation. 6 passed through the through fixing holes in the horizontal metal base plate pos. 20, while the holes in the metal base plate pos. 20 coaxially coincide with the location of the vertical outlets of the longitudinal working reinforcement from the lower end of the precast concrete columns pos. 1, while on the upper plane of the horizontal support metal plate pos. 20, coinciding with the plane of the top of the monolithic foundation, a metal protrusion of pos. 21 for supporting the reciprocal concrete support projection from the lower end part of the precast concrete column pos. 1, while the vertical anchor reinforcing releases pos. 6 are made in the form of a spatial reinforcing block united by transverse horizontal reinforcement pos. 9, while in the spatial reinforcing block provides vertical reinforcing frames pos. 12, 13, 16 in four directions of the spatial reinforcing block, while in the vertical reinforcing cages between pos. 12 and pos. 13 installed plate diagonal elements pos. 14, while in the supporting part of the diagonal elements pos. 14, support metal plates are provided in pos. 11, while the base plates pos. 11 under the diagonal elements pos. 14 are based on the footing pos. 30 along the layer of cement-sand mortar pos. 32, the connection of the anchor reinforcing releases pos. 6 with releases of longitudinal working reinforcement from the lower end of precast concrete columns pos. 1 is carried out by means of bath welding, while the joint cavity of the precast concrete column with a monolithic foundation within the perimeter of the precast concrete column is concreted with concrete of grade not lower than the concrete grade of the precast concrete column.

in FIG. 8 - shows a vertical section A4-A4 along the interface node precast concrete columns pos. 1 with a monolithic foundation as shown in FIG. 7, with additional fastening of the support plates pos. 11 under the diagonal elements pos. 14 to embedded parts pos. 28 monopolized in reinforced concrete pos. 30 in the installation area of the spatial reinforcing block, using the connecting elements pos. 29;

in FIG. 9 shows a section C5-C5 for a coupling assembly of a precast concrete column with a monolithic foundation of FIG. 7;

in FIG. 10 shows a section C6-C6 for a coupling assembly of a precast concrete column with a monolithic foundation of FIG. 8 of FIG. 25, as shown in FIG. 27; in FIG. 11 - a vertical section A5-A5 is shown along the interface of the prefabricated shortened reinforced concrete column with a monolithic foundation, including the prefabricated shortened reinforced concrete column pos. 2 with longitudinal working reinforcement pos. 7, footing pos. 30 and a monolithic foundation with embedded elements, while the lower supporting end concrete part of the precast concrete column pos. 2 is sunk into the body of the monolithic foundation to a depth less than the distance to the upper working reinforcement of the monolithic foundation, while the vertical outlets of the longitudinal working reinforcement pos. 7 from the lower end face of the precast concrete column pos. 2 are skipped to the entire height of the monolithic foundation, while the vertical outlets of the longitudinal working reinforcement pos. 7 are made in the form of a spatial reinforcing cage united by transverse horizontal reinforcement pos. 9, while the vertical ends of the releases of the longitudinal working reinforcement pos. 7 for each column are supported on a horizontal support metal plate pos. 10, while to the supporting concrete part of the precast concrete column pos. 2 in four directions, diagonal elements of a metal rolling profile are fixed pos. 24, while in the supporting part of the diagonal elements pos. 24, support metal plates are provided in pos. 11, while the support plate under the diagonal elements pos. 11, as well as the support plate pos. 10 under the vertical anchor reinforcement outlets pos. 7 are based on the footing pos. 30 along the layer of cement-sand mortar pos. 32; in FIG. 12 - section C9-C9 is shown for the interface unit of a shortened precast concrete column pos. 2 with the monolithic foundation of FIG. eleven; in FIG. 13 - section C7-C7 is shown for the interface unit of a shortened precast concrete column pos. 2 with the monolithic foundation of FIG. 11 and FIG. fifteen; in FIG. 14 - section C8-C8 is shown for the interface unit of a shortened precast concrete column pos. 2 with the monolithic foundation of FIG. 11 and FIG. fifteen; in FIG. 15 - shows a vertical section A5a-A5a along the interface node precast concrete columns pos. 2 with a monolithic foundation as shown in FIG. 11, with an additional arrangement of the lower working fittings pos. 34, vertical reinforcing cages pos. 36, upper working fittings pos. 35;

in FIG. 16 - shows a vertical section A6-A6 on the interface node assembly team multi-story reinforced concrete columns pos. 4 with a monolithic foundation similar to the assembly shown in FIG. 11, with additional fastening of the support plates pos. 11 under the diagonal elements pos. 14 to embedded parts pos. 28 monopolized in reinforced concrete pos. 30 in the installation area of the spatial reinforcing block, using the connecting elements pos. 29;

in FIG. 17 shows a section C10-C10 for the interface node of a multi-story precast concrete column pos. 4 with the monolithic foundation of FIG. 16;

in FIG. 18 shows a section C11-C11 for the interface of a multi-story precast concrete column pos. 4 with the monolithic foundation of FIG. 16;

in FIG. 19 - shows a vertical section A7-A7 along the interface node of a shortened precast concrete column with a monolithic foundation, including a precast shortened reinforced concrete column pos. 3 with longitudinal working reinforcement pos. 8, footing pos. 30 and a monolithic foundation with embedded elements, while the lower supporting end concrete part of the precast concrete column pos. 3 is sunk into the body of the monolithic foundation to a depth less than the distance to the upper working reinforcement of the monolithic foundation, while the releases of the longitudinal working reinforcement pos. 8 from the lower end face of the precast concrete column pos. 3 anchored in the body of a monolithic foundation, while to the supporting part of the precast concrete column pos. 3 in four directions fixed rack-strut elements pos. 24 from a metal rolling profile, while in the supporting part of the rack-strut elements pos. 24, support metal plates are provided in pos. 11, while the base plates pos. 11 under the post-diagonal elements pos. 24 are based on the footing pos. 20 by a layer of cement-sand mortar pos. 32.

in FIG. 20 shows a section C12-C12 for the interface node of a multi-story precast concrete column pos. 4 with the monolithic foundation of FIG. 19; in FIG. 21 shows a section C13-C13 for the interface node of a multi-story precast concrete column pos. 4 with the monolithic foundation of FIG. 19; in FIG. 22 shows a view of A8-A8 according to the interface of a prefabricated multi-story reinforced concrete column with a monolithic foundation, including a prefabricated multi-story reinforced concrete column, pos. 4 with longitudinal working reinforcement pos. 8, footing pos. 30 and a monolithic foundation with embedded elements, while the lower supporting end concrete part of the precast concrete column pos. 4 is sunk into the body of the monolithic foundation to a depth less than the distance to the upper working reinforcement of the monolithic foundation, while the releases of the longitudinal working reinforcement pos. 8 from the lower end face of the precast concrete column pos. 4 are anchored in the body of the monolithic foundation, while to the supporting part of the precast concrete column pos. 4 in four directions are mounted rack elements pos. 26 and diagonal elements pos. 24 from a metal rolling profile, while in the supporting part of the rack-mount and diagonal elements support metal plates of pos. 10 and pos. 11, while the base plates under the strut and diagonal elements are supported on the basement pos. 30 along the layer of cement-sand mortar pos. 32;

in FIG. 23 - shows a vertical section A9-A-9 for the interface node multistory precast concrete columns pos. 4 with the monolithic foundation of FIG. 22;

in FIG. 24 shows a section C14-C14 for the interface node of a multi-story precast concrete column pos. 4 with the monolithic foundation of FIG. 22;

in FIG. 25 shows a section C15-C15 for the interface of a multi-story precast concrete column pos. 4 with the monolithic foundation of FIG. 22;

- образных арматурных элементов поз. 43 на сварке с периметральными закладными деталями поз. 41 по вертикальным граням колонны в опорной части колонны поз. 38.in FIG. 26 - shows a vertical section A10-A10 for the interface unit precast concrete columns with a monolithic foundation, including precast concrete column pos. 38 with longitudinal working fittings, concrete pos. 30 and a monolithic foundation with embedded elements, while in the body of the monolithic foundation a calibrated and fixed spatial reinforcing block with longitudinal vertical rods pos. 6 combined transverse horizontal reinforcement pos. 9, while in the spatial reinforcing block provides vertical reinforcing frames pos. 12, 13, 16 in four directions of the spatial reinforcing block, while in the vertical reinforcing cages between pos. 12 and pos. 13 installed plate diagonal elements pos. 14, while the ends of the longitudinal vertical reinforcing bars pos. 6 are based on a horizontal support metal plate pos. 10, while in the supporting part of the diagonal elements pos. 14 vertical frames provided support metal plates pos. 11, while the base plates pos. 11 under the diagonal elements, as well as the support plate pos. 10 under the longitudinal vertical reinforcing bars pos. 6 are based on the footing pos. 30 along the layer of cement-sand mortar pos. 32, while the longitudinal vertical rods pos. 6 are connected by welding with a supporting horizontal metal plate pos. 40 the top of which coincides with the upper plane of the monolithic foundation, while the precast concrete column pos. 38 mounted after the installation of the monolithic foundation is supported by a flat end on the embedded element of the horizontal supporting metal plate pos. 40 monolithic foundation on a layer of cement-sand mortar or fine-grained concrete pos. 44, the connection of the supporting horizontal metal plate of a monolithic foundation pos. 40 with precast reinforced concrete column is carried out by welding with

- shaped reinforcing elements pos. 43 for welding with perimeter embedded parts pos. 41 along the vertical faces of the column in the supporting part of the column pos. 38.

in FIG. 26 - section C16-C16 is shown for the interface node of a multi-storey precast concrete column pos. 38 with the monolithic foundation of FIG. 25;

in FIG. 27 - shows a vertical section A11-A11 along the interface node precast concrete columns pos. 38 with a monolithic foundation as shown in FIG. 25, with a collapsible arrangement of perimeter embedded parts pos. 42 relative to the vertical faces in the supporting part of the precast concrete column pos. 38;

in FIG. 28 shows a section C17-C17 for the interface node of a multi-story precast concrete column pos. 38 with the monolithic foundation of FIG. 27.

Claims (7)

1. The unit for coupling a precast concrete column with a monolithic foundation, comprising a precast concrete column with a longitudinal working reinforcement, a concrete and a monolithic foundation with embedded elements, characterized in that vertical anchor reinforcement outlets passed through through fixing holes in a horizontal metal are provided from the body of the monolithic foundation base plate, while the holes in the metal base plate coaxially coincide with the location of the outlets of the longitudinal working reinforcement from the lower end of the precast concrete columns, while on the upper plane of the horizontal supporting metal plate, coinciding with the plane of the top of the monolithic foundation, there is a metal protrusion for supporting the counter concrete supporting protrusion on it from the lower end part of the precast concrete column, while for fixing the vertical anchor reinforcing outlets in the body of the monolithic foundation, vertical anchor reinforcement outlets are made to the entire height of the monolithic foundation, while the vertical anchor The reinforced outlets are made in the form of a spatial reinforcing block and are joined by transverse horizontal reinforcement, while the spatial reinforcing block has vertical reinforcing cages in four directions of the spatial reinforcing block, while reinforcing or plate diagonal elements are provided in the vertical reinforcing cages, while the ends of the vertical anchor reinforcing outlets for each column are supported on a horizontal supporting metal plate, while in The supporting part of the diagonal elements of the vertical reinforcing cages is provided with support metal plates, while the support plates under the diagonal elements, as well as the support plate under the vertical anchor reinforcement outlets, are supported on the concrete under the layer of cement-sand mortar, while the connection of the vertical anchor reinforcing outlets with the longitudinal working outlets reinforcement from the lower end of precast concrete columns is carried out by means of bath welding, while the joint cavity of the precast concrete assembly columns with a monolithic foundation within the perimeter of a precast concrete column are concreted with concrete of a grade not lower than the concrete grade of a precast concrete column. 2. A node for interfacing a precast concrete column with a monolithic foundation, including a precast concrete column with longitudinal working reinforcement, concrete and a monolithic foundation with embedded elements, characterized in that vertical anchor outlets are provided from the body of the monolithic foundation, passed through through fixing holes in a horizontal metal base plate, while the holes in the metal base plate coaxially coincide with the location of the outlets of the longitudinal working reinforcement from the lower end of the precast concrete columns, while on the upper plane of the horizontal supporting metal plate, coinciding with the plane of the top of the monolithic foundation, a metal protrusion is provided for supporting the counter concrete supporting protrusion on it from the lower end part of the precast concrete column, while the vertical anchor reinforcement outlets are made in in the form of a spatial reinforcing block and combined by transverse horizontal reinforcement, while the spatial reinforcing block is provided there are vertical reinforcing frames in four directions of the spatial reinforcing block, while reinforcing or plate diagonal elements are installed in the vertical reinforcing frames, while supporting metal plates are provided in the supporting part of the diagonal elements, while the supporting plates under the diagonal elements are supported on the concrete under the cement layer sand mortar, while the connection of vertical anchor reinforcing outlets with vertical outlets of longitudinal working reinforcement from the lower ca precast columns is performed by means of welding bath, the joint cavity precast concrete columns with monolithic foundation perimeter boundaries in precast concrete column encased in concrete concrete brand, grade concrete precast concrete column. 3. A node for interfacing a precast concrete column with a monolithic foundation, including a precast concrete column with a longitudinal working armature, concrete and a monolithic foundation with embedded elements, characterized in that the lower supporting end concrete part of the precast concrete column is sunk into the body of the monolithic foundation to a depth less than a distance of the upper working reinforcement of the monolithic foundation, while the releases of the vertical longitudinal working reinforcement from the lower end face of the precast concrete column lowered to the entire height of the monolithic foundation, while the vertical outlets of the longitudinal working reinforcement are made in the form of a spatial reinforcing block and are joined by transverse horizontal reinforcement, while in the spatial reinforcing block there are vertical reinforcing frames in four directions of the spatial reinforcing block, while the vertical reinforcing frames are installed reinforcing or plate diagonal elements, while the ends of the vertical outlets of the longitudinal working reinforcement Doi column based on a horizontal support metal plate, wherein a supporting portion supporting truss elements are provided metal plates, the support plates under the truss elements, and a vertical support plate anchor starter bars footing based on the layer of cement-sand mortar. 4. A node for interfacing a precast concrete column with a monolithic foundation, including a precast concrete column with a longitudinal working armature, concrete and a monolithic foundation with embedded elements, characterized in that the lower supporting end concrete part of the precast concrete column is sunk into the body of the monolithic foundation to a depth less than a distance of the upper working reinforcement of the monolithic foundation, while the vertical releases of the longitudinal working reinforcement from the lower end face of the precast concrete column anchors in the body of the monolithic foundation, while the releases of the longitudinal working reinforcement are made in the form of a spatial reinforcing block and are joined by transverse horizontal reinforcement, while the spatial reinforcing block has vertical reinforcing frames in four directions of the spatial reinforcing block, while reinforcing bars are installed in the vertical reinforcing frames lamellar diagonal elements, while in the supporting part of the diagonal elements are provided supporting metal layer us, and the supporting metal plate under the truss elements based on the footing on the layer of cement-sand mortar. 5. A node for coupling a precast concrete column with a monolithic foundation, including a precast concrete column with longitudinal working reinforcement, a concrete and a monolithic foundation with embedded elements, characterized in that the lower supporting end concrete part of the precast concrete column is sunk into the body of the monolithic foundation to a depth less than a distance of the upper working reinforcement of the monolithic foundation, while the vertical releases of the longitudinal working reinforcement from the lower end face of the precast concrete column lowered to the entire height of the monolithic foundation, while the outlets of the vertical longitudinal working reinforcement are made in the form of a spatial reinforcing cage and are joined by transverse horizontal reinforcement, while the ends of the outlets of the vertical longitudinal working reinforcement of each column are supported by a horizontal supporting metal plate, while to the supporting concrete part of the precast reinforced concrete columns in four directions fixed diagonal elements of a metal rolling profile, while in the supporting part of the races axle members supporting metal plates are provided, wherein the support plate under the truss elements, and the support plate under the anchor starter bars footing based on the layer of cement-sand mortar. 6. The unit for coupling a precast concrete column with a monolithic foundation, including a precast concrete column with a longitudinal working reinforcement, a concrete and a monolithic foundation with embedded elements, characterized in that the lower supporting end concrete part of the precast concrete column is sunk into the body of the monolithic foundation to a depth less than a distance of the upper working reinforcement of the monolithic foundation, while the vertical releases of the longitudinal working reinforcement from the lower end face of the precast concrete column anchored in the body of the monolithic foundation, while the supporting concrete part of the precast concrete column in four directions is fixed rack and diagonal elements of a metal rolling profile, while the supporting part of the rack and diagonal elements are provided with supporting metal plates, while the supporting plates under the rack and diagonal elements are based on concrete under a layer of cement-sand mortar. 7. A node for interfacing a precast concrete column with a monolithic foundation, including a precast concrete column with longitudinal working reinforcement, concrete and a monolithic foundation with embedded elements, characterized in that the body of the monolithic foundation has a calibrated and fixed spatial reinforcing block with longitudinal vertical rods joined by transverse longitudinal rods horizontal reinforcement, while in the spatial reinforcing block there are four vertical reinforcing frames the spatial reinforcing block, while in the vertical reinforcing cages are installed reinforcing or plate diagonal elements, while the ends of the longitudinal vertical reinforcing bars are supported by a horizontal supporting metal plate, while supporting metal plates are provided in the supporting part of the diagonal elements of the vertical reinforcing frames, while supporting the plates under the diagonal elements, as well as the support plate under the longitudinal vertical reinforcing bars are supported on concrete under a layer of cement-sand mortar, while the longitudinal vertical rods are connected by welding with a supporting horizontal metal plate, the top of which coincides with the upper plane of the monolithic foundation, while the precast concrete column mounted after the monolithic foundation is installed, rests with a flat end on the embedded element horizontal support metal plate of a monolithic foundation along a layer of cement-sand mortar or fine-grained concrete, while the connection of the support g rizontalnoy metal monolithic foundation plate with a precast concrete column is carried out on welding using

- shaped reinforcing elements in welding with perimeter embedded parts along the vertical faces of the column in the supporting part of the column.

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