EA036039B1 - Precast and cast-in-place building framework with reinforcement bars looped to the framework load-bearing members - Google Patents

Abstract

The invention relates to construction of residential, public and industrial buildings. The technical result is a longer service life of the building and reduced construction time. In the concrete body of columns, beams and plates, steel loops and at least one reinforcement bar inserted in the loops are secured. The column is connected to the plates using interlinked loops placed on the column and plate and closed with a plate reinforcement bar inserted in the loops. The reinforcement bar is inserted into a hole drilled in the column cantilever such that its top end is embedded in the cantilever body and the bottom end is at a distance from the cantilever underlying the plate to be connected, wherein the column is connected to the beams using three pairs of loop rows with the central row serving as the extension of the loop row which connect the plate, and two side rows are made of a combination of loops of the column and the adjacent beam. Each of the three loop rows is closed with the beam reinforcement bar inserted through it and having a length not greater that the beam height, the pitch tof the loops in column-to-beam connection areas being lower than the pitch tof the loops in the column-to-plate connection areas. After framework fabrication, all connections of the framework bearing members are concreted.

Description

The invention relates to the field of construction of residential, public and industrial buildings in large-panel, frame and panel-monolithic design.

Prior art

Known prefabricated monolithic frame of the building of the reinforcement-loop assembly with its load-bearing elements, containing a concrete body of columns, beams and panels with steel hinges fixed in it and at least one reinforcing bar passed inside the loops (US patent US5682717, IPC E04B 1/00 , US Cl. 52/251, 04 November 1997).

This technical solution is the closest to the invention in terms of the technical essence and the achieved result, therefore it is taken as a prototype.

Disclosure of invention

The technical result from the use of the invention is to increase the service life of the building by ensuring the uniform strength of the joints of the frame elements and in reducing the construction time.

Disclosed below are all general and particular essential features of the technical solution, characterizing their causal relationship with the specified technical result, sufficient for the implementation of the invention by a specialist in this field of technology.

The precast-monolithic frame of the reinforcement-loop assembly building with its load-bearing elements contains a concrete body of columns, beams and panels with steel hinges fixed in it and at least one reinforcing bar passed inside the loops. The connection of the column with the panels is made in the form of rows of conjugated loops placed on the column and on the panel, closed by a panel reinforcing bar passed through them. The specified reinforcing bar is placed in a hole made in the column console so that its upper end is recessed into the body of the console, and the lower end is located at a distance from the console, which lies below the panel to be connected, while the connection of the column to the beams is formed by three pairs of rows of loops, the middle of which is a continuation of the row of loops of the panel connection, and the two outer rows are formed by a combination of the loops of the column and the adjacent beam, while each of the three rows of loops is closed by a beam reinforcing bar passed through them with a length not exceeding the height of the beam, and the step t1 between the loops in the zones of the connection of the column with the beams, there is less step t ₂ between the loops in the zones of the connection of the column with the panels, while after assembling the frame, all connections of its bearing elements are cast in concrete. The indicated steel hinges can be made of wire rope. In the hole of the column console, a plastic corrugated sleeve can be installed, in which a panel reinforcing bar is freely placed, and the space between them is filled with concrete. Along the upper surface of each beam, loops are uniformly monolithic, conjugated with loops, monolithic at the end of the floor slab connected to the beam, and a horizontal reinforcing bar is passed through these loops.

Blueprints

The invention is illustrated in the drawings, where FIG. 1 shows a general view of the first and underground floors of the building; in fig. 2 - vertical section of the frame in the plane of the columns; in fig. 3 - view a-a in fig. 2; in fig. 4 is a view D in FIG. 2; in fig. 5 - section D-D in Fig. 4; in fig. 6 - view E in FIG. five; in fig. 7 view b-b in fig. 2; in fig. 8 - view G in Fig. 7; in fig. 9 - view I in Fig. 2; in fig. 10 - view And in Fig. 7; in fig. 11 - section b-b in fig. 2; in fig. 12 - a variant of a column with four consoles; in fig. 13 is a section of the CC in Fig. 12; in fig. 14 - section L-L in Fig. 12; in fig. 15 - section MM in Fig. fourteen.

An embodiment of the invention

The precast-monolithic frame of the reinforcing-loop assembly building with its load-bearing elements contains the concrete body of columns 1, beams 2 and panels 3 with steel hinges 4 fixed in it and at least one panel reinforcing bar 5 passed inside loops 4.

The connection of the column 1 with the panels 3 is made in the form of rows of conjugated loops 4 located on the column 1 and on the panel 3, closed by the panel reinforcing bar 5 passed through them.

The specified reinforcing bar 5 is placed in the hole made in the console 6 of the column 1 so that its upper end is recessed into the body of the console 6, and the lower end is located at a distance from the console 6, which is lower with respect to the jointed panel 3.

The connection of the column 1 with the beams 2 is formed by three pairs of rows of loops 4, the middle of which is a continuation of the row of loops 4 of the panel 3 connection.

The two extreme rows of loops are formed by a combination of loops 4 of column 1 and an adjacent beam 2. Each of the three rows of loops 4 is closed by a beam reinforcing bar 7 passed through them with a length not exceeding the height of beam 2, and the step t1 between loops 4 in the zones of connection S of the column 1 with beams 2 is less than the step t ₂ between the hinges 4 in the zones of the connection N of the column 1 with the panels 3.

At the same time, after assembling the frame, all joints of its bearing elements are cast in concrete.

The indicated steel loops 4 can be made of a cable. In the hole of the console 6 of the column 1, a plastic corrugated sleeve 8 can be installed, in which the panel reinforcing bar 5 is freely placed, and the space between them is filled with concrete.

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Along the upper surface of each beam 2, loops 4 are uniformly monolithic, coupled with loops 9, monolithic at the end of the floor slab 10 connected to the beam 2, and a horizontal reinforcing bar 11 is passed through these loops 4.

Comparison of the claimed technical solution with the prior art known from the scientific, technical and patent documentation as of the priority date, in the main and adjacent headings, did not reveal a means that has features identical to all the features contained in the claims proposed by the applicant, including the characteristics of the purpose. Those. the set of essential features of the claimed solution was not previously known and is not identical to any known technical solutions, therefore, it meets the condition of patentability, novelty.

Industrial applicability

This technical solution is industrially applicable, since its purpose is indicated in the description of the application and the title of the invention, it can be manufactured industrially and used for use in precast-monolithic construction.

The technical solution is efficient, feasible and reproducible, and the distinctive features of the device allow you to obtain a given technical result, i.e. are essential.

The invention in the form as it is described in each of the claims can be carried out using the means and methods known from the prototype - patent US5682717, which became generally available before the priority date of the invention.

Therefore, the claimed technical solution meets the condition of patentability and industrial applicability.

The analysis of known technical solutions in this field of technology showed that the proposed technical solution does not follow explicitly from the prior art for a specialist, since no solutions have been identified that have features that coincide with its distinctive features, and in the identified such solutions, the knowledge of the influence of distinctive features on the technical result specified in the application materials.

Those. The claimed solution has features that are absent in the known technical solutions, and the use of these features in the claimed set of essential features makes it possible to obtain a new technical result - expanding the possibilities of loop joints in the construction of buildings by eliminating welding.

Consequently, the proposed technical solution can only be obtained by a creative approach and is not obvious to the average specialist in this field, i.e. has an inventive step in comparison with the state of the art.

The implementation of the claimed invention is achieved by the implementation of the specified purpose.

Columns 1, the ends of beams 2 and panels 3 are equipped with reinforcing loops 4 in the form of cables or steel loops embedded into the body of columns 1, beams 2 or panels 3, which, after installing reinforcing bars 4 and embedding the assembly, form a single rigid structural element.

The known solution of using PEIKO PVL cable loops or steel loops molded into panel structures is designed to increase the strength of buildings under extreme conditions by preventing progressive collapse. The known methods of hinged connection of prefabricated elements concerned only panel structures.

The problem to be solved by the invention is the universal use of a loop connection for all load-bearing elements of a building, when the frame elements are used in the building structure - columns 1 and beams 2.

The invention is implemented as follows.

In the factory, prefabricated elements are made - columns 1, beams 2 and panels 3, in the body of which loop connections 4 are installed.

The installation of the building begins with the installation and fixing of columns 1 or panels 3 in a vertical position.

Then, the missing element - panel 3 or column 1 - is inserted into the joints and fixed. Reinforcing bars 5 are inserted through the hole in the console 6 of the column 1. The length of the bars corresponds to the height of the panel 3 and the console part 6 of the column 1. The formwork is installed at the joint and the concrete is poured through the hole in the console 6 of the column 1.

Then, beam 2 is installed on the console 6 of adjacent columns 1, reinforcing bars 5 are inserted into loop joints 4, removable formwork is installed and concreting is carried out.

The use of this invention makes it possible to simplify the technology of erection of the underground and aboveground parts of the building frame for the subsequent installation of a panel, frame, monolithic or panel-monolithic building.

The use of the invention increases the reliability of buildings with the help of reinforcing rods 5 after monolithing of the nodal connection, it is more durable than welded and bolted connections, simplifying and reducing the complexity of installation work.

This is achieved by the fact that the joints of columns 1 with beams 2 and columns 1 with panels 3 are equipped with loop joints 4 and the possibility of installing reinforcing bars 5 for subsequent embedment of the joint.

Claims (4)

CLAIM 1. A precast-monolithic frame of a reinforcing-loop assembly building with its load-bearing elements, containing a concrete body of columns, beams and panels with steel hinges fixed in it and at least one reinforcing bar passed inside the loops, characterized in that the connection of the column with the panels made in the form of rows of conjugate loops placed on the column and on the panel, closed by a panel reinforcing bar passed through them, which is placed in an opening made in the column console so that its upper end is recessed into the body of the console, and the lower end is located at a distance from the console , underlying in relation to the panel to be connected, while the connection of the column with the beams is formed by three pairs of rows of loops, the middle of which is a continuation of the row of loops of the panel connection, and the two extreme rows of loops are formed by a combination of the loops of the column and the adjacent beams, each of the three rows of loops are closed by a beam reinforcing bar passed through them with a length not n rising height of the beam, and the step t ₁ between the loops in the zones of connection of the column with the beams is less than the step t ₂ between the loops in the areas of connection of the column with the panels, while after assembling the frame, all connections of its bearing elements are cast in concrete 2. Precast-monolithic building frame according to claim 1, characterized in that said steel hinges are made of a cable. 3. The precast-monolithic frame of the building according to claim 1, characterized in that a plastic corrugated sleeve is installed in the opening of the column console, in which a panel reinforcing bar is freely placed, and the space between them is filled with concrete. 4. The precast-monolithic frame of the building according to claim 1, characterized in that along the upper surface of each beam, loops are uniformly monolithic, coupled with loops, monolithic at the end of the floor slab connected to the beam, and a horizontal reinforcing bar is passed through these loops.