RU63383U1 - COMBINATION ASSEMBLY WITH REINFORCED CONCRETE COLUMN - Google Patents

Abstract

The junction of the crossbar with the reinforced concrete column relates to construction, namely to the connection of frame elements of buildings and structures. To simplify the manufacturing technology of reinforced concrete linear elements of the frame and simplify installation on a construction site, it includes a support console 3, a embedded part 4 in the column 2 and a embedded part 5 at the end portion 6 of the crossbar 1, as well as one or more sets of embedded parts 7 in the reinforced concrete column 2, from the formation of the socket 8, into which the support console 3 is inserted, made detachable, fixed by means of a wedge connection 9, on which the crossbar 1 is installed and fixed using a set of embedded parts 10 at the end section 6, forming a mounting slit 11, directed downward and to the end 12 of the crossbar 1. The set of embedded parts 7 in the reinforced concrete column 2 is equipped with anchors and consists of a housing 13, includes upper anchors 14 and lower anchors 15 and anchor 16. Reinforcement 17 for remote part 18 of the support console 3, is configured to enter it into a vertical through hole 19 in the embedded part 5, made with the formation of the mounting slit 11, directed downward and into the end 12 of the crossbar 1 and connected with the detachable support console 3, with the formation in its upper part 20 squos The leg openings 19 for the fasteners. The embedded part 5 includes a supporting end U-shaped plate 21, enclosing the housing 22 for the formation of the mounting gap 11 when forming the crossbar and horizontally extending along the axis of the crossbar main 23 and additional 24 anchors. The embedded part of the column 2 contains a groove 28, and the detachable support console 3 contains a spike 29 in the upper part 30 for insertion into the aforementioned groove of the embedded part of the column 1. 1 main. f-ts; 9 add. f-ts f-ly, 11 ill.

Description

The proposed utility model relates to construction, namely to the connection of frame elements of buildings and structures.

A butt joint of a reinforced concrete crossbar and a column is known (see AC of the USSR No. 924288, IPC Е04В 1/38, publ. 15.11.82), including flat embedded parts of the crossbar and columns and a connecting element welded to them, and it is equipped with an additional connecting element located parallel to the end edge of the connecting element at its junction with the embedded part of the column and rigidly attached to them, while the connecting element has a constant cross-sectional area, and the cross-sectional area of the additional connection the body element is equal to or greater than the area of the transverse connecting element, while the additional connecting element is made in the form of a plate with a rectangular cross-sectional shape or in the form of a rod with a circular cross-sectional shape.

A disadvantage of the known connection of the crossbar with the column of the reinforced concrete frame is the high complexity of mounting the crossbar with the column, and the long lead time for installation.

This disadvantage is due to the high complexity of the factory manufacturing of the formwork form of the column and the resulting complexity of the factory manufacturing of the columns themselves and the complexity of connecting the crossbar with the column.

Also known is the junction of the cross-beams of the T-section with the column of the reinforced concrete frame of the building (see USSR AS No. 10496390, IPC EV04 1/38, publ. 23.10.83), containing

column consoles, support parts of crossbars, interconnected embedded plates of consoles and support parts of crossbars installed at the level of their shelves in the girth of the column reinforcing inserts fixed to embedded parts on the side borders of the column, and monolithic concrete, with crossbars installed with the shelves down, made trimming equal to the height of the consoles, and with the releases of the working reinforcement, while the outlets from the shelves are rigidly connected to the reinforcing inserts, and the pressure outlets from the walls are rigidly connected to the column, for which the column is equipped with embedded reinforcing rods with ends protruding beyond its edges, in addition, the supporting part of each crossbar is made in the form of a parallelepiped, the width of which is less than the width of its wall or in the form of two vertical plates released from the end of the crossbar.

A disadvantage of the known node connecting the crossbars of the T-section with the column of the reinforced concrete frame of the building is the high complexity of the node itself and the mounting of the crossbar with the column, and the long lead time for the installation.

This disadvantage is due to the high complexity of the factory manufacturing of the formwork form of the column and the consequent complexity of the structural design of the crossbars and the columns themselves with embedded parts and the great complexity of manufacturing the crossbars and columns, as well as the complexity of connecting the crossbar with the column.

Also known, adopted for the prototype, the connection node of a reinforced concrete column of a building with a crossbar (see patent for a utility model of the Russian Federation No. 48335, IPC Е04В 1/38, publ. 10.10.2005), including a support console, embedded part in the column and embedded part on the end section of the crossbar, and it contains one or more sets of support consoles and embedded parts equipped with anchors in the reinforced concrete column and

embedded parts at the end section of the crossbar, each of which is interconnected by one or more connecting studs, each embedded part of the reinforced concrete column forming a socket with a through hole in the center, a groove in the upper part and a protrusion in the lower part for fixing the supporting console, made in a detachable supporting table of a U-shaped box section with an opening on the rear wall to provide contact mating on the upper and lower vertical surfaces when fixing the support while the embedded part at the end section of the crossbar includes a base plate with a transverse vertical rib installed with the formation of a through hole for mounting needs, with slots for installing a connecting stud connecting the column, the embedded part with the supporting table and the crossbar using fasteners in a single assembly , the anchors of the embedded part in the reinforced concrete column of the building are made in the form of reinforcing bars fixed to its lower plate, oriented perpendicular to it and parallel to rtikalnoy axis Y-Y concrete columns, the anchor inlay part on the end portion of the crossbar are designed as reinforcing rods secured to the rear wall and arranged parallel to the horizontal axis X-X crossbar, and BS item concrete column equipped with a hood, installed at an upper portion thereof.

A disadvantage of the known node connecting the reinforced concrete columns of the building with the crossbar is the complexity of the manufacturing technology of reinforced concrete linear elements of the frame, as well as the simplification of installation on the construction site.

This drawback is due to the complexity of the factory structural implementation of the crossbars and directly

columns with embedded parts, as well as the complexity of installation, due to the complexity of the connection of the crossbar with the column.

The technical result of this utility model is to simplify the manufacturing technology of reinforced concrete linear elements of the frame, as well as to create a fast-mounted fully assembled frame of a multi-storey building by simplifying installation on a construction site.

The technical result is achieved by the fact that in the known node connecting the crossbar with the reinforced concrete column, including the support console, the embedded part in the column and the embedded part at the end section of the crossbar, according to the utility model, it contains one or more sets of embedded parts in the reinforced concrete column, with the formation slots into which the support console is inserted, made detachable, fixed by means of a wedge connection, on which the crossbar is installed and fixed using a set of embedded parts Alley at the end section, forming a mounting gap directed down and to the end of the crossbar, each set of embedded parts is equipped with anchors. The embedded part in the column consists of a housing and includes upper and lower horizontal anchors and anchors extending downward along the axis of the column and attached below to the body, and the reinforcing outlet on the remote part of the support console is made with the possibility of entering it during installation in a vertical through hole in the embedded part of the crossbar, in addition, the embedded part at the end section ri the gel is made with the formation of a mounting gap directed downward and into the end of the bolt and connected with a detachable support console, with the formation in its upper part of the through hole for the clamps, as well as the mentioned embedded part at the end

section of the crossbar, includes a supporting end U-shaped plate, enclosing the housing for the formation of the mounting gap when forming the crossbar and horizontally extending along the axis of the crossbar of the main and additional anchors, while the main anchor of the embedded part of the crossbar is made in the form of a reinforcing bar rigidly attached to the lap plate from top to bottom and further with a bend it is directed along the axis of the crossbar, and the anchors of the carrier plate are placed symmetrically with respect to the vertical axis of the mounting gap and are not attached to the side surface a support plate, the additional anchor of the crossbar embedded part is made in the form of a reinforcing bar, is rigidly butt-mounted in the upper part to the carrier plate of the embedded crossbar component and directed along the crossbar axis, the embedded part of the column contains a groove, and the detachable support console contains a spike in the upper part to enter into the above-mentioned groove of the embedded part of the column.

Between the distinguishing features and the achieved technical result, there is the following causal relationship.

Unlike analogues and prototypes, the construction of the assembly, taking into account the fact that one or more sets of embedded parts in a reinforced concrete column, is made with the formation of a socket into which a support console is inserted, made detachable, fixed by means of a wedge connection, onto which reinforced concrete is mounted and fixed crossbar with the help of a set of embedded parts at the end section, forming a mounting gap directed downward and at the end of the reinforced concrete crossbar, creates a fast-mounted unit for connecting the glands a concrete crossbar with a reinforced concrete column of a prefabricated multi-storey building frame, providing instant mounting fastening of the crossbar for subsequent

installation of multi-hollow slabs “dry” on the crossbar, which helps to simplify installation on a construction site. Simplification of the mounting of the crossbar on the column, elimination of assembly welds, reduction in the number of assembly elements of the assembly and due to the wedge connection, which accepts both vertical, bending, shearing forces and torques, makes it possible to achieve a high installation speed. Moreover, due to the exclusion of protruding embedded products and the separate manufacture of embedded products in specialized industries equipped with engineering technology, a simplification of the manufacturing technology of precast concrete columns and crossbars is achieved. The design of the claimed node connecting the crossbar with the reinforced concrete column of the building, in the form of one or more sets of embedded parts in the reinforced concrete column and embedded parts at the end section of the crossbar, each of which is equipped with anchors and connected to each other by a support console, made detachable in the form of a vertically mounted plate , allowed, at the same time, to simplify the design of this unit and simplify, accordingly, its installation and reduce the time of installation of the crossbar with the column, due to the reduction of labor-intensive ti during installation and assembly time of the crane at the construction site. At the same time, the construction of the embedded part in the reinforced concrete column of the building, made taking into account its fastening in the reinforced concrete column and with the possibility of forming a nest with grooves and recesses for fixing the protruding parts of the supporting detachable console, in conjunction with the construction of the embedded part on the end section of the crossbar made with the formation of a mounting gap directed down and at the end of the bolt connected with the aforementioned detachable support console, will allow not only to create

fast-mounted prefabricated frame of a multi-storey building by simplifying installation on the construction site, but also at the same time increase the reliability, strength and bearing capacity of the junction of the crossbars with the reinforced concrete column of the building.

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed utility model, allowed to establish that the applicant did not find a source characterized by features identical to all the essential features of the claimed utility model. According to the information available to the applicant, the set of essential features of the claimed utility model is not known from the prior art, which allows us to conclude that the utility model “Node connecting the crossbar with a reinforced concrete column” meets the criterion of “novelty”. The determination from the list of identified analogues of the prototype, as the closest analogue in terms of the totality of features, made it possible to identify the set of distinguishing features that are essential to the applicant’s technical result in the claimed junction of the crossbar with the reinforced concrete column described in the utility model formula. Therefore, the claimed utility model meets the condition of "novelty."

The search results also showed that the claimed utility model does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of the claimed utility model to achieve a technical result is not revealed from the prior art.

Therefore, the claimed utility model meets the condition of "non-obviousness."

Thus, the above information indicates that when using the node connecting the crossbar with the reinforced concrete column of the claimed utility model of the following set of conditions. The claimed utility model is designed to connect the frame elements of buildings and structures. For the claimed utility model, in the form described in the utility model formula, the possibility of connecting the crossbar with the reinforced concrete column using the example of the specific embodiment described in the application is confirmed. The design embodying the claimed node connecting the crossbar with a reinforced concrete column during its implementation is able to achieve the achievement of the technical result perceived by the applicant, therefore, the claimed utility model meets the condition of "industrial applicability".

The essence of the claimed utility model "The node connecting the crossbar with a reinforced concrete column" is illustrated by an example of a specific implementation, where Fig. 1 shows a fragment of the frame of a multi-story building with columns, crossbars and nodes for their connection;

figure 2 - shows the connection node of the crossbars with the column from two sides;

figure 3 is a section 1-1 of the node connecting the crossbar with the column;

figure 4 - embedded part on the end section of the crossbar;

figure 5 is a set of embedded parts of the node connecting the crossbar with the column;

figure 6 is a General view of the embedded parts of the column;

Fig.7 is a section 2-2 of the embedded parts of the column;

on Fig - section 3-3 embedded parts of the column;

Fig.9 is a section 4-4 of the embedded parts at the end section of the crossbar;

figure 10 is a General view of the embedded parts on the end section of the crossbar;

11 is a diagram of a cutting sheet for the manufacture of a support console.

The junction of the crossbar 1 with the reinforced concrete column 2, includes a support console 3, the embedded part 4 in the column 2 and the embedded part 5 at the end section 6 of the crossbar 1. The junction of the crossbar 1 with the reinforced concrete column 2, contains one or more sets of embedded parts 7 in the reinforced concrete column 2, from the formation of the socket 8, into which the support console 3 is inserted, made detachable, fixed by means of a wedge connection 9, on which the crossbar 1 is installed and fixed using a set of embedded parts 10 at the end section 6, uyuschih mounting slot 11, directed downward and end crossbars 12 1. Each set of embedded parts 7 in column 2 is equipped with a reinforced concrete anchors. Each set of embedded parts 7 in the column 2 consists of a housing 13, and includes upper anchors 14 and lower horizontally extending anchors 15 and anchors 16, extending downward along the axis X-X of column 2 and attached from below to the housing 13. Reinforcement 17 on the remote part 18 of the support console 3, is configured to enter it when mounted in a vertical through hole 19 in the embedded part 5 at the end portion 6 of the crossbar 1, which is formed with a mounting gap 11 directed downward and into the end 12 of the crossbar 1 and connected to the detachable support console 3, with about mation in its upper portion 20 of the through-holes 19 for fasteners (not shown). The embedded part 5 at the end portion 6 of the crossbar 1, includes a supporting end U-shaped plate 21, enclosing the housing 22 for the formation of the mounting gap 11 when

molding of a crossbar and horizontally extending along the axis of the crossbar main 23 and additional 24 anchors. The main anchor 23 of the embedded part 5 of the crossbar 1 is made in the form of a reinforcing bar rigidly attached to the supporting end U-shaped plate 21 with an overlap from top to bottom and then with a bend 25 directed along the axis U-U of the crossbar. The anchor of the supporting end U-shaped plate 21 is placed symmetrically with respect to the vertical axis ZZ of the mounting slot 11 and attached to the side surface 26 of the supporting end U-shaped plate 21. The additional anchor 24 of the embedded part 5 of the crossbar 1 is made in the form of a reinforcing bar, is rigidly attached end-to-end part 27 to the supporting end U-shaped plate 21, the embedded part 5 of the crossbar 1 and directed along the axis YY of the crossbar. The embedded part of the column 2 contains a groove 28 (FIG. 6 and FIG. 5), and the detachable support console 3 contains a spike 29 (FIG. 5) in the upper part 30 for insertion into the aforementioned groove of the embedded part of the column 1.

Installation of the junction of the crossbar with a reinforced concrete column is as follows.

First, the support console 3 is installed in the socket 8 and secured with a wedge connection 9. In this case, the support consoles are installed in the nests of columns adjacent to the crossbar, to the ends of the crossbar supposed in the future. In the socket of the embedded part 4 of the reinforced concrete column of the building 1, a vertically mounted supporting detachable console 3 is fixed, providing reliable rigid fixing of the supporting detachable console 3 with the embedded part 4 of the reinforced concrete column of the building 1. Using the mounting slot 11, the embedded part 5 is connected at the end section 6 of the crossbar 1 with supporting detachable console 3, which in turn is connected with the embedded part 4 of the reinforced concrete column of building 2. Installation is made up to the stop of the front plate

the embedded part 5 at the end portion 6 of the crossbar 1 having a U-shape, with the front plate of the embedded part 5 of the crossbar 1, made in the form of a U-shaped frame. When mounting the crossbar 1 with the reinforced concrete column of the building 2, the clamps of the crossbar 1 are used, made in the form of wedges, which are lowered into the through hole of a rectangular shape in the body of the embedded part 5 at the end section of the crossbar 1.

The assembled unit is protected by a corrosion-resistant coating, and then monolithic.

The application of the proposed utility model "The unit of connection of the crossbar with the reinforced concrete column" will simplify the manufacturing technology of reinforced concrete linear elements of the frame, and will also allow you to create a quick-assembled prefabricated frame of a multi-storey building by simplifying installation on a construction site.

Claims (10)

1. The junction of the crossbar with a reinforced concrete column, including the support console, the embedded part in the column and the embedded part at the end section of the crossbar, characterized in that it contains one or more sets of embedded parts in the reinforced concrete column with the formation of a socket into which the supporting console is inserted, made detachable, fixed by means of a wedge connection, onto which the crossbar is installed and fixed with the help of a set of embedded parts on the end section, forming a mounting gap directed downward and at the end of the crossbar. 2. The node connecting the crossbar with a reinforced concrete column according to claim 1, characterized in that each set of embedded parts is equipped with anchors. 3. The junction of the crossbar with the reinforced concrete column according to claim 1, characterized in that the embedded part in the column consists of a housing, and includes an upper and lower anchor, horizontally extending, and an anchor extending down along the axis X-X of the column and attached from below to case. 4. The junction of the crossbar with the reinforced concrete column according to claim 3, characterized in that the embedded part of the column contains a groove, and the detachable support console contains a spike in the upper part for insertion into the aforementioned groove of the embedded part of the column. 5. The junction of the crossbar with the reinforced concrete column according to claim 1, characterized in that the reinforcing outlet on the remote part of the support console is configured to be inserted during installation into the mounting slot directed downward in the embedded part at the end section of the crossbar. 6. The junction of the crossbar with a reinforced concrete column according to claim 1, characterized in that the embedded part at the end section of the crossbar is formed with a mounting gap directed downward and at the end of the crossbar, and is connected with a detachable support console, with the formation of a through openings for clamps. 7. The junction of the crossbar with a reinforced concrete column according to claim 1, characterized in that the embedded part at the end section of the crossbar is equipped with a supporting end U-shaped plate, a enclosing body for the formation of a mounting gap when forming the crossbar and the main and additional horizontally extending along the YY axis of the crossbar anchors. 8. The junction of the crossbar with the reinforced concrete column according to claim 7, characterized in that the main anchor of the crossbar embedded part is made in the form of a reinforcing bar rigidly attached to the supporting end U-shaped plate with an overlap from top to bottom and then directed along the Y-Y axis of the crossbar with bending. 9. The junction of the crossbar with the reinforced concrete column according to claim 7, characterized in that the anchor of the carrier plate is placed symmetrically relative to the vertical axis Z-Z of the mounting slit and attached to the side surface of the carrier end U-shaped plate. 10. The junction of the crossbar with a reinforced concrete column according to claim 7, characterized in that the additional anchor of the embedded part at the end section of the crossbar is made in the form of a reinforcing bar rigidly attached end-to-end in the upper part to the supporting end U-shaped plate of the embedded part of the crossbar and is directed along YY axis of the crossbar.