RU52887U1 - CONSTRUCTION OF REINFORCED CONCRETE - Google Patents

Abstract

The construction of reinforced concrete crossbar refers to the construction, namely to the construction of the crossbars of buildings and structures. To improve the operational and technical qualities of the reinforced concrete crossbar, while providing flexibility in the layout of rooms, reducing material consumption, increasing the speed of installation at the construction site, it is made with a horizontal lower shelf 3 with longitudinal reinforcement 4 and transverse reinforcement 5. Transverse reinforcement 5 of the lower shelf 3 is made in top 6 - straight reinforcing bars 8 located above the lower longitudinal reinforcement 9 of the reinforced concrete crossbar 1, brought into the body of this crossbar beyond face 11 of the lower shelf and neither days 7 of the transverse reinforcement made with a bend 10 and directed upwards. The transverse reinforcement 12 of the crossbar 1 is made in the form of clamps 13 of a trapezoidal shape. The upper lateral side 17 of the crossbar is made with a bevel 18. The end section 21 of the crossbar 1 is made with a embedded part 22 forming a mounting slot 23. directed downward and into the end 24. There is a through hole 26 in the 25 embedded part 22 equipped with anchor reinforcing bars 27 and 28 for wedges. The end section 21 can be made with vertical through holes 30 for passing anchor reinforcing bars from the column, in this case, the embedded part 31 made in the form of a supporting heel 32 is installed on the end section 21 of the crossbar. The end section 21 of the crossbar 1 can be made with a mortgage detail 40, made in the form of a vertical extension plate 41.

Description

The inventive utility model relates to construction, and in particular to the construction of crossbars of buildings and structures.

Known reinforced concrete crossbar reinforced with lower and upper working fittings (see Bergen RI Engineering constructions. - M .: Higher school, 1989, p. 244-245).

A disadvantage of the known crossbar is low operational and technical quality.

These shortcomings are due to the fact that the reinforced concrete crossbar reinforced with lower and upper working fittings is manufactured according to traditional technology, which does not allow for flexibility in the layout of rooms and at the same time increase the reliability of the crossbar and the speed of its installation at the construction site.

Also known is a reinforced concrete crossbar reinforced with lower and upper working fittings, while the upper fittings are made in the form of a pipe, which is part of the fluid system, including vertical tubes and hollow lenticular support pillows (see RF patent No. 2193638, IPC (7) E 04 C 3/20).

A disadvantage of the known crossbar is low operational and technical qualities, high material consumption, low installation speed at the construction site.

These disadvantages are due to the fact that the reinforced concrete crossbar reinforced with the lower and upper working reinforcement is made according to traditional technology, and a pipe filled with liquid is used as the upper reinforcement of the compressed zone, connected to hollow lenticular support pillows located in

the supporting parts of the crossbar, with intermediate vertical tubes, which does not allow for flexibility in the layout of the rooms, and also reduces the reliability of the crossbar, in addition, the use of pipes filled with liquid as working reinforcement does not lead to a decrease in material consumption.

Also known is the prototype construction of a reinforced concrete crossbar of a connecting frame, including a lower shelf, longitudinal and transverse reinforcement of a crossbar of a lower shelf, in which the reinforcement of the shelf is made with closed clamps (see. "A guide to designing concrete and reinforced concrete structures from heavy and light concrete without prestressing reinforcement "To SniPu 2.03.01-84, M., Central Institute of Typical Design, 1980.).

The disadvantage of such a crossbar is low operational and technical qualities, high material consumption, low installation speed at the construction site.

These shortcomings are due to the fact that the crossbar has a large shelf height, limiting its use in the construction of civil buildings, in addition, the connection of the known crossbar with the column is performed by welding on the embedded part located on the concrete console of the column, which complicates the installation of the crossbar at the construction site.

The technical result of this utility model is to increase the operational and technical qualities of a reinforced concrete crossbar, while at the same time providing flexibility in the layout of rooms, reducing material consumption, increasing the speed of installation at a construction site.

The technical result is achieved by the fact that in the known construction of a reinforced concrete crossbar, including a lower shelf, longitudinal and transverse reinforcement of the crossbar of the lower shelf,

according to a utility model, that the transverse reinforcement of the lower shelf is made in the form of upper and lower transverse reinforcement, and the upper transverse reinforcement of the lower shelf is made in the form of straight reinforcing bars located above the lower longitudinal reinforcement of the reinforced concrete crossbar, and the lower transverse reinforcement of the lower shelf is made with bending and directed upward, while the upper and lower transverse reinforcement of the lower shelf is located with a certain step, and the transverse upper reinforcement of the lower shelf is inserted into the body of the reinforced concrete crossbar and the edge of the lower shelf, moreover, the transverse reinforcement is made in the form of trapezoidal clamps, the bolt contains through transverse holes for skipping the connecting rods laid in the inter-plate seams of the plates and the upper side surface of the bolt is made with a bevel, the end section of the bolt is made with the embedded part forming the mounting a slot directed downward and into the end of the crossbar, in the upper part of which there is a through hole for wedges, and the embedded part is equipped with anchor reinforcing bars, which, in its upper part They are located parallel to the horizontal axis of the reinforced concrete crossbar and with anchor reinforcing rods attached to the lower plate of its housing, initially directed upwards, and then, with a bend, directed parallel to the horizontal axis of the crossbar X-X, vertical through holes are made on the end section of the crossbar, designed to the passage of the anchor reinforcing bars from the column, at the end section of the crossbar, a embedded part is installed in the form of a support heel in the lower part of the mounting gap, while the mounting gap is directed and up and to the end of the crossbar and contains the main anchor elements attached rigidly on both side surfaces of the supporting heel and additional anchor elements that are directed parallel to the horizontal axis of the crossbar XX on

the end section of the crossbar is installed made in the form of a vertical extension plate, a part of which is released behind the end of the crossbar, a embedded part containing the main anchor elements fixed rigidly on both side surfaces in its middle part, directed downward and additional anchor elements directed parallel to the horizontal axis of the crossbar X -X.

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

Unlike analogs and prototypes, the construction of the claimed reinforced concrete crossbar in the system of prefabricated overlapping will satisfy such requirements for crossbars, such as the versatility of using a precast reinforced concrete crossbar, that is, providing the possibility of laying a reinforced concrete crossbar in different directions, regardless of the location of internal walls and partitions, which in turn, provides flexibility in the layout of the premises. The implementation of the lower flange of the crossbar with the proposed reinforcement scheme will allow it to be lower in height, unlike the analogue object, and will help to hide it in a suspended ceiling or fit into the interior design. The presence of a side bevel for expanding the seam between the end face of the floor slab and the side face of the crossbar increases the technical and operational qualities of the inventive crossbar due to the convenience of laying the connecting rods and laying the concrete mixture in the seam, as well as to increase the strength and reliability of the overhang of the lower shelf, in addition, lateral bevel of the crossbar for expansion of the seam simplifies the execution of work on sealing joints and while reducing the design width of the shelf reduces the material consumption of reinforcing the crossbar, and, at the same time, reduces t material consumption of the crossbar as a whole. The proposed crossbar design makes it possible

to make and install the upper and lower reinforcement of the lower flange regardless of the main reinforcement of the crossbar, which simplifies the manufacture of reinforced concrete crossbar. Insertable embedded parts of the inventive crossbar are manufactured and installed in the formwork regardless of the main frame of the crossbar, which allows you to organize highly efficient production of these embedded parts, as well as to provide high-speed installation at the construction site.

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 invention, allowed to establish that the applicant did not find an analogue characterized by features identical to those of the claimed utility model “Reinforced concrete crossbar construction”, and the definition from the list of identified analogues of the prototype, as the closest in the totality of the characteristics of the analogue, allowed to identify the set of significant the relation to the technical result perceived by the applicant as distinctive features in the claimed object, set forth in the utility model formula.

Therefore, the claimed utility model meets the criterion of "novelty," according to current legislation.

The set of essential features characterizing the essence of the claimed design of reinforced concrete crossbars can be repeatedly used in the production of similar reinforced concrete crossbars with obtaining a technical result, which consists in improving operational and technical qualities, allows us to conclude that it meets the criterion of "industrial applicability".

The essence of the claimed utility model is illustrated by an example of a specific implementation, where: - Fig. 1 shows a general view of a reinforced concrete crossbar with an embedded part forming an assembly slit at the end;

- figure 2 shows a fragment of the end of the bolt with the embedded part in the form of a vertical extension plate;

- figure 3 shows a fragment of the end of the bolt with through holes and the embedded part in the form of a supporting heel front view of the embedded part in the column;

- figure 4 shows the reinforcement of a reinforced concrete crossbar in cross section;

- figure 5 shows the reinforcement of the flange of the crossbar in cross section;

- figure 6 shows the connection node of the floor slabs with the reinforced concrete crossbar in the cross-sectional seam;

- figure 7 shows a section 1-1 of the node connecting the plates along the inter-seam;

- Fig. 8 shows the upper reinforcement of a reinforced concrete crossbar shelf;

- figure 9 shows the bottom reinforcement of the reinforced concrete crossbar shelf;

- figure 10 shows a section 2-2 of the embedded part forming the mounting gap directed downward and at the end of the crossbar;

- figure 11 shows a embedded part forming a mounting gap directed downward and at the end of the crossbar; a connection diagram of two embedded parts in columns of square and round cross-section;

- Fig.12 shows a embedded part in the form of a supporting heel with anchor rods;

- Fig.13 section 3-3 embedded parts in the form of a supporting heel with anchor rods;

- Fig.14 section 4-4 embedded parts in the form of a vertical extension plate with anchor rods;

- Fig.15 embedded part in the form of a vertical extension plate with anchor rods.

The reinforced concrete crossbar 1 in the lower part 2 is made with a horizontal lower shelf 3 with longitudinal reinforcement 4 and transverse reinforcement 5. The transverse reinforcement 5 of the lower shelf 3 is made in the form of the upper 6 and lower 7 transverse reinforcement, and the upper transverse reinforcement 6 of the lower shelf is made in the form of straight lines reinforcing rods 8 located above the lower longitudinal reinforcement 9 of the reinforced concrete crossbar 1, and the lower transverse reinforcement 7 of the lower shelf 3 is made with a bend 10 and is directed upwards. The upper 6 and lower 7 transverse reinforcement of the lower shelf 3 is located with a certain step "A". The transverse upper reinforcement 6 of the lower shelf 3 is inserted into the body of the reinforced concrete crossbar 1 beyond face 11 of the lower shelf. The transverse reinforcement 12 of the reinforced concrete crossbar 1 is made in the form of clamps 13 of a trapezoidal shape. The reinforced concrete crossbar 1 contains through transverse holes 14 for passing through the connecting rods laid in the interplate seams 15 of the slabs 16. The upper side face 17 of the reinforced concrete crossbar 1 is made with a bevel 18 to expand the seam 15 between the ends 19 and 20 of the plates and the side faces 17 and 18 of the reinforced concrete crossbar 1. The end section 21 of the reinforced concrete crossbar 1 is made with a embedded part 22 forming a mounting gap 23 directed downward and into the end 24 of the reinforced concrete crossbar 1. In the upper part 25 of the embedded part 22, there is a through hole 26 for wedges. The embedded part 22 is equipped with anchor reinforcing bars 27 and 28 located in its upper part 25 and lower part 29, respectively, which are directed parallel to the horizontal

axis X-X of the reinforced concrete crossbar 1. The end section 21 of the reinforced concrete crossbar 1 can be made with vertical through holes 30, designed to pass the anchor reinforcing bars from the column. In this case, at the end section 21 of the reinforced concrete crossbar 1, the embedded part 31 is installed, made in the form of a support heel 32 in the lower part 33 of the mounting slot 34, the mounting slot 34 being directed upward and into the end face 35 of the reinforced concrete crossbar 1 and contains the main anchor elements 36, rigidly attached to both side surfaces 37 of the support foot 32. The mounting slot 34 also contains additional anchor elements 38, made with a bend 39 and then directed along the horizontal axis X-X of the reinforced concrete crossbar 1. The end section 21 is reinforced concrete crossbar 1 can be made with a embedded part 40, which is made in the form of a vertical extension plate 41, part 42 of which is released over the end 43 of the reinforced concrete crossbar 1 and contains the main anchor elements 44 attached rigidly on both side surfaces 45 in the middle part 46 of the vertical remote plates 41 directed vertically downwards and then with a bend 47 directed along the horizontal axis XX of the reinforced concrete crossbar 1. Additional anchor elements 48 are attached to the bottom 49 of the vertical extension layer us 41 and directed along a horizontal axis X-X of concrete bolt 1. To avoid edge chipping on the bottom shelf 50 3 applies an elastic gasket 51 made of neoprene in the bearing zone of plates 16 overlap. For the joint operation of reinforced concrete crossbar 1 and floor slabs 16, laying of ties in the form of reinforcing rods 52 in the seam 15 between the ends 19 and 20 of the floor slab 16 and the side faces 17 and 18 of the reinforced concrete crossbar 1, as well as in inter-plate seams 15 of the floor slabs with their passage is provided through the transverse holes 14

in reinforced concrete crossbar 1 with subsequent sealing of joints 15 and transverse holes 14 with flowing concrete using sticky aggregate.

Step “A” of the working upper 6 and lower 7 transverse reinforcement of the lower shelf 3 is determined depending on the intensive load transmitted from the slabs 16 of the floor slabs supported on the reinforced concrete lower flanges 3. To ensure anchoring, the upper transverse reinforcement 6 of the lower shelf 3 is passed into the body of the reinforced concrete crossbar 1 by the length of the anchoring and laid on top of the lower longitudinal reinforcement 9 of the reinforced concrete crossbar 1. The transverse reinforcement of the crossbar is made in the form of clamps 13 of a trapezoidal shape.

The use of this utility model “Reinforced concrete crossbar construction” will increase the operational and technical qualities of reinforced concrete crossbar, while at the same time providing flexibility in the layout of rooms, reducing material consumption, increasing the speed of installation at a construction site.

Claims (8)

1. The design of reinforced concrete crossbar, including a lower shelf, longitudinal and transverse reinforcement of the crossbar and lower shelf, characterized in that the transverse reinforcement of the lower shelf is made in the form of upper and lower transverse reinforcement, and the upper transverse reinforcement of the lower shelf is made in the form of straight reinforcing bars located above the lower longitudinal reinforcement of the reinforced concrete crossbar, and the lower transverse reinforcement of the lower shelf is bent and directed upward, while the upper and lower transverse reinforcement of the lower shelf is located It is married at a certain step, and the transverse upper reinforcement of the lower flange is inserted into the body of the reinforced concrete crossbar beyond the edge of the lower flange. 2. The construction of the reinforced concrete crossbar according to claim 1, characterized in that the transverse reinforcement is made in the form of trapezoidal clamps. 3. The construction of the reinforced concrete crossbar according to claim 1, characterized in that the crossbar contains through transverse holes for the passage of the connecting rods laid in the inter-plate seams of the plates. 4. The construction of the reinforced concrete crossbar according to claim 1, characterized in that the upper side surface of the crossbar is made with a bevel. 5. The construction of the reinforced concrete crossbar according to claim 1, characterized in that the end section of the crossbar is made with a embedded part forming a mounting slot directed downward and into the end of the crossbar, in the upper part of which there is a through hole for the wedges, and the embedded part is equipped with anchor reinforcing bars which are located in its upper part parallel to the horizontal axis of the reinforced concrete crossbar and with anchor reinforcing rods attached to the lower plate of its body, initially directed upwards, and then, with a bend, directed parallel to the horizontal axis of the crossbar XX. 6. The construction of the reinforced concrete crossbar according to claim 1, characterized in that at the end section of the crossbar there are vertical through holes designed to allow the passage of anchor reinforcing bars from the column. 7. The construction of the reinforced concrete crossbar according to claim 1, characterized in that at the end section of the crossbar there is a embedded part in the form of a support heel in the lower part of the mounting gap, while the mounting gap is directed up and into the end of the crossbar and contains the main anchor elements fixed rigidly to both lateral surfaces of the supporting heel and additional anchor elements that are parallel to the horizontal axis of the crossbar XX. 8. The construction of the reinforced concrete crossbar according to claim 1, characterized in that at the end section of the crossbar there is installed a vertical extension plate, a part of which is extended over the end of the crossbar, a embedded part containing the main anchor elements fixed rigidly on both side surfaces in its middle parts directed downward and additional anchor elements directed parallel to the horizontal axis of the crossbar XX.