RU128636U1 - BASE ASSEMBLY JOINT REINFORCED CONCRETE COLUMN WITH FOUNDATION - Google Patents

Abstract

The junction of the precast reinforced concrete column with the foundation, including the base plate connected with the slab part of the pile-plate foundation, metal embedded parts of the column, characterized in that the embedded part located in the end of the reinforced concrete column is made in the form of a lower end plate with holes for anchor bolts and is equipped with corners welded to it with plates welded at an angle to the horizontal plane of the plates, forming with niche corners, anchor rods are welded to the side edges of the corners, and anchor bolts are passed through a steel plate located in the plate part of the pile-plate foundation.

Description

The utility model relates to the field of construction and is intended for multi-storey and high-rise buildings with increased column loads with a frame communication system and articulation of the column with the foundation.

Known joint reinforced concrete precast column with a foundation ("Guide to the construction of concrete and reinforced concrete structures of heavy concrete (without prestressing)", Moscow, Stroyizdat, 1978, Fig. 59), which includes a precast concrete column, the lower end of which is inserted into a foundation sub-column glass, which mates with the slab part of the foundation, and the slab part is supported on a natural foundation or on a pile foundation, depending on the engineering and geological conditions of the construction site. The gap between the faces of the glass and the faces of the column is filled with monolithic concrete during installation.

The disadvantage of this solution is the need for homologation of the site, which increases the complexity at low temperatures. Another drawback is the need for temporary fastening of the column to gain strength monolithic concrete. The need for alignment of the column in height and vertical will necessitate the use of conductors, which also increases the complexity and cost of installation work.

A known node connecting the reinforced concrete column with the foundation (patent RU 2314392 IPC E04B 1/38 publ. 10.01.2008), in which the metal embedded elements of the column are made in the form of four corners located at the corners of the column with shelves in the girth of the column so that the outer surface of the shelves coincides with the planes of the side surfaces of the column. Each of the shelves of the corner inside is equipped with reinforcing bars located at regular intervals along the length of the corner, alternately in planes intersecting at right angles parallel to the sides of the column. Reinforcing bars are rigidly connected with the corners and with the longitudinal reinforcing bars of the column, and the ends of each pair, coaxially located reinforcing bars, are rigidly connected to each other by segments of reinforcement. The corners are rigidly interconnected by plates mounted on four sides of the column in pairs, and the traverses are arranged in pairs on two sides of each corner. The traverses of each pair lie in mutually perpendicular planes parallel to the sides of the columns.

The main disadvantage of the known technical solution is the high consumption of metal, since the base plate is wider than the cross section of the column because of the need to attach a traverse to it, because of the presence of eight traverses and plates connecting the corners. In addition, the forces from the column to the base plate are transmitted only through the traverses and welds of the traverse mounting; no forces will be transmitted through the lower end, which reduces the bearing capacity of the assembly.

The main task solved by the utility model is to create a junction of the precast concrete column with the foundation, which has low labor and cost.

The technical result is to increase the bearing capacity of the node and reduce the consumption of metal.

The main technical result is achieved by the fact that in the junction of the precast concrete column with the pile-slab foundation, including a base plate connected to the slab part of the pile-slab foundation, metal embedded parts of the column, according to the proposed solution, a embedded part located at the end of the reinforced concrete column, made in the form of a lower end plate with holes for anchor bolts and equipped with corners welded to it with plates welded to the plates at an angle to the horizontal plane Forming a recess corners, to the sides over the welded anchor rods and the anchor bolts are passed through a steel plate disposed in the portion of plate-pile foundation slab.

The utility model is illustrated by the drawings, in which Fig. 1 shows a side view of the junction of a precast concrete column with a slab part of a pile-slab foundation, Fig. 2 shows a section AA along the seam between the upper surface of the pile-slab foundation and the end face of a precast concrete column, in Fig. .3 shows a BB section along the column section just above its end.

The junction of the precast reinforced concrete column 1 with the plate part of the pile-plate foundation 2 includes four anchor bolts 3 made of reinforcing bars and installed in the plate part of the pile-plate foundation. A thread is made in the upper part of the anchor bolts 3, the lower part is made in the form of a half ring. Anchor bolts 3 are passed through a steel plate 4 located on the surface of the slab part of the pile-base foundation 2. The assembly also includes a embedded part at the end of the reinforced concrete column 1, made in the form of a lower end plate 5 with four corner holes for anchor bolts 3 and equipped by corners 6 with plates 7 which are welded at an angle to the horizontal plane, corners 6 and plates 7 form niches, and anchor rods 8 are welded to the side faces of corners 6, anchoring the embedded part in the end of the column 1 .

The assembly of the junction of the precast column 1 with the slab part of the pile-slab foundation 2 is as follows. The lower adjusting nuts 9 are screwed onto the anchor bolts 3 and a reinforcing mesh 10 is installed, then the column 1 is installed so that the holes in the plate 5 of the column 1 embedded part are put on the anchor bolts 3 and the plate 5 rests on the quotation nuts 9. Using quotation nuts 9 adjust the height position and the deviation from the vertical of the column 1. After bringing the column 1 to the design position and securing with fixing nuts 11, the horizontal seam and niches are monolithic with fine-grained tensile concrete m 12.

The proposed technical solution, due to the features discussed above, has the most advanced design, which allows to simplify the process of column installation on the foundation, reduce the complexity and cost of work while maintaining the reliability of the site.

The utility model is used, for example, for buildings under construction under the experimental architectural and construction system "CASCADE".

Claims (1)

The junction of the precast reinforced concrete column with the foundation, including the base plate connected with the slab part of the pile-plate foundation, metal embedded parts of the column, characterized in that the embedded part located in the end of the reinforced concrete column is made in the form of a lower end plate with holes for anchor bolts and it is equipped with corners welded to it with plates welded at an angle to the horizontal plane with limiters forming niches with corners, anchor rods are welded to the side edges of corners, and anchor bolts are passed through a steel plate located in the plate part of the pile-plate foundation.

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