UA62847A - Joint of reinforced-concrete column and wall - Google Patents

Abstract

Joint of reinforced-concrete column and wall, where the column and the wall are connected in the ends by means of building mortar and connecting elements. The column and the wall are made with corresponding to each other end prism bosses.

Description

Description of the invention

The invention relates to nodes connecting long-dimensional load-bearing building elements with walls or 2 partitions of a building. Under the term "column", in addition to the columns themselves, you should also understand pylons, racks and supports.

The invention is intended for use in the construction of monolithic frame houses.

The construction of monolithic frame houses began to be used in Ukraine only recently. For decades, mostly panel houses, so-called "Khrushchevki", were built. Therefore, domestic solutions are known from the state of the art, which mainly concern the connections of reinforced concrete columns with panels. 70 So, for example, in the Author's Certificate of the USSR, 1446247, publ. 23.12.88. Bul. Mo47 proposed to connect the columns to the panels using cables passed through the loops-releases on the panels. It is clear that it is not suitable for connecting a column with a brick wall.

However, separate technical solutions related to the connection of reinforced concrete columns with brick self-supporting walls already existed. All of them had common features: the column and the wall were connected with the help of 12 connecting elements in the form of a rod or channel. For example, in the Author's Certificate of the USSR, 1539277, publ. 30.01.90. Bul. Mo4 described such a node.

The joint of a wall with a reinforced concrete column includes a wall made of brick and a column, which are connected by means of connecting elements made in the form of channels. The channels are installed in such a way that a slight free movement of the wall relative to the columns is ensured. Channels are located discretely, every 1.2 m. Elastic elements are placed between the wall and the column. This solution is aimed at increasing the seismic resistance of the building and, indeed, this task is being solved. However, with modern requirements for thermal insulation and the appearance of buildings, the presence of such gaps between the wall and the column is unacceptable.

In addition, in the constructions of modern monolithic frame houses, the columns are not attached to the inner surface of the walls, but to the ends. Thus, the described node is not adapted to modern designs.

From Japanese patent Mo20012448248, publ. 14.09.2001 a known technical solution, which is the closest analogue of the proposed node.

The joint of a wall with a reinforced concrete column includes a wall and a column, which are connected at the ends with the help of construction mortar and connecting elements. These elements are made in the form of metal profiles with a U-shaped section, which are attached on one side to the plane of the column by means of bolts. OTHER in the side (the top of the U-shaped element) the connecting elements are in contact with a section of the side surface of the wall, forming something similar to a protrusion.

The main disadvantage of this unit is that it alone cannot provide a reliable connection between the wall and the column. It is used only together with the auxiliary wall, which clamps the section of the fixed wall between the Ha column and the connecting elements. 3o The reason for the lack of reliability of such a node is a big difference in the characteristics of the material (metal) from which the connecting elements are made, and the material (concrete) from which the wall is made. Forming connections, they work under the influence of deformations in completely different ways. For example, one part of the node is stretched, while the other remains unchanged. As a result, the node will collapse, the brick wall will crack. "

The task to be solved by the invention is to increase the reliability of the node connecting the wall to the C-column. c The task is solved by the fact that in the known junction of the reinforced concrete column with the wall, in

In which the column and the wall are connected at the ends with the help of construction mortar and connecting elements, according to the invention, the indicated column and the wall are made with corresponding end prismatic protrusions.

The projections of the column and the wall, which are connected by end surfaces parallel to the longitudinal axis of the wall, form a transition area. b At the same time, the protruding part of the column becomes a part of the wall. ka The elasticity value for the transition section is the arithmetic mean of the column and wall elasticity values.

The resulting loads are transmitted from the columns to the walls not as sharply as usual, which excludes the occurrence of cracks in them. The reliability of the connection node and the building as a whole increases. "Iz" 20 It is most appropriate when the specified wall is made of building elements that are laid in rows, for example, bricks. In this way, it is easy to form wall protrusions. There is no gap between the column and the wall, which also contributes to increased reliability.

For an even greater increase in reliability, it is advisable to perform the specified protrusions along the entire height of the column.

It is even better when the specified protrusions are also made along the entire height of the wall. 29 Connecting elements in the form of reinforcing rods, which are located parallel to the longitudinal axis of the wall in. additionally strengthen the node.

The essence of the invention is explained by the drawings, where in fig. 1-3 schematically shows a section of a node in various variants of the invention. These examples are provided for illustrative purposes only and are not intended to limit the scope of the invention. It is clear to those skilled in the art that the proposed invention can be applied not only in the case 60 of connecting columns to load-bearing walls, but also to connecting columns to partitions, etc.

In fig. 1 - a cross-section of the junction of a reinforced concrete column with one wall is shown. Column 1 and wall 2 are connected at the ends 3, 4, as well as the side surfaces 5 of the protrusions with the help of construction mortar. The wall is made of brick.

Fig. 2 shows a cross-section of a connection node of a reinforced concrete column with two partitions located on the water plane. Column 6 with partitions 7 are connected at the ends 8,9, as well as the side surfaces 10 of protrusions with the help of construction mortar and connecting elements 11. Partitions 7 are made of gypsum blocks.

Fig. 3 shows a cross-section of the connection node of a reinforced concrete column with two walls located in different planes that intersect at a right angle. The column 12 is connected to the walls 7 at the ends, as well as the side surfaces 16 of the protrusions with the help of construction mortar and connecting elements 8. The walls are made of polystyrene blocks filled with reinforced concrete.

In all cases, protrusions are made along the entire height of the column and walls (partitions).

The knot is made as follows.

Reinforced concrete columns with the required shape and 70 number of protrusions are formed in specified places with the help of formwork. After that, walls or partitions are built between the columns, having protrusions corresponding to the columns. Walls and columns are connected with construction mortar and, additionally, reinforcing rods.

Due to the presence of a transition area formed by the protrusions of the column and the wall, elastic deformations do not destroy the node. Therefore, the proposed node is more reliable than known analogues. The node is simple in design and its use will not cause significant costs, but the buildings will become stronger.

Claims (5)

The formula of the invention 1. The junction of the reinforced concrete column with the wall, in which the column and the wall are connected at the ends with the help of construction mortar and connecting elements, which is distinguished by the fact that the indicated column and the wall are made with corresponding end prismatic protrusions. 2. The node according to claim 1, which differs in that the specified wall is made of building elements that are laid in rows, for example, bricks. 3. The node according to claim 1 or 2, which differs in that the specified protrusions are made along the entire height of the column. 4. A unit according to any of claims 1-3, which is characterized by the fact that the specified protrusions are made along the entire height of the wall. 5. A node according to any of claims 1-4, which is characterized by the fact that the connecting elements are made in the form of "reinforcing rods, which are located parallel to the longitudinal axis of the wall. in « (ee) with (Se) - and? (o) ime) (ee) sh» that 60 b5