CS243149B1 - Surface construction of pre-fabricated parts - Google Patents

Abstract

The invention relates to a planar structure, in particular a load-bearing or reinforcing wall, assembled from prefabricated elements. The essence of the invention lies in the fact that prefabricated elements made of aerated concrete are assembled with their contact surfaces together and connected along the length of a straight section by connecting rods passing through through channels in the aerated concrete elements and filled in the space of the channels with an injection material. The solution increases the rigidity of the wall and creates connecting dowels on the contact surfaces of the elements, which together with the filling of the contact joints have sufficient shear load-bearing capacity.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a planar structure of pre-fabricated panels, in particular a load-bearing or stiffening wall of residential buildings, consisting of a series of prismatic pre-fabricated panels aligned with each other by their interface.

The wall structures of residential or industrial buildings have so far been formed from prismatic blocks placed in rows side by side and one above the other, which are interconnected by mortar in the joints and on the bed joints. The completion of these walls is laborious, and in industrial buildings such a wall can have only a limited free length and height. Some improvement of the wall stability and thus increase of the free dimensions can be achieved by inserting reinforcing elements into the bed joints, or by placing vertical reinforcing bars into vertically through cavities of the wall blocks, cast or concrete, forming a set of hidden supporting pillars. These measures, however, increase the already high construction site effort.

In addition to panel walls, cellular concrete wall structures in the form of elongated beams or blocks with a height equal to the height of the floors, which are laid side by side, are also known. Again, this wall construction has a relatively low stability, depending primarily on the clamping or securing of the ends of the panels. In some cases, the wall structure is formed from switched aerated concrete panels consisting of a plurality of elements, joined together to a larger extent by switching rods passing through a channel formed in the elements. The wall structure is made up of several of these connected elements, which, however, are no longer connected to each other except the mortar layer in the joint, so that the effect of the switching is lost.

The drawbacks of the prior art wall structures are eliminated by the planar structure according to the invention, which is based on the fact that a series of prismatic preformed aerated concrete elements are closed over their entire length by switching rods passing through channels in preformed aerated concrete elements. In a particularly preferred embodiment of the invention, the passage channels for the switch rods are extended in the area of the contact surfaces of the aerated concrete panels into the chambers filled with the concrete mixture together with the passage channels. The filling of the expanded chambers is connected to the filling of the joints between adjacent panels.

The solution according to the invention improves the stability of the wall structures made of aerated concrete elements and serving as load-bearing, reinforcing, separating and the like walls. In addition to the actual clamping, which can be pre-stressed by means of tie nuts or similar measures, hardened grouting material in the switching rod channels, which together with the tie rod, forms a form of dowels in these areas penetrating adjacent joined panels.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT OF THE PREFERRED EMBODIMENT OF THE INVENTION FIG. 1 is a vertical cross-sectional view of the wall structure through the axes of the tie rods and channels; FIG. 2 is a vertical cross-sectional view of the support wall; 3 is a vertical cross-sectional view of another example of a wall structure, guided by the axes of the switching rods, and FIG. 4 is a horizontal sectional detail of the connection of the planar structure to another perpendicular structure.

The panel structure according to the invention, in the form of a bearing wall of a residential building, consists of prismatic pre-fabricated aerated concrete panels 4 which are arranged side by side and provided with interconnecting through channels 2 extending through the entire length of the finished wall. Switching rods 3 are stretched through the passageways 2 and the entire interior of the passageways 2 is shaped by a filler material 6, in particular a concrete mixture (FIG. 1 /.

In order to increase the transmission of shear forces in the joints, in another example, the areas of the passage channels 2 at the joints are extended into cylindrical cross-section chambers 5 which are also filled during injection and which directly follow the joint joint filler 6 / FIG. 3 /.

The passageways 2 are closed at the end by a plug 7 preventing the injection filler mass 4 from flowing out, and a nut 8 with a washer, which is supported on the face of the end aerated concrete panel 4, is screwed onto the end of the switch rod. 4 /.

Claims (2)

SUBJECT OF THE INVENTION 1. A prefabricated panel construction, in particular a supporting or reinforcing wall of residential and industrial buildings, consisting of a series of prismatic prefabricated, in particular porous concrete panels, joined together by their interface and connected by tie rods passing through through channels in the prefabricated panels, 2. The method according to claim 1, characterized in that the passage channels (2) for the switch rods (3) are expanded into the cells (5) filled with filler material (4) together with the passage channels (2) in the region of the interface of the preformed, in particular aerated concrete panels. Flat structure according to claim 1, characterized in that the filling of the expanded cells (5) is connected to the filling (6) of the joints between adjacent preformed, in particular aerated concrete parts (1).