CS201212B1 - Joint of perpendicular connecting surfaces of the concrete wall elements - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to the connection of vertical contact surfaces of concrete wall panels formed by anchoring metal plates anchored in both bonded concrete wall panels and interconnected to each other and providing, through shear forces, the interaction of the joined concrete wall panels.

The vertical contact of the concrete wall elements used in today's assembled systems and constructions is made up of the wall elements, the joint concrete grout that fills the space between the wall elements and the reinforcement or other structural modification which together with the filling ensures the interaction of the wall elements. The filler, housed in a space formed by the specially shaped and modified faces of the wall panels, which is generally a longitudinal groove with transverse profiling, which forms the teeth on the face together with the reinforcement extending perpendicular to the median plane of contact.

The main disadvantage of this solution from the technological point of view is the necessity of using wet processes in vertical contact, its laboriousness consisting in cleaning and dampening of the faces of the parts, placement and processing of contact fill, dependence on climatic conditions and lower degree of assembly . From a static point of view, the main disadvantage is the generally small range of actually achievable shear resistance and, in particular, that the stiffness and eventually the elasticity of the joint cannot be adjusted. Due to the unfavorable ratio between strength, i.e., strength, and elasticity or stiffness of the contact, cracks are formed in vertical joints, which are one of the most common sources of failure of the load-bearing structure.

According to the invention, the above-mentioned drawbacks are eliminated by the joint of the vertical contact surfaces of the concrete wall panels, formed by metal anchor plates, anchored in the two bonded concrete wall panels and connected to each other. Its essence is that the anchoring metal plates are anchored only in the region of the iron of the two joined concrete wall panels on both sides of their joint, and in the remaining part of the joint wall of the concrete wall panels, a joint seal is provided.

According to another feature of the invention, the two opposing anchor metal plates are joined to each other by at least one metal bar interposed therebetween and welded to the two anchor metal plates.

Further, one end of the metal strip may be cooked to the anchor metal plate of one concrete wall panel while the other end of the metal rod is welded to the opposite anchor metal plate of the opposite concrete wall panel.

Finally, according to the last aspect of the invention, the anchor metal plates are connected to one another by bolts and nuts whose shanks are perpendicular to the joint, and spacers are threaded between the anchor metal plates.

The higher effect of the joint according to the invention is first and foremost in that it allows for dry assembly when joining wall panels, which can optionally also be provided with a finish. In this way, the production process can be accelerated and the work required for prefabricated buildings can be reduced overall. The proposed seal has the function of sound insulation and fire protection.

The joint according to the invention is described in the following with reference to the accompanying drawings, in which: FIG. 1 is a side view of two adjacent concrete wall panels seated on a ceiling structure; FIG. 2 is a top view of joined panels joined by an inserted metal bar; FIG. 3 is a top plan view of the panels to be joined by a screw; FIG.

2, with a partially welded metal rod, FIG. 5 a side view of the head of FIG. 3 with spacers inserted, and FIG., A horizontal section of a sealed joint under the joint.

The joint of the concrete wall panels 1 (Fig. 1) is formed by anchoring metal plates 2 which are anchored in the concrete wall panels 1 at the head 3 of the concrete wall panel 1. The remaining part 4 of the concrete wall panel 1 is seated on the ceiling structure 6. the plates 2 may be connected to the reinforcement of the concrete wall panel 1 or may be anchored in the concrete of the wall panel 1 by a separate reinforcement.

FIG. 2 shows the first of the two

Claims (4)

Joint of vertical contact surfaces of concrete wall panels, consisting of anchoring metal plates anchored in both interconnected concrete wall panels and connected to each other, characterized in that the interconnected anchor metal plates (2) are anchored only in the area of the head (3) of both the concrete wall panels (1) on both sides of their joint and in the remaining part (4) of the joint wall of the concrete wall panels (1) there is a joint seal. Joint according to claim 1, characterized in that the two opposite anchoring metal plates (2) of the joined concrete wall panels (1) are connected to each other by at least one metal bar (7) interposed therebetween with examples of the connection of concrete wall panels 1, forming a permanent joint using a weld joint. Both wall panels 1 are provided at the head with an anchor metal plate 2, for example a U-profile, between which a metal rod 7, in this case a circular cross-section, is inserted. This metal rod 7 is welded to the anchoring metal plates 2. It is understood that the metal rod 7 may have another suitable shape, for example a square, rectangular or other cross-section. More of these metal bars 7 may be used, as indicated by dashed lines. FIG. 3 shows another example of a joint of concrete wall panels 1 forming a dismountable joint using a screw connection. In the anchor metal plate 2 are provided holes for receiving at least one nut bolt 10, the distance between the individual connecting concrete wall elements 1 being defined by means of spacers 9. FIG. 4 is a plan view of the permanent joint of FIG. 2, in which, when cooking a metal rod 7 to anchor metal plates 2 fixed to concrete wall panels 1, it is performed only in part of the width of the anchor metal plates 2. The rate a expresses the release length of the metal bar 7 and is one of the values influencing the shear stiffness according to the invention. FIG. 5 shows an alternative solution of the dismountable joint of FIG. 3. In order to control the rigidity of the connection of the concrete wall panels 1, special spacers 9 of softer material may be placed on the bolt 10 between the anchor metal plates 2. FIG. 6 shows the sealing of the contact between the concrete wall panels 1 in their remaining part 4. According to a preferred embodiment, the seal is provided by asbestos ropes 14 inserted into grooves, if any, in the concrete part 1, followed by a plug 12 enclosed by a flexible mastic 13. OF THE INVENTION and welded to both metal anchor plates (2). Joint according to claim 2, characterized in that one end of the metal beam (7) is welded to the anchor metal plate (2) of one concrete wall panel (1) and the other end of the metal beam (7) is welded to the opposite anchor metal plate (2) the opposite concrete wall panel (1). Connection according to claim 1, characterized in that the anchor metal plates (2) are connected to one another by bolts (10) with nuts whose shanks are perpendicular to the joint, and on the shanks of the bolts (10) are between anchor metal plates (2). ) spacers (9).