SK8146Y1 - Concrete portion with the connecting element - Google Patents

Abstract

The fastener includes at least one metal clip (4) at the edge of the concrete panel (1). The metal clip (4) has a cavity (5) accessible from one surface of the concrete panel (1), having an opening (2) which protrudes into the cavity (5), the opening (2) being used for screw connection (3) for the connecting the adjacent concrete panels (1). The metal clip (4) is embedded in concrete of the concrete panel (1) so that the opening (2) in the metal clip (4) is located on its outer side in the connecting plane (7), which is intended for the adjacent connection with the adjacent concrete panel (1). The metal clip (4) is by at least one metal rod (6) connected to the concrete of the concrete panel (1). The cavity (5) has a length corresponding to at least the length of the screw connection (3) in the direction of the axis of the opening (2), and has a dimension and shape in the transverse direction adapted to insert the tool for tightening of the screw connection (3). The metal clip (4) may have a pipe (8) which extends from the connecting plane (7) into the cavity (5) of the metal clip (4).

Description

Technical field

The technical solution concerns a concrete part with a connecting element, which is designed primarily for joining into building units and structures. The concrete part with the connecting element firmly connects at least two concrete parts, thus forming a solid building block, preventing the concrete parts from moving relative to one another.

BACKGROUND OF THE INVENTION

Various dismountable and non-removable joints of concrete parts are known. The disclosure of EP0386368A2 discloses a fastener system wherein a semi-arc concrete piece is cast with metal rods and a cavity into which a fastening screw is inserted and inserted. The joining of two semi-arched concrete parts into one concrete ring formed by securing the nuts in both cavities of the semi-arched concrete parts to be joined. Such a solution is not universally versatile, the disadvantage of this solution is also the difficult production of complicated cavities and complicated manipulative space screwing.

The solution according to US5809712 uses a connection formed by inserting one part of a concrete column with cast metal bars into the other part of the concrete column with formed cavities for the insertion of metal bars. This solution is difficult to assemble and is only applicable to columns.

The solution according to EP0651135A2 discloses two annular concrete parts with female threaded sleeves which are connected by means of a threaded rod. This solution is exacting and is only applicable to concrete parts in the tunnel lining.

In concrete parts, it is also possible to make a connection by means of a shaped joining member, for example according to US6014849 A1, US20110197535 A1, US4836717, where the joining member is inserted evenly into the shape groove of both the joined concrete part. When manufacturing such shaped connectors and shaped grooves in concrete parts, high demands are placed on manufacturing accuracy. Assembling and joining concrete parts is difficult and demanding in terms of handling concrete parts. Such a solution also does not prevent the lateral movement and, in some modifications, the rotation of the joined concrete parts.

A disadvantage of the known solutions of concrete parts with a fastener that uses a screw connection is the low versatility of use for various shapes of concrete parts, low mechanical resistance and also high demands on accuracy of production. It is desirable and not known to provide a concrete component with a fastener that allows a rigid connection of different shapes of concrete components, in different mounting positions, prevents twisting, transverse and longitudinal displacement of the joined concrete components, while being easy, allowing good access for tools during assembly and will effectively transfer forces between concrete parts.

The essence of the technical solution

These drawbacks are substantially eliminated by a concrete member with a fastener, wherein the fastener comprises at least one metal clip at the edge of the concrete member and a bolt hole for joining adjacent concrete members according to the present invention, which is characterized in that the metal clip has a a cavity accessible from one surface of the concrete part and has an opening that opens into the cavity. The metal clip is embedded in the concrete of the concrete part such that the opening in the metal clip is located at a location intended to connect to an adjacent concrete part, the metal clip being connected to the concrete of the concrete part by at least one metal bar. The metal rod attached to the metal clip is cast in the concrete during manufacture of the concrete part, thereby forming a firm and indelible connection of the metal clip to the body of the concrete part.

The term concrete part in this specification refers to any rigid body, in particular a concrete or a concrete body. reinforced concrete prefabricated, concrete resp. a reinforced concrete product or semi-finished product that contains solidified concrete, regardless of shape or size.

The metal clip forms a substantial part of the connecting element. A portion of the metal clip with an opening is located directly in the connecting plane of the concrete part, the opening being oriented so that the screw shank or the screw can be passed through it. threaded rod, bolt. The term bolt in this document refers in particular to a headless screw onto which nuts are screwed on at both ends. Usually, one connection point of two concrete parts will be formed by two oppositely placed metal clips whose holes are coaxial, but a connection where one part or the base foot has a different fastener with a bolted connection and then passes through the hole in the metal clip is not excluded. according to this technical solution.

The metal clip has a cavity that allows the insertion of the screw shank and allows the use of the appropriate tool to retract it, or a slack. Therefore, the cavity will osmotvorumum in the direction

The length corresponding to the length of the screw joint and in the transverse direction will have a cavity dimension and shape sufficient to insert a tool, for example to insert a spanner or an annular wrench or to insert a ratchet with a corresponding extension. area perpendicular to the connecting surface.

By its shape and size, the metal clip provides access to the assembly of the connection from one side of the concrete part. The metal clip is adapted to insert a screw connection, to insert a washer and a nut. A screw connection, for example a head screw, is inserted into a cavity parallel to the bore axis or with a slight inclination according to the shank clearance in the bore in the metal clip, then pushed into the bore and pushed through the bore in the metal clip. A washer is mounted on the thread projecting into the cavity of the second metal clip and the nut is screwed on. Advantageously, the opening in the metal clip is larger than the diameter of the shank of the connecting bolt, the clearance provided allows the adjacent concrete parts to be positioned relative to one another, whereby the relative movement of the adjacent connecting parts is avoided when the screw connection is retracted.

The bolted connection, for example, the bolt, washer, and metal clip are sized according to the design load of adjacent concrete parts. If necessary, the concrete part has a plurality of metal clips, usually at least two on each joint surface. In order to achieve the projected elasticity of the connection, it is advantageous if the screw connection has a longer shaft, which corresponds to the distance between the cavity surface with the hole and the connection plane. The metal clip may therefore have a tube which forms an opening for the screw connection, the tube extending from the connection plane into the cavity of the metal clip. Tube length, resp. twice the length of the pipe then determines the necessary length of the screw shank.

The interconnection of the metal rod with the metal clip may have different designs depending on the particular embodiment and the shape of the metal clip. The metal clip, preferably made of steel or cast steel, can be produced by welding the cut segments, welding the molded blanks, forming, casting or a combination of the above. The metal rod may be welded to the metal clip or may be threaded through a fold in the metal clip. The metal clip captures the forces from the screw connection, transmits the forces to the metal bars and thus transmits them to the body of the concrete part. The point load induced by the use of screws decomposes into a wider concrete mass. The bolt connection essentially transmits in particular the forces in its axis, therefore the connecting element according to the present invention will be particularly suitable for joining butt-connected concrete parts, but it can also be used for joining perpendicularly adjacent concrete parts.

The present technical solution provides a simple and operationally reliable construction that enables the firm connection of two concrete parts, in particular precast concrete, prevents their rotation, transversal and longitudinal displacement and provides the possibility of producing various shapes of concrete parts. In order to form a firm connection of adjacent concrete parts, abetone-shaped metal fasteners are formed thereon at their respective opposite locations. The cavity in the metal bracket is protected from concrete pouring.

The cavity in the metal fastener of one concrete part must have a dimension sufficient to insert the shank bolt, on the opposite side it is sufficient if the cavity has a dimension sufficient to insert the washer and nut, so it may have a smaller cavity length in the direction of the hole axis. For this reason, it is possible to use two dimensions of metal clips for one coupling pair. A solution would also be possible where the metal clips have smaller metal clips on both sides of the adjacent concrete parts sufficient only for inserting the washer and nut. the stem itself, the threaded bolt at both ends is externally inserted into a hole in one concrete part. In this case, the second concrete part can only be applied to the first one so that in the final phase of contact they only move relative to each other in the direction of the axis of the screw connection so as to avoid deformation thereof, which can be complicated for large and heavy concrete parts. Thus, it will usually be particularly advantageous to insert the screw connection into the hole only after the adjacent concrete parts have been applied. They can also be applied together with brute force.

The metal clip can be made as a weldment from flat parts. The cavity is formed by a space in a box with the shape of an open block. The box has a base wall lined with side walls. The side walls define the cavity space from the concrete mixture and at the same time increase the stiffness of the base wall to which a pair of steel ribbed bars is welded. They grip an acute angle and point into the mass of the concrete part. On the shorter side wall of the box, which is located in the connecting plane of the concrete part, there is an opening for a screw connection. In order to achieve a longer length of the stressed shank of the bolted joint, a short welded pipe of approximately square cross section is formed at the opening, and a washer of the connecting bolt is adjacent to the face of the pipe.

In order to facilitate the manufacture of the metal clips, these can be produced by casting or die casting. In such a case, the side walls of the box have the bevels necessary to eject the casting from the mold. The advantage of the cast box is the high rigidity and strength of the metal clip. The screw joint tube may be formed inwardly of the cavity or outwardly of the metal clip box. Since the steel for casting usually has a worse weldability, the metal rod can be connected to the metal clip by positive engagement by means of a fold formed on the continuation of the base wall of the box. Suffice it if

With K 8146 Y1, the bent metal rod is placed in a fold, thereby forming a hook connection of the metal clip and the metal rod. The concrete mixture casts the gaps between the crease and the metal rod and, after setting without play, transmits the tensile forces from the metal clamp to the metal rod.

The metal rod will usually be in the form of a steel ribbed rod, as is commonly used for reinforcing in reinforced concrete. The metal bar can be interconnected, for example, welded, to the other reinforcement in the reinforced concrete of the concrete part, or, as proved by tests, it is sufficient to simply free the metal bars through the reinforcement zone of the concrete part. This simplifies and accelerates the placement of the metal clips into the concrete part. The metal clamps are fastened through the hole at the edge of the mold, ensuring their precise and stable position when casting and vibrating the concrete mixture.

In order to achieve a long service life of the fastener, in particular of the metal clip, it is preferred that the metal clip is surface-treated, for example colored or galvanized. The bolt, washer and nut may also be galvanized or made of stainless steel.

After tightening the screw connection, the cavity is left accessible for later inspection or may be filled with suitable structural material, for example PUR foam.

The presented technical solution accelerates the construction of structures made of prefabricated, prefabricated concrete parts, enables assembly by dry processes without welding, while the joint is structurally simple and reliable in the long term. The production of concrete parts with a metal clip does not require any major modifications to the existing technology, nor does it prolong the casting times. By selecting the number of metal clips on one joint face and adjusting the bolt bias with a torque wrench s, they create the designed force bonds between adjacent concrete parts.

BRIEF DESCRIPTION OF THE DRAWINGS

The technical solution is explained in more detail with the help of Figures 1 to 16. The displayed aspect ratio and sizes of the metal clips, the lengths of the metal bars, the shown cross-sections of the castings are illustrative only and are not to be construed as restricting the scope of protection. For the sake of clarity, the metal bars are shown as smooth, although in the examples they are described as ribbed.

Figure 1 is an axonometric view of the joint of two concrete parts, where only one connection point with one pair of metal clips is shown.

Fig. 2 shows the joint of Fig. 1 without showing the concrete, where the concrete part of the metal clip box and the metal bars pointing inwards of the concrete part can be seen.

Figure 3 is a plan view of a joint with one pair of metal clips where the metal clip on one side is smaller than the other side of the joint.

FIG. 4 shows the joint of FIG. 3 without showing the concrete where the concrete part of the metal clip box and the metal bars facing in the concrete part can be seen.

Figure 5 shows the individual components of the fastener, on the left in plan view, the metal fasteners are shown from the underside where the metal bars are attached, on the right, these are shown in axonometric view.

Figure 6 is an axonometric view of a cast metal clip. The same metal clip is then shown in plan view in Fig. 7 and in cross-sections in Figs. 8 and 9. In Fig. 10 the casting separating plane is shown.

Figure 11 is an axonometric view of a cast metal clip with a foldable hook of the metal bar. This metal clip is then shown in plan view in Figure 12 and in cross-sections in Figures 13 and 14.

Figures 15 and 16 show the most common relative positions of the joined concrete parts. Other positions may differ in connection angle.

An exemplary embodiment

Example 1

In this example according to Figures 1 to 5 and 6, the concrete part 1 has a plurality of connecting elements, only one being shown in the figures. In each connection plane 7 there are at least two connecting elements. Each fastener has a metal clip 4 welded from cut sheet metal segments.

The weldment is in the form of an open box which forms a freely accessible cavity 5. Side walls delimiting the cavity 5 are perpendicularly welded to the bottom, base wall circumferentially circumscribing the cavity 5. In the shorter wall of the box to be placed in the connection plane 7 3. A short tube 8 of approximately square cross section is welded around the opening 2, the tube 8 extending inwardly of the cavity 5.

N E 8146 ΥΙ

From the underside of the base wall of the box there is welded a bent metal rod 6 of ribbed reinforcing steel, which bends an approximately right angle in the bend.

The metal clip 4 is inserted and fixed in the mold for casting the concrete part 1 so that the position of the opening 2 corresponds to the opening in the adjacent adjacent concrete part k The height of the side walls of the box is selected so that the top edge of the box extends to the outer surface of the concrete part 1. The box thus prevents the penetration of the fresh concrete mixture into the cavity 5.

After inserting and attaching the metal clamp 4 at the edge of the mold to the respective concrete part 1, both ends of the bent metal rod 6 extend into the reinforcement zone of the concrete part LV, in this example the metal bar 6 is not directly connected to the reinforcement, otherwise reinforcement.

On one concrete part 1, metal clips 4 of two different lengths are used. Longer, adapted to receive the screw connection 3, are formed by a bolt and nuts. The ends of the inserted screws 3 open into the shorter metal clips 4 in such a way that it is not enough to fit the washers and nuts.

The concrete parts 1 are gradually joined together according to the building project. After placing and setting the correct position, a screw connection 3, in this example M20 160 mm long, is inserted into the cavity 5, threaded through the hole 2 into the cavity 5 in the opposite metal clip 4 of the adjacent concrete part 1. the nut is tightened. After assembly of the entire structure, the screw connection 3 is tightened with a torque wrench and the cavity 5 is foamed with PUR foam.

Example 2

11 to 14 is made by casting. The side walls have a bevel of 1 ° from the outside and 3 ° from the inside. The base bottom wall of the box continues behind the shorter side wall, at the end of which it has a fold 9 which constitutes a hook for inserting a metal rod 6.

Example 3

The metal clip 4 in this example of Figures 6 to 10 is made by casting from weldable steel. The metal rod 6 is welded from below to the base wall of the box. In this example, the tube 8 forming the opening 2 is directed outwardly from the box, thereby reducing the steel consumption of the metal clip 4. The tube 8 has in this embodiment a substantially circular cross-section provided by technological bevels extending from the separation plane. The pipe 8 extends one end into the connection plane 7 and at the other end reaches the side wall delimiting the cavity 5.

Industrial usability

Industrial applicability is obvious. According to this technical solution, it is possible to industrially and repeatedly manufacture and assemble concrete parts with screwed fasteners, which allow fast and reliable installation of concrete parts in various constructions.

Claims (16)

PROTECTION REQUIREMENTS A concrete element with a fastener, wherein the fastener comprises at least one metal clip (4) at the edge of the concrete element (1) and a screw connection hole (2) for connecting adjacent concrete elements (1), characterized in that that the metal clip (4) has a cavity (5) accessible from one surface of the concrete part (1) and has an opening (2) that opens into the cavity (5), the metal clip (4) is embedded in the concrete of the concrete part (1) so that the opening (2) in the metal clip (4) is, by its outer side, located in a connection plane (7), which is intended to be adjacent to the adjacent concrete part (1), the metal clip (4) being at least one metal bar (6) connected to the concrete part (1). A concrete element with a connecting element according to claim 1, characterized in that the cavity (5) has a length corresponding at least to the length of the screw connection (3) in the direction of the axis of the opening (2). Concrete element with a connecting element according to claim 1 or 2, characterized in that a screw connection (3) consisting of a screw and two nuts is inserted into the opening (2). Concrete element with connecting element according to any one of claims 1 to 3, characterized in that the cavity (5) has a dimension and shape in the transverse direction adapted to receive a tool for tightening the screw connection (3). Concrete element with fastener according to any one of claims 1 to 4, characterized in that the opening (2) in the metal clip (4) is larger than the diameter of the shank of the screw connection (3) and the screw connection (3) is provided below the nuts washers. Concrete element with connecting element according to any one of claims 1 to 5, characterized in that the metal clip (4) has a pipe (8) for forming a screw connection hole (2) (3), wherein the pipe (8) extends from the connecting plane (7) into the cavity (5) of the metal clip (4). Concrete element with a connecting element according to claim 6, characterized in that the pipe (8) has a circular or quadrangular cross-section. Concrete element with a connecting element according to claim 7 or 8, characterized in that the pipe (8) is shaped inwardly of the cavity (5) or outwardly from the box of the metal clip (4). A concrete element with a connecting element according to any one of claims 1 to 8, characterized in that the metal clip (4) is a weldment. A concrete element with a fastener according to any one of claims 1 to 8, characterized in that the metal clip (4) is a casting. Concrete element with a fastener according to any one of claims 1 to 10, characterized in that the metal rod (6) is welded to the metal clip (4). A fastener according to any one of claims 1 to 10, characterized in that the metal clip (4) has a fold (9) formed to continue the base wall of the box and the metal bar (6) is inserted into the gap between the fold (9) and a metal clip box (4). A fastener according to any one of claims 1 to 12, characterized in that the metal clip (4) is made of steel and is surface-treated, preferably surface-plated. A fastener according to any one of claims 1 to 13, characterized in that the metal bar (6) is a steel ribbed rod. A concrete element with a connecting element according to any one of claims 1 to 14, characterized in that the metal rod (6) at its end passes into the reinforcing zone of the concrete element (1). A connecting element concrete according to any one of claims 1 to 14, characterized in that the screw connection (3) and / or the nut is made of stainless steel. 7 drawings