EP0872604A1 - Anchoring device for embedding in concrete and process for its manufacturing - Google Patents

Abstract

The device has anchor elements (2) which are arranged on a plate (1). At least one fastening element can be driven into the latter in order to attach building components (5). The plate has protection to prevent corrosion, at least in the region of the fastening element, and it may be covered at least partly with an insulating protective coating (7). The coating may be an oxide, a metal, or a non-metal, or may be formed by a synthetic film which is stuck onto the plate.

Description

The invention relates to an anchoring device for Embedding in concrete, with one, one front, one Back and an edge extending between them steel anchor plate or anchor rail, power transmission attachments on the front by means of Screws or bolts that are in the anchor plate or Anchor rail can be shot, can be attached and with the back of several anchoring elements protruding from it firmly connected to the concrete are embeddable, with at least one on the front Corrosion protection layer is provided. The invention relates also a process for their production.

Such anchoring devices, sometimes too only referred to as "anchor plate" are at predetermined Places in concrete columns, concrete beams, concrete slabs and similar concrete components so embedded that the front of the actual anchor plate with the The surface of the concrete component is flush and the anchoring elements surrounded by concrete of sufficient thickness are. After var prefabricated concrete components at the construction site fully assembled or concrete components made from in-situ concrete can be removed from the front of the Anchor plate force-transmitting attachments, e.g. Angle, Rails, support brackets, tabs or the like attached be in turn for support and / or attachment of other components, e.g. Facade panels, Wall panels made of aerated concrete or normal concrete and the like, to serve. The attachment of the power transmission attachments on the anchor plate can be done either by steel bolts, which by means of nail guns or nail guns the anchor plate can be driven in or by means of screws, which are screwed into the anchor plate. In in the latter case, it is recommended to use self-drilling screws to be used without pre-drilling when screwing in yourself create a hole and a thread.

DE 296 08 158 U1 is an anchoring device of the type mentioned at the beginning, known as screw-on anchors for balcony railings. The anchor plate and the on the Back of the same welded anchoring elements are made of normal steel. The entire screw anchor is hot-dip galvanized. By inserting the screw anchor in the formwork of a balcony slab can be screwed on are poured into the concrete of the balcony slab so that the anchor plate with the vertical edge of the balcony plate is flush. The anchor plate has several threaded holes in which later the fastening screws one too galvanized balcony railing can. This has to anchor balcony railings known anchoring device by hot-dip galvanizing adequate corrosion protection.

For anchoring devices that need to be checked later are not accessible for corrosion damage, however require the building regulations for safety reasons, that only stainless or highly corrosion resistant Materials may be used. If the entire anchoring device or just their Anchor plate e.g. made of stainless steel it is extremely expensive.

The invention is therefore based on the object Anchoring device of the type mentioned at the beginning create which the building codes in relation to the Use of rustproof materials and inexpensive to manufacture with the same functional reliability is.

This is achieved according to the invention in that the anchoring device of the type mentioned the corrosion protection layer by using an anchor plate or cladding panel connected to anchor rail is made of stainless steel, which the whole Front covers and also includes at least the edge.

The new anchoring device has regard to Corrosion protection and functional reliability essentially the same properties as an anchoring device, which is made entirely of stainless steel, however, it is much cheaper to manufacture. For the anchor plate or anchor rail and the Anchoring elements can namely unalloyed or low-alloyed Steels, e.g. Structural steel ST37 according to DIN 17100 is used will. At the front of this made of structural steel Anchor plate or anchor rail becomes a proportionate thin cladding sheet with about 0.1 - 0.3 mm Thickness of stainless steel attached, which too encloses the edge. This cladding sheet forms the Corrosion protection layer and protects both the front the anchor plate or anchor rail as well as its edge, the itself is surrounded by concrete, against corrosion. Even if Moisture in the outermost layer of concrete or in the the edge of the anchor plate or anchor rail adjacent Penetrates the area, the cladding panel provides the Corrosion protection safe. The front and edge are so effectively protected against corrosion. The remaining parts of the Anchoring device, such as the anchoring elements and also the back of the anchor plate or anchor rail, are covered with a sufficiently thick layer of concrete, so that also due to the alkaline reactions of the cement contained in the concrete does not corrode it Parts can occur. By using a relative thin cladding made of stainless steel the consumption of expensive material is very important reduced, creating the new anchoring device is relatively inexpensive to manufacture. Furthermore has the new anchoring device compared to known ones Anchoring devices made entirely of stainless Steel exist, the advantage that they are due their anchor plate or anchor rail made of structural steel is ferromagnetic and therefore by means of permanent magnets on a formwork in a predetermined installation position can be held.

Advantageous embodiments of the invention are in the Subclaims marked.

The invention also relates to a method for Manufacture of those specified in the device claims Anchoring device. This procedure is that the first flat panel on a hard rubber plate that is placed on the panel the anchor plate provided with anchoring elements or Anchor channel is placed with its front, and that then to the back of the anchor plate or anchor rail Pressure is exerted through the panel together with the anchor plate or anchor rail in the hard rubber plate are pressed in so far that the edge areas of the cladding sheet through the protruding the edge of the anchor plate or anchor rail Areas of the hard rubber sheet are pressed against the edge.

This procedure enables a simple and therefore inexpensive attachment of the cladding sheet the anchor plate or anchor rail.

Figur 1

eine Draufsicht auf die Verankerungsvorrichtung,

Figur 2

eine Seitenansicht desselben,

Figur 3

einen Längsschnitt einer in ein Betonbauteil eingebetteten Verankerungsvorrichtung,

Figur 4

einen Teillängsschnitt in vergrößertem Maßstab an der Stelle IV der Figur 3,

Figur 5

Einzelheiten eines zweiten Ausführungsbeispieles im Schnitt in vergrößertem Maßstab,

Figur 6

den Querschnitt eines dritten Ausführungsbeispieles,

Figur 7 und 8

schematische Darstellung eines Herstellungsverfahrens.

The invention is explained in more detail below with reference to exemplary embodiments shown in the drawing. Show it:

Figure 1

a plan view of the anchoring device,

Figure 2

a side view of the same,

Figure 3

2 shows a longitudinal section of an anchoring device embedded in a concrete component,

Figure 4

3 shows a partial longitudinal section on an enlarged scale at point IV in FIG. 3,

Figure 5

Details of a second embodiment in section on an enlarged scale,

Figure 6

the cross section of a third embodiment,

Figures 7 and 8

schematic representation of a manufacturing process.

The anchoring device 1 consists essentially of a preferably rectangular anchor plate 2 made of conventional Bausthal, i.e. from unalloyed or low-alloyed Stole. The anchor plate 2 has a front side 2a, one Back 2b and one extending in between Platemark 2c on. On the back 2b are several of this protruding anchoring elements 3, which can be made of the same material as that Anchor plate 2 and the free ends, for example have thickenings 3a formed by compression to achieve even better anchoring in the concrete. Furthermore, the anchor plate 2 expediently has rounded edges Corners 2b with a radius of curvature R of at least 10 mm on. The purpose of the rounded corners 2d is explained in more detail below. In the figures 1 and 2 is the anchoring device 1 without the following Cladding sheet 4 described in more detail.

According to Figures 3 and 4 is on the front 2a of the anchor plate 2 the cover plate 4 made of rustproof Steel arranged with a thickness of 0.1 to 0.3 mm, which the entire front 2a and at least the Includes plate edge 2c. For good anchoring and connection of the cladding sheet 4 with the anchor plate 2 to achieve, the edge areas 4a of the Cladding sheet to the back 2b of the anchor plate bent over and lie on the back. To this In addition, the penetration of moisture becomes Plate edge 2c prevented even better. Possibly it would also be conceivable to use only partial areas of the edge areas 4a to bend towards the back of the anchor plate and this Bending e.g. at the corners 2d of the anchor plate 2 to make redundant that the cover plate 4 provided with corresponding recesses at its corners, whose size is matched so that the cladding panel 2 also covers the plate edge 2c at the corners 2d, but does not protrude beyond the back of the anchor plate 2.

To avoid electrochemical reactions between the Stainless steel cladding panel 4 and the anchor plate 2 made of structural steel is expedient, an insulating layer 5 between the two parts to provide. This insulating layer is expediently one Plastic layer formed by a plastic film can be.

However, the plastic layer 5 can also be formed thereby be that the entire anchor plate 2 including the Anchoring elements 3 provided with a plastic coating are. The plastic layer 5 also fulfills the function of a better seal when fastening bolts 6, as described below, in the anchor plate 1 "shot in" by means of a bolt gun will.

On the back 2b of the anchor plate 2 is also useful a spacer plate 7 made of a smaller material Strength as steel, expediently a spacer plate Rigid foam, arranged. This spacer plate 7 is then important if 6 self-drilling instead of steel bolts Screws for fastening the power transmission Attachment 8 can be used. The self-drilling This is because screws have at the free end of their threaded shank a boring tip that completely through the anchor plate 2 pass through and on the back must exit so that the threaded part of the self-drilling Screw the full length into the anchor plate 2 can intervene. Through the spacer plate 7 Concrete when embedding the anchor 1 in the concrete component at a distance from the back 2b of the Anchor plate held so that the drilling tips of the self-drilling screws only in the relative soft hard foam and do not penetrate the hard concrete have to. Even when "shooting in" steel bolts 6 such a spacer plate 7 can be advantageous, because then the tips of the steel bolts always only in the soft spacer plate 7 must penetrate and not in the concrete.

The anchoring device 1 described above, the factory provided with the cladding sheet 4 is embedded in the concrete of a concrete component 9 in such a way that the outside of the panel 4 in one plane with the outer surface 9a of the concrete component lies. Since the cladding plate 4 to the anchor plate 2 their front 2a and also in the area of their plate edge 2c completely encloses the anchor plate 2 protected against corrosion. The further inside in the concrete lying parts of the anchoring device 1, namely the anchoring elements 3 and also the back 2b the anchor plate 2, are by a correspondingly large concrete cover and the alkaline reactions of the in the concrete contained cement protected against corrosion. An additional one Corrosion protection can be provided by the aforementioned Plastic coating can be achieved. On the outside the cladding sheet 4 can also be made of stainless steel Steel existing, power-transmitting attachment 8, such as the angle shown in Figure 3, an interception bracket, a rail or the like will. The attachment is made by bolts 6 stainless steel with a bolt gun through prefabricated bores 8a of the component 8 be "shot" into the anchor plate 2. Thanks to the plastic layer 5, the cladding sheet can 4 funnel-shaped when shooting in the bolts 6 deform and with a kind of collar close to the bolt 6 invest. Friction welding can also be used here take place between bolt 6 and panel 4. An additional seal against ingress of Moisture is achieved through the plastic layer 5.

5 shows a second exemplary embodiment, which differs from the previously described embodiment differs only in that the Plate edge 2c is undercut by he with the front 2a of the anchor plate 2 an angle µ of less than 90 °. For positive Connection of the cladding sheet 4 with the anchor plate 2 are the edge areas 4a close to the undercut Pressed plate edge 2c, without bending the Edge area of the cladding sheet to the rear 2b the anchor plate 2 is done. With this configuration So there is no need to bend over during manufacture Edge areas towards the rear 2b. The undercut of the plate edge 2c can be achieved in that an extremely large one when punching out the anchor plate 2 Cutting gap of the punching tools chooses.

If several attachments in a concrete component Row to be attached side by side or one above the other should, it is more appropriate instead of individual anchor plates to use a continuous anchor rail 2 ' which can have a length of, for example, 2-3 m. The anchor rail 2 'can be made from a piece of flat steel, e.g. Structural steel ST37 or sheet steel with a thickness of approximately 6 mm exist. It is to increase the longitudinal rigidity however expedient if the anchor rail 2 'according to FIG. 6 on their two long sides one opposite each other Front 2'a has bent edge 2'c. The anchor rail 2 'then has the U-profile shown in FIG. 6.

At the rear 2'b are several protruding from this, Anchoring elements distributed in the longitudinal direction of the anchor rail 3 welded on. Regarding the rest of the design the anchor rail 2 'and the design and attachment of the cladding sheet made of stainless steel 4 meet the above to that in Figures 1-4 anchor plate 2 made executions analogously to, which is why in Figure 6 for parts same function the same reference numerals have been used and to explain them to the above Figures 1 - 4 given description.

To the cover plate 4 on the anchor plate or Attaching the anchor rail is convenient below Manufacturing process described with reference to Figures 7 and 8 used.

On a hard rubber plate 10, which is useful from a Frame 11 is enclosed, the panel is first 4 laid. On the panel 4 is the one already provided with the anchoring elements 3 Anchor plate 2 placed with its front 2a. It will then exerted pressure P on the back 2b of the anchor plate, through which the panel 4 together with the anchor plate 2 pressed into the hard rubber plate becomes. This indentation takes place so far that the edge areas 4a of the cladding sheet through the over the Plate edge 2c of the anchor plate 2 protruding areas 10a of the hard rubber plate 10 pressed against the edge of the plate will. The edge regions protruding beyond the plate edge 2c 4a of the cladding sheet 4 are also partially pushed in as shown in Figure 8 is. Then in a further step the protruding edge regions 4a by means of a pressing tool pressed against the back 2b of the anchor plate will. In the embodiment shown in Figure 5 this pressing process is omitted. The rounded corners 2d of the anchor plate 2 prevent the cladding sheet from tearing at the corner areas of the anchor plate, if the cladding sheet in the previously described Is deformed around the plate edge 2c. At an anchor rail 2 'with the cladding attached this manufacturing process in an analogous manner will.

Claims (17)

Anchoring device for embedding in concrete, with a steel anchor plate or anchor rail, which has a front side, a rear side and an edge extending therebetween, on the front side of which force-transmitting attachments can be fastened by means of screws or bolts which are shot into the anchor plate or anchor rail, and with the back of which several anchoring elements protruding therefrom are firmly connected, which can be embedded in the concrete, a corrosion protection layer being provided at least on the front, characterized in that the corrosion protection layer is connected to the anchor plate (2) or anchor rail (2 ') Cladding sheet (4) is made of stainless steel, which covers the entire front (2a, 2'a) and also comprises at least the edge (2c, 2'c). Apparatus according to claim 1, characterized in that the plate edge (2c) is undercut by enclosing an angle (µ) of less than 90 ° with the front (2a), and in that the cladding plate (4) for the positive connection with the Anchor plate (2) is pressed tightly against the undercut plate edge (2c). Device according to claim 1 or 2, characterized in that at least partial areas of the edge areas (4a) of the cladding sheet (4) are bent towards the rear (2b, 2'b) of the anchor plate (2) or anchor rail (2 '). Device according to one of the preceding claims, characterized in that an insulating layer (5) is provided between the cladding plate (4) and the anchor plate (2) or anchor rail (2 ') to avoid electrochemical reactions. Device according to claim 4, characterized in that the insulating layer (5) is a plastic layer. Device according to claim 5, characterized in that the plastic layer (5) is formed by a plastic film. Device according to claim 5, characterized in that the entire anchor plate (2) or anchor rail (2 ') including the anchoring elements (3) is provided with a plastic coating. Device according to one of the preceding claims, characterized in that the cladding sheet (4) has a thickness of approximately 0.1-0.3 mm. Device according to one of the preceding claims, characterized in that the anchor plate (2) or anchor rail (2 ') consists of unalloyed or low-alloy steel (structural steel). Device according to one of the preceding claims, characterized in that the anchor plate (2) is rectangular and has rounded corners (2d). Device according to claim 10, characterized in that the rounding radius (R) at the corners (2d) is at least 10 mm. Device according to one of the preceding claims, characterized in that a spacer plate (7) made of low-strength material is arranged on the rear side (2b) of the anchor plate (2) or anchor rail (2 '). Device according to claim 12, characterized in that the spacer plate (7) consists of rigid foam. Device according to claim 2, characterized in that the undercut of the plate edge (2c) is produced by a large cut gap when punching out the anchor plate (2). Device according to one of the preceding claims, characterized in that the anchor rail (2 ') has on its two longitudinal sides in each case an edge (2'c) bent over by 90 ° with respect to the front side (2'a). Method for manufacturing the anchoring device according to one of the preceding claims, characterized in that the initially flat cladding plate is placed on a hard rubber plate, that the front side of the anchor plate or anchor rail provided with the anchoring elements is placed on the cladding plate, and that then on the rear side of the anchor plate or anchor rail pressure is exerted by which the cladding plate together with the anchor plate or anchor rail are pressed into the hard rubber plate to such an extent that the edge regions of the cladding plate are pressed against the edge by the regions of the hard rubber plate projecting beyond the edge of the anchor plate or anchor rail. A method according to claim 16, characterized in that a hard rubber plate is used, which is enclosed by a frame, the internal dimensions of which are equal to or slightly larger than the dimensions of the initially flat cladding sheet.

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