EP1905923A2 - Tie rod and assembly for reinforcing existing construction elements against punching with such a tie rod - Google Patents

Abstract

An anchoring section (26), a threaded section (27) to receive a tensioning nut, and an intermediate section (28) are provided. Intermediate section has a coating (29) and a sleeve that surrounds the anchor bar (21). Intermediate section is located between the anchoring section and the threaded section and has an anti-adhesive surface. An independent claim is included for an arrangement for reinforcing constructional components against punching shears.

Description

The invention relates to an anchor rod with an anchoring portion and a threaded portion. Furthermore, the invention relates to an arrangement for reinforcing existing components against punching with such an anchor rod.

Generic anchor rods are rod-shaped anchor rods z. B in a with a curable material, such. As a mortar filled borehole introduced and are biased by the beginning of the Abbindevorgangs the curable composition by means of a biasing means. For example, from the US 4,662,795 Such an anchor rod is known as a rock anchor. This anchor rod has, starting from a first end, an anchoring section in the form of a profiled section and, starting from a second end, a threaded threaded section, the threaded section adjoining the anchoring section. The borehole is partially filled with a hardenable mass and the anchor rod with the anchoring portion is inserted into the borehole ahead. After the beginning of the setting process of the hardenable mass, a clamping nut is screwed onto the thread of the threaded portion and the anchor rod biased, wherein the clamping nut is supported by a washer on the ground. The area of the anchor rod that is not anchored in the hardenable mass may lengthen as a result of the applied preload load.

A disadvantage of the known solution is that the anchor rod is not completely embedded in the curable composition and thus is not performed in the non-embedded region of the borehole. The anchor rod must therefore be made massive in order to absorb the loads acting on it. However, the large material consumption increases the production cost of such an anchor rod significantly, so that it is no longer economically viable, especially as a mass product.

In constructive concrete construction, flat roofs supported on supports, in particular in bridges, industrial and commercial buildings, have become established, which are often very filigree. Are these flat ceilings with respect to the reinforcement under or these z. B. overloaded by increasing the load on the flat ceiling, the components fail mainly due to bending or punching. Bending failure can be detected by slowly bending bends. In contrast, a failure of a component in the punching takes place suddenly and without advance notice by a so-called brittle fracture.

The failure due to bending can be counteracted in an existing structure by means glued in the bending zone additional reinforcement in the form of steel or glass fiber reinforced plastic slats. A subsequent reinforcement of a component to increase the resistance to punching on the other hand presents a problem. Although it can be increased by placing a steel structure or concrete concreting the resistance of a component, however, such the space profile limiting measures are constructive or aesthetically often undesirable or due to the resulting limited use not possible.

From the DE 196 20 029 A1 is a reinforcing device for subsequently increasing the resistance to punching in a stored on supports flat ceiling known. Through the ceiling holes are created near the support. The reinforcing device comprises two parts which are respectively arranged at the bottom and the top of the ceiling and connected to each other via a screw mechanism to produce a biasing force. The remaining cavities in the borehole are filled with an injection mortar.

A disadvantage of the known solution is that for the arrangement of the reinforcing device, the component must be accessible from both sides. If this is a floor ceiling, the rooms above and below the ceiling can only be used to a limited extent or not at all. Should z. B. a flat ceiling of an underground parking covered with earth are reinforced, the area above the ceiling must be removed from the ground for mounting the known amplifying device. In addition, the seal is pierced when drilling through the ceiling, which must be laboriously sealed again.

The object of the invention is to provide a prestressable anchor rod, which is simple and economical to produce. It is also the object of the invention to provide an arrangement for To create subsequent reinforcement of existing components against punching with such an anchor rod that is easy to install.

The objects are achieved by the features of the independent claims. Advantageous developments are set forth in the subclaims.

According to the invention, an intermediate portion with an anti-adhesive surface is provided between the anchoring portion and the threaded portion.

The anchoring portion has, for example, a profiling which ensures a sufficient connection and thus sufficient anchoring of the anchor rod with the hardened mass. For example, the anchoring portion is formed by a reinforcing rod portion with ribs. The threaded portion has, for example, a machine thread on which a clamping nut can be screwed. The design of the intermediate portion is secondary as long as the surface prevents the hardenable mass from adhering to the anchor rod in this region and a biasing force can be applied to the anchor rod.

As a result of the intermediate portion with the non-adhesive or non-adhesive surface of the anchor rod in the wellbore can be largely completely embedded by the hardened mass, which can achieve high anchoring values despite the prestressing of the anchor rod and this is sufficiently out in deep wells. In addition, the anchor rod is economical to produce, since essentially only the maximum applied preload force is decisive for the design of the anchor rod. Optionally, the threaded portion, which protrudes from the ground with a set anchor rod, and the intermediate portion made of a stainless steel.

Preferably, the intermediate portion is provided with a surrounding the anchor rod sleeve. The sleeve is made for example of a plastic and has an inner diameter which is smaller than the outer diameter of the anchor rod in the region of the intermediate portion. The sleeve is z. B. pushed over the anchor rod and is on this, if necessary, displaced or cut to length to apply different biasing forces or to be able to achieve certain anchoring values with a kind of anchor rod. For example, the hardenable mass may adhere to the outside of the sleeve, but the hardenable mass is prevented from adhering to the intermediate portion by the sleeve. Alternatively, the outside of the sleeve may have an anti-adhesive or non-adhesive surface which may adhere the hardenable mass prevents the sleeve. The thread of the threaded portion may connect directly to the anchoring portion in this embodiment of the anchor rod, wherein the axial extent of the pushed onto the anchor rod sleeve defines the intermediate portion of the anchor rod.

In a variant according to the invention, the intermediate section is provided with a coating which prevents adhesion of the curable composition to the anchor rod in the region of the intermediate section. The coating is, for example, a plastic sprayed onto the anchor rod, a coating or a plastic film which prevents adhesion of the hardenable compound to the intermediate section. The thread of the threaded portion may connect directly to the anchoring portion in this embodiment of the anchor rod, wherein the axial extent of the coating applied to the anchor rod coating defines the intermediate portion of the anchor rod.

An inventive arrangement for reinforcing existing components against punching comprises an anchor rod having an anchoring portion and a threaded portion and an intermediate portion with a non-adhesive surface between the anchoring portion and the threaded portion. The anchor rod is inserted into a wellbore located at an angle to the surface of the component and filled with a hardenable mass and biased by a biasing means.

The borehole is advantageously bored in the direction of the support up to the level of the upper reinforcement, whereby the anchor rod anchored in the borehole after hardening of the mass bridges the punching cracks obliquely. By means of z. As a screwed onto the thread of the threaded portion clamping screw as biasing means, which is supported for example via a washer as a support device on the ground, the anchor rod is biased. The resistance of the subsequently reinforced component against punching can be increased by more than 50% by the arrangement according to the invention. The assembly takes place only from one side of the component and the original volume of the building is maintained even after the arranged reinforcement. A penetration of the component to be reinforced is not required, which allows economical installation of sealed components, such as underground car parks or roof structures.

The supporting device advantageously comprises a two-part washer, one part with a convex receptacle and one part with a concave, complementary to the convex Receiving trained projection has. With such a support device, inaccuracies in the alignment of the individual parts of the arrangement and the ground can be easily compensated.

Preferably, the angle of the borehole to the surface of the component is 30 ° to 60 °, whereby a bridging of the punching cracks in the component is ensured. Advantageously, the angle of the borehole to the surface of the component is 40 ° to 50 °.

At least one centering element is preferably provided on the anchor rod. The at least one centering element is, for example, an elastic ring section whose outer radial extent is greater than the inner diameter of the borehole conventionally used and whose inner diameter is slightly smaller than the outer diameter of the anchor rod. The at least one centering element ensures a complete, uniform wrapping of the anchor rod in the borehole with the hardenable mass. Advantageously, the at least one centering element has passage openings for the hardenable mass, through which the mass displaced during the insertion of the anchor rod can ascend to the borehole mouth. Furthermore, a centering element facing the borehole mouth can also be designed as a sealing element which prevents the escape of displaced hardenable mass from the borehole and thus contamination of the working area with the hardenable mass. The at least one centering used in overhead applications as a holder against slipping out of the anchor rod during the Abbindevorgang the hardenable mass. Advantageously, a plurality of spaced-apart centering elements are provided on an anchor rod. The centering elements are provided, for example, on the anchoring section and / or on the threaded section.

In an advantageous embodiment, the borehole has a recess arranged centrally and open toward the surface of the component, which in the assembled state of the arrangement essentially receives the biasing means and the section of the anchor rod projecting from the borehole. The biasing mechanism is recessed in the component and there are no elements of the assembly over the surface of the component. In addition, a conventional annular washer may be provided as a supporting device for the biasing member. In this arrangement, an advantageous introduction of the clamping forces takes place in the underground.

Advantageously, a cup-shaped reinforcing element is provided with a passage opening for the anchor rod in the recess, wherein its configuration complementary to Well is formed. The reinforcing element is made of a metal, for example, and supports the wall of the depression, so that the pressure forces acting in this area in the component can be absorbed by the component substantially in the region of the original values despite the arranged depression.

Preferably, the recess is filled with a filling compound, whereby the subsequently arranged reinforcement from the outside is no longer or only slightly recognizable. Furthermore, the behavior of the inventive arrangement is significantly improved by the filled recess in case of fire. The filling compound is, for example, a hardenable mass in the form of a fire protection compound or a mortar. Alternatively, a fire protection foam can be used as filling compound.

In a further advantageous embodiment, a bevelled washer is provided, wherein the angle of the chamfer to the axis of the passage opening for the anchor rod corresponds to the angle of the borehole to the surface of the component. The biasing force applied to the tie rod by the biasing means is introduced into the washer as a support and directed into the ground via the beveled surface of the washer in contact with the component.

Preferably, a sealing disc is provided, which is acted upon by the biasing means. Thus, the bore hole and thus the lying in the borehole part of the anchor rod is sealed to the outside when biasing the anchor rod. The sealing disk preferably has a filling channel which, after the pretensioning operation, permits a subsequent filling of the area at the borehole mouth with a curable sealing compound. In this case, a possible annular gap between the anchor rod and a support device or the biasing means is closed by the injected sealant and created a backlash-free connection.

Fig. 1

Ein erstes Ausführungsbeispiel eines erfindungsgemässen Ankerstabs in der Seitenansicht;

Fig. 2

Ein zweites Ausführungsbeispiel eines erfindungsgemässen Ankerstabs in der Seitenansicht;

Fig. 3

zwei Ausführungsbeispiele von erfindungsgemässen Anordnungen an einer Flachdecke in einem schematischen Schnitt;

Fig. 4

einen Detailausschnitt gemäss IV in Fig. 3;

Fig. 5

einen Detailausschnitt gemäss V in Fig. 3; und

Fig. 6

einen Schnitt durch ein Verstärkungselement.

The invention will be explained in more detail below with reference to embodiments. Show it:

Fig. 1

A first embodiment of an inventive anchor rod in the side view;

Fig. 2

A second embodiment of an inventive anchor rod in the side view;

Fig. 3

two embodiments of inventive arrangements on a flat ceiling in a schematic section;

Fig. 4

a detail section according to IV in Fig. 3;

Fig. 5

a detail section according to V in Fig. 3; and

Fig. 6

a section through a reinforcing element.

Basically, the same parts are provided with the same reference numerals in the figures.

The anchor rod 11 shown in Figure 1 has an anchoring portion 16 extending from a first end 12, a threaded portion 17 extending from a second end 13, and an intermediate portion 18 having an anti-adhesive surface disposed between the anchoring portion 16 and the threaded portion 17 is provided. The intermediate portion 18 is provided with a surrounding the anchor rod 11 sleeve 19, which consists of a plastic z. B. is made with anti-adhesive properties. The anchoring portion 16 is formed by a ribbed reinforcing bar. The threaded portion 17 has an external thread for a clamping nut as a biasing means 14. The intermediate portion 18 has in this embodiment, a smooth surface on which the sleeve 19 is slidably fixed.

The anchor rod 21 according to FIG. 2, like the anchor rod 11, has an anchoring portion 26 extending from a first end 22, a threaded portion 27 extending from a second end 23, and an intermediate portion 28 having a non-adhesive surface disposed between the anchoring portion 26 and the threaded portion 27 is provided. In contrast, however, to provide a non-adhesive surface of the intermediate portion 28, a coating 29 is provided.

FIG. 3 shows two exemplary embodiments of arrangements 31 and 51 according to the invention for reinforcing an existing flat ceiling 6 mounted on supports 7 against punching with anchor rods 11 and 21, each having an anchoring section 16 or 26 and a threaded section 17 or 27 and an intermediate section 18 and 28 with a non-adhesive surface between the anchoring portion 16 and 26 and the threaded portion 17 and 27, respectively. In both embodiments, the anchor rods 11 and 21 in a arranged at an angle to the surface 8 of the flat ceiling 6 and filled with a curable material 33 or 53 boreholes 34 and 54th introduced and biased by means of biasing means 32 and 52, respectively. For the alignment of the anchor rods 11 and 21 in the borehole 34 and 54, each anchor rod 11 and 21 each have two centering elements 35 and 55, respectively. The anchor rods 11 and 21 are held by the centering elements 35 and 55 during the setting time of the curable material 33 and 53 in the borehole 34 and 54 in position and are thereby secured against slipping out of the borehole 34 and 54 respectively.

In the arrangement 31 according to the first embodiment, as shown in FIG. 3 to the right of the support 7 and in detail in FIG. 4, first the boreholes 34 are raised to the level of the upper reinforcement 9 of the flat ceiling 6 created an angle alpha of about 45 ° to the surface 8 of the flat ceiling 6 and the support 7 out. Subsequently, each well 34 is filled with a mortar as hardenable mass 33, wherein advantageously a jam is used, which largely prevents unwanted air inclusions during the filling process in the hardenable mass 33. Then, the anchor rod 11 is inserted into the filled well 34. About the free end 13 of the anchor rod 11 a beveled washer 36 is guided. The angle beta of the chamfer 37 of the washer 36 to the axis 39 of the passage opening 38 for the anchor rod 11 corresponds to the angle alpha of the borehole 34 to the surface 8 of the flat ceiling 6. Further, a sealing washer 40 is provided which is acted upon by the biasing means 32 and a Verfüllkanal 41 has. Through the filling channel 41 a sealant is filled, which closes any leaks in this area.

In the arrangement 51 according to the second embodiment, as shown with reference to FIG. 3 to the left of the support 7 and in detail in FIGS. 5 and 6, boreholes 54 are again first made up to the level of the upper reinforcement 9 of the flat ceiling 6 created at an angle delta of about 50 ° to the surface 8 of the flat ceiling 6 and the support 7 out. Subsequently, for each borehole 54, a depression 56, which is centrally arranged relative to the borehole 54 and open towards the surface 8 of the flat roof 6, is created, for example, with a coring bit. Then, each well 34 is filled with a mortar as hardenable mass 53 and inserted into the recess 56, a cup-shaped reinforcing element 66. Subsequently or alternatively, before inserting the reinforcing element 66 into the recess 56, the anchor rod 21 is inserted into the filled borehole 54. About the free end 23 of the anchor rod 21, a two-piece washer 61 is guided as a supporting device, which is acted upon by means of the clamping screw as a biasing means 52. The washer 61 comprises a first part 62 with a convex receptacle and a second part 63 with a concave, complementary to convex recording trained projection. The first part 62 of the washer 61 may be formed, for example, as a sealing washer. The depression 56 is finally filled with a fire protection mortar as filling compound 58.

The cup-shaped reinforcing element 66 shown in section in FIG. 6 has a configuration that is essentially complementary to the depression 56. The circular-shaped reinforcing element 66 has a bottom section 67 with a passage opening 68 for the anchor rod 21 and a wall section 69 which varies in height. The minimum height H1 and the maximum height H2 are selected such that the reinforcing element 66 does not project beyond the surface 8 of the flat ceiling 6 in the state inserted into the depression 56. The angle gamma of the slope 71 to the axis 70 of the passage opening 68 for the anchor rod 21 corresponds to the angle alpha of the borehole 54 to the surface 8 of the flat ceiling 6.

Claims (12)

An anchor rod having an anchoring portion (16; 26) and a threaded portion (17; 27), characterized in that between the anchoring portion (16; 26) and the threaded portion (17; 27) has an intermediate portion (18; 28) with an anti-adhesive Surface is provided. An anchor rod according to claim 1, characterized in that the intermediate portion (18) with a the anchor rod (11) surrounding sleeve (19) is provided. An anchor rod according to claim 1, characterized in that the intermediate portion (28) is provided with a coating (29). An assembly for reinforcing existing components (6) against punching with an anchor rod (11; 21) comprising an anchoring portion (16; 26) and a threaded portion (17; 27) and an intermediate portion (18; 28) having an anti-adhesive surface between the anchoring portion (16; 26) and the threaded portion (17; 27), wherein
the anchor rod (11; 21) is introduced into a borehole (34; 54) arranged at an angle (alpha; delta) to the surface (8) of the component (6) and filled with a hardenable mass (33; 53)
is biased by means of a biasing means (32; 52). Arrangement according to claim 4, characterized in that the angle (alpha) of the borehole (34; 54) to the surface (8) of the component (6) is 30 ° to 60 °. Arrangement according to claim 4 or 5, characterized in that at least one centering element (35; 55) is provided on the anchor rod (11; 21). Arrangement according to one of claims 4 to 6, characterized in that the borehole (54) has a centrally arranged and to the surface (8) of the component (6) open toward recess (56). Arrangement according to claim 8, characterized in that a cup-shaped reinforcing element (66) with a passage opening (68) for the anchor rod (21) in the Recess (56) is provided, wherein the configuration is formed complementary to the recess (56). Arrangement according to claim 7 or 8, characterized in that the depression (56) is filled with a filling compound (58). Arrangement according to one of claims 4 to 6, characterized in that a beveled washer (36) is provided, wherein the angle (beta) of the chamfer (37) to the axis (39) of the passage opening (38) for the anchor rod (11) Angle (alpha; delta) of the borehole (34) to the surface (8) of the component (6) corresponds. Arrangement according to one of claims 4 to 10, characterized in that a sealing disc (40) is provided, which is acted upon by the biasing means (32). Arrangement according to claim 11, characterized in that the sealing disc (40) has a filling channel (41).

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