EP2166173A1 - Reinforcement unit for foundation constructions - Google Patents

Abstract

The unit (20) has reinforcement elements (1) provided with a set of reinforcement iron i.e. vertical rods (2a, 22a). The rods are connected together via multiple of longitudinal rods, in an upper reinforcement section (35). Three of the vertical rods exhibit rectangular bending units (7a, 9a, 27a, 29a) in a bending direction, in a lower reinforcement section (36). Lower side pieces (6a, 26a), outer side pieces (8a, 28a), and upper side pieces (10a, 30a) are designed for limitation of a foundation reinforcement cage (37), which protrudes under wall reinforcement grids (13, 33). An independent claim is also included for a method for reinforcement of a concrete wall.

Description

The invention relates to a reinforcement unit for foundation structures according to the preamble of claim 1 and the use of such a reinforcement unit, a reinforcing element and a method for concrete wall reinforcement.

Such a reinforcement unit, which is used in the preparation of connections of walls to floor cover plates, in the connection of two walls, as well as in the creation of strip foundations is from the EP 309 393 B1 known. Here, two uniform reinforcement parts, each with a number of L-shaped bent vertical rods are provided, which are interconnected in a lower reinforcement section by longitudinal bars and which are assembled in a mirror-symmetrical relative arrangement. The Zusammensteckbarkeit of the reinforcement parts is ensured by the fact that a connecting rod is attached to the inside of the longer leg of the L-shaped bend at a distance above the shorter leg, the sum of the diameter of the L-shaped bent rod plus the diameter of the shorter Leg welded connection rod corresponds.

However, such a reinforcement unit is suitable either only for reinforcement of the wall connections or only for reinforcement of the foundation body. Consequently, care must be taken either separately for the reinforcement of the entire strip foundation or for the assignment of the wall connections. Furthermore, the known reinforcement has the disadvantage that by the arrangement of the longitudinal bars in the lower reinforcement section, the maximum or minimum spacing of the reinforcement parts is limited and is thus limited with regard to the connectable wall width. Furthermore, the freely upwardly projecting long legs of the L-shaped vertical bars constitute a considerable risk of injury when laying the reinforcement.

On this basis, the invention has the object, a reinforcement unit of the type mentioned in such a way that in particular while avoiding the aforementioned disadvantages, a reinforcement of the complete strip foundation body and the associated wall connection is made possible.

The above object is achieved by a reinforcement unit according to claim 1.

According to the present invention, therefore, the erection of a concrete wall reinforcement is made possible in a particularly simple manner in that the reinforcement unit consists of two single parts which can be easily inserted into one another, while nevertheless ensuring flexible adjustability to different wall widths and foundation base widths. Through the two Wandarmierungsgitter and the two-sided projection of the foundation reinforcement basket, the complete reinforcement of a strip foundation and the associated wall connection is provided in one piece.

Further preferred embodiments of the invention are defined by the dependent claims.

Fig. 1:

eine perspektivische Ansicht eines Bewehrungselements;

Fig. 2:

eine Vorderansicht des in Fig. 1 gezeigten Bewehrungselements;

Fig. 3:

eine Vorderansicht einer Bewehrungseinheit in einer ersten Ausführungsform mit zwei Bewehrungselementen in einer entfernten Relativstellung der Bewehrungselemente;

Fig. 4:

die in Fig. 3 gezeigte Bewehrungseinheit in einer nahen Relativstellung der Bewehrungselemente;

Fig. 5:

eine Vorderansicht einer Bewehrungseinheit in einer zweiten Ausführungsform mit zwei Bewehrungselementen in einer entfernten Relativstellung der Bewehrungselemente; und

Fig. 6:

die in Fig. 5 gezeigte Bewehrungseinheit in einer nahen Relativstellung der Bewehrungselemente.

The invention is explained in more detail below with reference to a preferred embodiment with reference to the drawings. Showing:

Fig. 1:

a perspective view of a reinforcing element;

Fig. 2:

a front view of the in Fig. 1 shown reinforcement element;

3:

a front view of a reinforcement unit in a first embodiment with two reinforcing elements in a remote relative position of the reinforcing elements;

4:

in the Fig. 3 shown reinforcement unit in a close relative position of the reinforcing elements;

Fig. 5:

a front view of a reinforcement unit in a second embodiment with two reinforcing elements in a remote relative position of the reinforcing elements; and

Fig. 6:

in the Fig. 5 shown reinforcement unit in a close relative position of the reinforcing elements.

The Fig. 1 schematically shows a reinforcing element 1, which comprises six identically formed reinforcing bars in the form of vertical bars 2a-2f. A first section of the vertical bars 2a-2f is formed by an inner leg 3a-3f, wherein the inner legs 3a-3f extend parallel to each other within a common inner surface 3 and at the upper end of the Reinforcement element 1 each have a free end 4a-4f. At the lower end of the inner surface 3, the inner legs 3a-3f open via a respective right-angle bend 5a-5f in lower legs 6a-6f of the vertical rods 2a-2f. Due to the parallel arrangement of the lower legs 6a-6f, a lower surface orthogonal to the inner surface 3 is formed.

At their opposite with respect to the inner surface 3 ends open the lower legs 6a-6f via a respective second right-angled bend 7a-7f in the same bending direction in outer leg 8a-8f. By the outer legs 8a-8f a parallel to the inner surface 3 outer surface 8 is formed. In a third rectangular bend 9a-9f, each of the outer legs 8a-8f terminates in a thigh 10a-10f, with the thighs 10a-10f extending parallel to the lower legs 6a-6f toward the inner surface 3 to form a top surface 10 is. The thighs 10a-10f open into the lower free ends 11a-11f of the vertical rods 2a-2f.

Along the inner surface 3, a plurality of longitudinal bars 12a-12d are arranged at substantially the same spacing above the outer surface 8 parallel thereto, whereby the vertical bars 2a-2f are rigidly connected to one another. The uppermost longitudinal bar 12a is located at the upper free end 4a-4f of the vertical bars 2a-2f. In this way, the free-standing lengths at the free ends 4a-4f are kept to a minimum in order to prevent a risk of injury and to comply with current safety standards. The lowermost longitudinal bar 12 d is arranged at the upper edge of the projection surface of the outer surface 8. The thus formed planar lattice-shaped portion of the inner surface 3 above the parallel outer surface 8 fulfills the function of a Wandarmierungsgitters 13th

The Fig. 2 shows the reinforcing element 1 in a schematic front view, from which the shape of the front vertical rod 2a shows an example of the rods 2a-d.

The Fig. 3 shows a reinforcement unit 20 in a schematic front view, which consists of the above-described reinforcement element 1 and a second, in principle identically designed reinforcing element 21. Accordingly, the second reinforcing element 21 also has an inner surface 23, a lower surface 26, an outer surface 28, an upper surface 30 and a wall reinforcement grid 33. Furthermore, the profiled representation of the front vertical bar 22a of the second reinforcing element 21 shows its inner leg 23a, its lower leg 26a, its outer leg 28a and its upper leg 30a adjoining the three successive right-angled bends 25a, 27a, 29a. The remaining number of vertical rods is formed with respect to the bends and the formation of the legs, with reference only to the respective front vertical bars 2a, 22a of the reinforcing elements 2a, 22a referred to below.

The two reinforcing elements 1, 21 are arranged with respect to their inner surfaces 3, 23 and outer surfaces 8, 28 mirror-symmetrical to each other, so that an upper reinforcement section 35 is formed by the two Wandarmierungsgitter 13, 33. The lower legs 6a, 26a, outer legs 8a, 28a and thighs 10a, 30a of the two Reinforcing elements 1, 21 are arranged in a lower reinforcing portion 36, so that a three-dimensional body is formed, which projects from both sides under the Wandarmierungsgittern 13, 33 and which fulfills the function of a Stützarmierungskorbs 37. Since the longitudinal bars 12a-12d are arranged only in the upper reinforcement section 35, it is possible for the formation of the foundation reinforcement cage 37 to engage the two reinforcement elements 1, 21 inside the lower reinforcement section 36 in mirror-symmetrical manner.

Due to the planar arrangement of the lower surfaces 6, 26 of the two reinforcing elements 1, 21, a transverse support surface 38 is formed for the entire reinforcement unit 20. In this case, the front lower legs 6a, 26a as well as the other corresponding lower legs of the reinforcing elements 1, 21, at least in their front portion arranged parallel adjacent to each other, so that they have a common overlap portion 39 within the support surface 38. The width of the overlapping portion 28 substantially corresponds to the spacing W of the inner surfaces 3, 23, wherein in the in Fig. 3 shown a remote relative position of the reinforcing elements 1, 21 is shown. By relative displacement of the reinforcing elements 1, 21 along the lower legs 6a-6f, 26a, the width of the overlapping section 28 is variable.

The Fig. 4 shows the reinforcement unit 20 in a close relative position of the reinforcing elements 1, 21. In this case, the inner surfaces 3, 23 moved closer to each other, so that the width of the overlap portion 39 is reduced and the two-sided projection of the Stützarmierungskorbs 37th is widened accordingly. In this way, the foundation reinforcement basket 37 can be adapted to a desired foundation base width and / or the spacing W of the wall reinforcement meshes 13, 33 can be adapted to a desired wall width.

The Fig. 5 shows a reinforcement unit 40 according to the invention in a second embodiment, which in addition to the above-described reinforcing element 1 has a second, differently designed reinforcing element 41. Both the number and the spacing of the triple-curved parallel vertical bars of the second reinforcing element 41 correspond to those of the first reinforcing element 1. In the profiled view shown, the front vertical bar 42a of the second reinforcing element 41 can be seen, whose inner leg 43a is shorter in each case and lower leg 46a is longer than the inner leg 3a and lower leg 6a of the front vertical rod 2a of the reinforcing element 1. However, the outer leg 8a, 48a and the thighs 10a, 50a of the first and second reinforcing elements 1, 41 are formed substantially identical. Even with the reinforcing element 41, a plurality of longitudinal bars are arranged only above the height of the outer legs 48a, ie in the upper reinforcement section 55 of the reinforcement unit 40. As a result, the Wandarmierungsgitter 53 of the second reinforcing element 41 is formed. Furthermore, in Fig. 5 the lower surface 46, the outer surface 48 and the upper surface 50 of the second reinforcing element 41 indicated and the lower reinforcing portion 56 of the reinforcement unit 40 with the foundation reinforcing basket 57th

The in Fig. 5 shown remote relative position of the reinforcing elements 1 and 41 is in Fig. 6 a close relative position of the reinforcing elements 1 and 41 compared. Such is according to the already with reference to FIGS. 3 and 4 explained manner, the overlapping portion 59 and thus the mutual spacing W of the inner surfaces 3 and 43 and / or the two-sided projection of the Stützarmierungskorbs 57 and the width of the support surface 58 variable.

In order to prepare a reinforcement for a foundation construction by means of a described reinforcement unit 20, 40, it is normally sufficient to erect at least two reinforcing elements 1, 21 or 41 in each case in such a way that they are in accordance with the arrangement shown in FIGS. 3-6 shown within the lower reinforcement section mirror-symmetrically intermesh. By varying the overlap portion 39, 59, the two-sided overhang length of the foundation reinforcement basket 37, 57 is adjusted to the desired foundation base width and the mutual spacing of the wall reinforcement meshes 13, 33 or 53 to the desired concrete wall width.

The length and spacing of the lower legs 6a-f, 26a, 46a is designed such that the support surface 38, 58 of the reinforcement 20, 40 meets the given stability requirements. Similarly, the outer leg 8a-f, 28a, 48a and the thighs 10a-f, 30a, 50a adapted to a predetermined anchoring length for the strip foundation and the design of the two Wandarmierungsgitter 13, 33, 53 to a predetermined anchoring length of the wall connection. In particular, by the dimension of the outer legs 8a-f, 28a, 48a and the right angle bent thigh 10a-f, 30a, 50a achieved a very easy-to-use and thereby highly pressure and / or tensile strength reinforcement of the foundation body. The length of the outer legs 8a-8f, 28a, 48a in the normal case corresponds to the height of the foundation, while the length of the thighs 10a-10f, 30a, 50a corresponding to the flexibility of the vertical bars 2a-f, 22a, 42a is at least 50 mm, or at most Length of the lower legs 6a-6f, 26a, 46a corresponds to achieve a particularly high-grade foundation anchorage.

• Die Vertikalstäbe 2a-2f, 22a, 42a und Längsstäbe 12a-12d können in nahezu beliebiger Anzahl und Beabstandung angeordnet sein, welche jeweils den vorbestimmten Stabilitätsanforderungen an die zu verlegende Betonwandbewehrung gerecht wird.
• Nicht alle der Vertikalstäbe 2a-2f, 22a, 42a müssen drei rechtwinklige Biegungen 5a-5f, 7a-7f, 9a-9f, 25a, 27a, 29a aufweisen. Vielmehr ist auch die Anordnung einer Teilanzahl von Vertikalstäben 2a-2f, 22a, 42a mit einer geringeren oder höheren Anzahl von Biegungen denkbar.

From the foregoing description modifications of the inventive reinforcement unit are accessible to the skilled person without departing from the scope of the invention, which is defined solely by the claims. It is conceivable, inter alia:

• The vertical bars 2a-2f, 22a, 42a and longitudinal bars 12a-12d can be arranged in almost any number and spacing, each of which meets the predetermined stability requirements for the concrete wall reinforcement to be laid.
• Not all of the vertical bars 2a-2f, 22a, 42a must have three right-angle bends 5a-5f, 7a-7f, 9a-9f, 25a, 27a, 29a. Rather, the arrangement of a number of vertical bars 2a-2f, 22a, 42a with a smaller or higher number of bends is conceivable.

LIST OF REFERENCE NUMBERS

1

reinforcing element

2a-2f

vertical bars

3

palm

3a-3f

inner thighs

4a-4f

upper free end

5a-5f

first bend

6

undersurface

6a-6f

lower leg

7a-7f

second bend

8th

outer surface

8a-8f

outer leg

9a-9f

third bend

10

upper surface

10a-10f

thigh

11a-11f

lower free end

12a-12d

longitudinal bars

13

Wandarmierungsgitter

20

reinforcing unit

21

second reinforcement element

22a

vertical bar

23

palm

23a

inner thighs

25a

first bend

26

undersurface

26a

lower leg

27a

second bend

28

outer surface

28a

outer leg

29a

third bend

30

upper surface

30a

thigh

33

Wandarmierungsgitter

35

Upper reinforcement section

36

lower reinforcement section

37

Fundamentarmierungskorb

38

wing

39

overlapping portion

40

reinforcing unit

41

reinforcing element

42a

front vertical bar

43

palm

43a

inner thighs

46

undersurface

46a

lower leg

48

outer surface

48a

outer leg

50

upper surface

50a

thigh

53

Wandarmierungsgitter

55

Upper reinforcement section

56

lower reinforcement section

57

Fundamentarmierungskorb

58

wing

59

overlapping portion

W

Spacing the side surfaces

Claims (12)

Reinforcement unit for foundation structures consisting of two mirror-symmetrically arranged reinforcing elements (1, 20, 40) each having a plurality of mutually parallel vertical rods (2a-2f, 22a, 42a), in an upper reinforcement section (35, 55) by a plurality of longitudinal bars ( 12a-12d) are interconnected and are free at their upwardly directed end, so that two substantially planar Wandarmierungsgitter (13, 33, 53) are formed, characterized in that in a lower reinforcing portion (36, 56) at least a part number the vertical bars (2a-2f, 22a, 42a) have three successive substantially rectangular bends (5a-5f, 7a-7f, 9a-9f, 25a, 27a, 29a) in the same bending direction, whereby lower legs (6a-6f, 26a , 46a), outer legs (8a-8f, 28a, 48a) and thighs (10a-10f, 30a, 50a) for defining a foundation reinforcement cage formed underneath the wall reinforcement gratings (13, 33, 53) a uskragt. Reinforcement unit according to claim 1, characterized in that the length of the lower legs (6a-6f, 26a, 46a) is selected such that a stable support surface (38, 58) for the reinforcement (20, 45) is formed. Reinforcing unit according to claim 1 or 2, characterized in that the total length of outer legs (8a-8f, 28a, 48a) and thighs (10a-10f, 30a, 50a) corresponds to at least one predetermined anchoring length for the foundation reinforcement, wherein the length of the outer legs ( 8a-8f, 28a, 48a) corresponds to the foundation height. Reinforcement unit according to one of claims 1 to 3, characterized in that the length of the thighs (10a-10f, 30a, 50a) is at least 50 mm and corresponds at most to the length of the lower legs (6a-6f, 26a, 46a). Reinforcing unit according to one of claims 1 to 4, characterized in that at least three longitudinal bars (12a-12d) for stable connection between the vertical bars (2a-2f, 22a, 42a) are arranged. Reinforcing unit according to one of claims 1 to 5, characterized in that the lower reinforcement section (36, 56) is free of longitudinal bars (12a-12d) between the vertical bars (2a-2f, 22a, 42a), so that a mutual meshing of the reinforcing elements (1, 51, 101) in the area of the foundation reinforcing cage (37, 57). Reinforcement unit according to one of claims 1 to 6, characterized in that the uppermost longitudinal bar (12a) is arranged at the upper free end (4a-4f) of the vertical bars (2a-2f, 22a, 42a). Reinforcement unit according to one of claims 1 to 7, characterized in that the height of the upper reinforcement section (35, 55) corresponds to at least one predetermined connection length for the foundation reinforcement. Use of at least one reinforcement unit (20, 40) according to one of claims 1 to 8 for the reinforcement of a strip foundation body including the wall connection. Reinforcing element for concrete wall constructions each having a plurality of mutually parallel vertical rods (2a-2f, 22a, 42a), which are connected by a plurality of longitudinal bars (12a-12d) and are free at its upwardly directed end, so that in Substantially planar wall reinforcement grid (13, 33, 53) is formed, characterized in that below the wall reinforcement grid (13, 33, 53) at least a part number of the vertical rods (2a-2f, 22a, 42a) has three successive substantially right-angled bends (5a). 5f, 7a-7f, 9a-9f, 25a, 27a, 29a) in the same bending direction, whereby lower legs (6a-6f, 26a, 46a), outer legs (8a-8f, 28a, 48a) and thighs (10a-10f , 30a, 50a), which are insertable into a second correspondingly formed reinforcement element in a mirror-symmetrical arrangement, so as to form a foundation reinforcement basket and a wall connection for the concrete wall construction. A method for reinforcing a concrete wall, characterized in that the two reinforcing elements (1, 21, 41) of a reinforcement unit (20, 40) according to one of claims 1 to 8 are placed in such a way that they are mirror-symmetrical within the lower reinforcement section (36, 56) engage each other, wherein corresponding lower legs (6a-6f, 26a, 46a) of the reinforcing elements are arranged side by side so that they have a common overlapping section (39, 59) within the supporting surface (38, 58) and the length of the overlapping section (39, 59) is variable by relative displacement of the reinforcing elements (1, 21, 41) along the lower legs (6a-6f, 26a, 46a). A method according to claim 11, characterized in that by varying the overlapping portion (39, 59) the projection of the foundation reinforcement basket (37, 57) is adapted to the desired foundation base width and / or the mutual spacing (W) of the wall reinforcement mesh (13, 33) the desired wall width is adjusted.

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