NL1011038C1 - Stainless steel anchor wire for cavity walls, has wavy ends and flexible central part and is cemented between joints in brickwork or blockwork of inner and outer walls - Google Patents

Abstract

This anchor wire is made from 4 mm diameter stainless steel. The anchor wires are used during construction to link the joints in the blockwork of an inner wall to the joints in the brickwork of an outer wall. The ends (2, 3) of the wire have a wavy form to provide for greater adhesion to the mortar. The center (4) of the wire is flexible to allow the wire to be bent to accommodate difference in height between the joints in the walls.

Description

Cavity anchor as well as a method for pulling up a cavity wall using such a cavity anchor.

The invention relates to a cavity anchor provided with a body 5 with a first and second end. The invention also relates to a method for erecting a cavity wall with an inner leaf and an outer leaf, comprising the steps of: placing construction elements of the inner leaf on top of one another; placing the cavity anchors with a first end in the joint of the building elements of the inner sheet, and pulling up the outer sheet, whereby the second end part of the cavity anchors is placed in the joints of the outer sheet.

It is known to form cavity walls with cavity anchors arranged between the inner sheet and the outer sheet to increase the stability of the cavity walls. If the inner leaf and the outer leaf are formed from baked clinker, the wall anchors can be constructed as wire anchors of stainless steel with a diameter of, for example, 3 mm. These wire anchors are provided at both ends with corrugated anchoring parts for adhesion in the mortar of the joints.

If the inner sheet is formed from sand-lime blocks which are glued together with a narrow joint of, for example, 2 mm, a cavity anchor can also be used as described in Dutch patent no. 8601353 in the name of the applicant. This wall anchor is particularly suitable for fixing plates of insulating material to the inner sheet. The known cavity anchors are formed from sheet material with a flat first end, a rounded center part and a flattened and ribbed end part for adhesion in the joint of the outer sheet.

When laying the inner sheet, the wall anchors running perpendicular to the inner sheet form an obstacle for the masons. These can injure themselves on the protruding anchors. As a result, it is customary to bend the wall anchors running perpendicular to the wall after laying up a part of the inner leaf, to a height of approximately 1.40 m, so that they extend almost parallel to the inner leaf. Care must be taken to ensure that the mortar has hardened sufficiently so that the bending of the anchors does not result in displacement of the building elements. The known method is cumbersome and can lead to relatively long delays.

It is an object of the present invention to provide a cavity anchor in which the inner leaf can be raised to a relatively great height in a fast, reliable and safe manner. It is a further object of the present invention to provide a cavity anchor in which the adhesive in the joints is loaded as little as possible.

For this purpose, the cavity anchor according to the present invention is characterized in that the first end of the cavity anchor extends at an angle to the second end. Because the cavity anchors are already pre-formed at an angle, they can be fitted in the inner sheet in a rapid manner, such that the end parts that are later incorporated in the outer sheet no longer extend perpendicular to the inner sheet. As a result, no bending forces have to be exerted on the inner sheet and after the drawing up of a certain wall height it is not necessary to wait until the adhesive has hardened. Furthermore, because the cavity anchors do not protrude outwards perpendicularly to the inner sheet, a great freedom of movement is obtained for the bricklayer without running the risk of injuring the cavity anchors. In addition, the pre-bent cavity wall anchors according to the present invention remain in the correct position due to their shape, so that the bricklayer has both hands free for the handling of the building elements and the masonry tools.

In one embodiment, the angle between the first and the second end of the cavity anchor is manually adjustable by bending the body. This can be obtained by designing the cavity anchors from a relatively thin material such as, for example, a stainless steel wire with a diameter not larger than 4 mm. It is also possible to design the cavity anchors plate-shaped from a relatively thin steel plate, or to provide cavity anchors at the center part, which connects the first and second ends, with punches, material dilutions and the like, whereby an increased bendability is acquired.

A cavity anchor according to the invention will be further elucidated on the basis of three diagrammatically shown embodiments. In the drawing 1 n 1 m ^ o 3: figure 1 shows a perspective view of a wire anchor according to the present invention, figure 2 shows a perspective view of a cavity anchor 5 made of sheet material with a flat first end part, a rounded center part and a ribbed second part end part, and figure 3 shows a perspective view of a cavity anchor formed of sheet material with a bendable middle part which is provided with material punches.

Figure 1 shows a wall anchor 1, which is for instance formed from a stainless steel wire with a diameter of 4 mm. The wall anchor 1 comprises a first end 2 and a second end 3. Both ends 2 and 3 are corrugated for good adhesion in the joints of the inner leaf and the outer leaf, respectively. After the first end 2 has been placed in the inner sheet, after curing of the adhesive, the cavity anchor 1 can be bent at the location of the central part 4, so that the end parts 2 and 3 extend at least substantially in line with each other and the second end 3 extends transversely the inner page is located. The outer leaf can then be pulled up, the ends 3 being placed in the joints of the outer leaf. In order to obtain a good bendability of the central part, it is important that the diameter of the wall anchor 20 4, depending on the length thereof, is chosen such that a manual bending is possible. In one embodiment, the total length of the wall anchor 1 is in its straight position, the first and second end parts 2 and 3 extending in mutual extension about 25-30 cm.

Figure 2 shows an embodiment in which a cavity anchor 5 is entirely made of sheet material. The first end part 6 is strip-shaped and has fixing holes 7 for connection with the adhesive in the joint of the inner sheet. The central part 8 is rounded while the second end 9 is flattened and is provided with transverse grooves for anchoring in the joint of the outer sheet. At the point where the central part 8 merges into the strip-shaped first end 6, 30, the wall anchor is bent at an angle of 90 °. In the position where the central part 8 is in line with the first end 6, the cavity anchor according to figure 2 is particularly suitable for piercing plates of a relatively hard insulating material and holding these plates against the inner leaf of the cavity wall.

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Figure 3 finally shows an embodiment in which a cavity anchor 10 is formed from a flat strip of sheet material with a first end 11, a second end 12 which forms an angle of 90 ° with the first end 11 and a curved central part 13 provided with weakening holes 14 for obtaining an increased flexibility.

While the invention has been illustrated with one-piece cavity anchors, it is also possible to form the center portion from a different material than the first and second end portions, thereby providing increased bendability. It is also possible, instead of punches, to make the material of the middle part thinner than the material of the first and second end parts.

With the aid of the pre-bent cavity anchors according to the present invention, the inner leaf can be raised in its entirety without the cavity anchors having to be bent. After the adhesive of the inner sheet has hardened, the second end parts can be brought into line with the first end parts and the outer sheet can be pulled up, optionally after inserting an insulating material on the cavity anchors.

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Claims (8)

1. Wall anchor (1,5,10) provided with a body with a first (2,6,11) and a second end (3,9,12), characterized in that the first end (2,6,11 ) extends at an angle to the second end (3,9,12). Wall anchor according to claim 1, characterized in that the angle between the first (2,6,11) and the second (3,9,12) end is manually adjustable by bending the body. ; 10 ...... Cavity anchor (1) according to claim 1 or 2, characterized in that the body is thread-shaped, the ends (2,3) of which are provided with wave-shaped anchoring means. Wall tie (1) according to claim 3, characterized in that the filamentary body has a diameter between 2 mm and 5 mm. Wall tie (1,5,10) according to any one of the preceding claims, characterized in that. that the angle between the first and the second end is an at least substantially right angle. Wall tie (10) according to any one of the preceding claims, characterized in that. that the first end (11) is connected to the second end (12) via a bendable central part (13). 25 Cavity anchor (10) according to claim 6, characterized in that the bendable central part (13) comprises a zone from which material is removed from the cavity anchor. Method for erecting a cavity wall with an inner leaf and an outer leaf, comprising the steps of: placing construction elements of the inner leaf on top of each other, 1 n 1 1 n 3 B placing cavity anchors (1,5,10) with a first end (2,6,11) in the joint of construction elements of the inner leaf, and the raising of the outer leaf, the second ends (3,9,12) of the cavity anchors being inserted in joints of the outer leaf, with the 5 characterized in that the second end (3,9,12) of the cavity anchors protruding outside the joint extends at least substantially along the inner sheet when the cavity anchors are placed in the joints of the inner leaf, after which the second end (3,9,12) is bent into a position transverse to the inner leaf. 101 1038