EP0801234A1 - Expanding anchor, especially for fastening insulating boards on masonry - Google Patents

Abstract

This new expanding fastening is especially suitable for attaching insulating slabs to masonry. Its hollow shaft is divided by slots into spreading sections, at the front. A spreader pin (32) is hammered through its longitudinal hole into the slotted region, thereby expanding the spreading sections (29). A novel feature of the spreader pin (32) is its transverse deformability. Preferably, it is hollow, and made of plastic. The shaft (12) is plastic, and is especially glass-fibre reinforced. The hollow shaft carries a retaining plate (18) at its rear end. A peg-like drift (34) is contained in the shaft cavity (30), and lies flush with the outer end when the spreader has been driven to a given location between the spreading sections (29).

Description

The invention relates to an expansion anchor with the features of the preamble of claim 1. Such an expansion anchor is known from DE-G 82 17 517. The known expansion anchor has a pin-shaped shaft which is slotted from a front end to form expansion legs and which is provided with an elongated hole which extends from a rear end into the slot. A pin-shaped expansion element is accommodated in the longitudinal hole. This is located outside the slot when the expansion anchor is not spread. To spread the spreading legs apart, the spreading element is driven into the slot between the spreading legs, as a result of which they are spread apart. In this way, the expansion anchor can be anchored in masonry.

However, the problem arises of securely anchoring the expansion anchor in masonry made of a wide variety of materials, for example in hard concrete as well as in soft gas concrete, in bricks or in hollow blocks. To make matters worse, even when using a drill of a certain diameter, the borehole diameter can be of different sizes due to the hardness of the masonry or as a result of borehole eruptions, for example when cavities are reached in the masonry. Furthermore, the sheep of the expansion anchor, if it is made of plastic, when trying to drive the expansion element into the Slit, tear off if the expansion anchor is to be placed in a narrow drill hole in hard material, e.g. in concrete.

The invention has for its object to provide an expansion anchor of the type mentioned so that it ensures secure anchoring in masonry made of different materials.

This object is achieved by the features of claim 1.

The expansion element of the expansion anchor according to the invention is elastically or plastically deformable in the transverse direction. In this way, the spreading jaws are expanded to different extents depending on the borehole diameter and the hardness of the masonry material. In a narrow borehole in hard masonry, such as concrete, the expansion jaws are only slightly spread apart, they are essentially pressed against a borehole wall and the expansion anchor is thus clamped in the borehole. The expansion element is strongly compressed in the transverse direction. It is avoided that the shaft tears off when the expansion element is driven into the slot. If the borehole diameter is large in hard masonry, the expansion legs are spread apart and pressed against the borehole wall with approximately the same force as in the narrow borehole. If, on the other hand, the expansion anchor according to the invention is placed in soft masonry, for example gas concrete, or if it reaches a cavity in the masonry, the expansion legs of the shaft are spread far apart and the expansion anchor is thereby positively anchored in the masonry. The expansion element is not or only slightly compressed in the transverse direction when it is driven into the slot. In this way, secure anchoring is effected in boreholes of different diameters and in masonry of different hardness and structure. The shaft of the expansion anchor according to the invention can be driven into soft masonry such as gas concrete without making a borehole and anchored in its slot by subsequent driving in of the expansion element.

In one embodiment of the invention, the expansion element is a hollow pin, which tapers in particular at its front end. This expansion element brings sufficient Stability with itself to spread apart the spreading legs in soft masonry and, on the other hand, can be deformed by compressing it in the transverse direction, so that it can be driven between the spreading legs even in hard masonry without excessively increasing driving force and without tearing off the shaft. The expansion element is preferably made of a plastic which offers good deformation properties.

Rostflecken" auf einem Putz führen würde, der auf den Dämmstoffplatten angebracht ist.In one embodiment of the invention, the shaft of the expansion anchor also consists of plastic, preferably of a glass fiber reinforced polyamide. This allows the expansion anchor to be manufactured inexpensively. If the shaft and expansion element are made of plastic, this has the advantage that no corrosion occurs, which leads to a loss of strength and the destruction of the expansion anchor as well as being unsightly within a short time

Rust stains "on a plaster that is attached to the insulation boards.

The shaft has a large holding plate at its rear end for fastening insulation boards or the like to masonry. This can be in one piece with the shaft. It can also be connected fixedly or detachably to the shaft, for example by placing it under a head of the shaft.

In a further development of the invention, the expansion element is so long that it is flush with the rear end of the shaft when it is driven into an intended expansion position in the slot of the shaft between its expansion leg. Instead, the expansion anchor can also have a pin-shaped driving tool which is located in the longitudinal hole of the shaft behind the expansion element and which is so long that it is flush with the rear end of the shaft when the expansion element is driven into the intended expansion position. The driving tool can be made of plastic and remain in the longitudinal hole. It can also be in one piece as a mandrel with a driving tool that has a collar that comes into contact with the rear end of the shaft when the expansion element is driven into the intended expansion position.

The invention is explained in more detail below with reference to an embodiment shown in the drawing.

Figur 1

einen erfindungsgemäßen Spreizanker im Achsschnitt; und

Figur 2

den Spreizanker aus Figur 1 in Ansicht in um 90° um seine Längsachse gedrehter Darstellung verankert in einem Mauerwerk.

Show it:

Figure 1

an expansion anchor according to the invention in axial section; and

Figure 2

the expansion anchor of Figure 1 in view in 90 ° rotated about its longitudinal axis anchored in a masonry.

The expansion anchor 10 according to the invention shown in the drawing has an elongated, cylindrical shaft 12 made of a glass fiber reinforced polyamide. A rear end of the shaft 12 is designed as a countersunk head 16. A large-area holding plate 18 with a countersink 20 for receiving the countersunk head 16 is placed under the countersunk head 16. The holding plate 18 has star-shaped arms 22 which merge into a circular ring edge 24. The holding plate 18 is provided for holding an insulation board 26 with a low surface pressure.

The shaft 12 has a transverse, longitudinal slot 28 which extends from the front end over part of the length of the shaft 12. The slot 28 divides a front region of the shaft 12 into two expansion legs 29. Furthermore, the shaft 12 is provided with an elongated hole 30 which is open at the rear end of the shaft 12 and extends into the slot 28.

In the longitudinal hole 30 a hollow cylindrical expansion element 32 made of plastic is received, which tapers conically towards its front end. The expansion element 32 is located in the longitudinal hole 30 outside the slot 28 when the expansion legs 29 are not spread apart (Figure 1). To spread the spreading legs 29 apart, the spreading element 32 is driven into the slot 28 between the spreading legs 29. It spreads in soft masonry such as gas concrete or when the shaft 12 with its expanding legs 29 protrudes into a cavity, the expanding legs 29 far apart (Figure 2) and ensures secure anchoring by positive locking. In hard masonry in a narrow borehole, the expansion element 32 when driving between the expansion legs 29 compressed in the transverse direction and in turn pushes the expansion legs 29 apart only slightly so that they come to rest against a borehole wall. The pressing force of the expansion legs 29 is sufficiently large to ensure that the shaft 12 is securely braced in the masonry.

To drive the expansion element 32 into the intended expansion position between the expansion legs 29, a pin-shaped driving tool 34 made of solid plastic material is inserted into the longitudinal hole 30 of the shaft 12. The length of the driving tool 34 is dimensioned such that it is flush with the countersunk head 16 of the shaft 12 when the expansion element 32 has reached its intended expansion position between the expansion legs 29 (FIG. 2).

Claims (5)

Expansion anchors, in particular for attaching insulation boards or the like. To masonry, with a shank that has a slot that divides the shank in its front region into expansion legs at its front end, and a longitudinal hole that starts from a rear end of the shank extends into the slot, and with a spreading element which can be driven into the slot through the longitudinal hole and which thereby spreads the spreading legs apart, characterized in that the spreading element (32) is deformable in the transverse direction. Expansion anchor according to claim 1, characterized in that the expansion element (32) is a hollow pin and preferably consists of plastic. Expansion anchor according to claim 1, characterized in that the shaft (12) consists of plastic, in particular of a glass fiber reinforced polyamide. Expansion anchor according to claim 1, characterized in that the shaft (12) has a holding plate (18) at its rear end. Expansion anchor according to claim 1, characterized in that it has a pin-shaped driving tool (34) which is located in the longitudinal hole 30 of the shaft (12) and which is flush with the rear end of the shaft (12) when the expansion element (32) is in an intended expansion position between the expansion legs (29).

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