DE102004033025A1 - expansion anchor - Google Patents

Abstract

The invention relates to an expansion anchor (10) with an expansion body (14) and an expansion sleeve (12). The invention also proposes forming the expansion body (14) in a sleeve shape, whereby the expansion anchor (10) can be anchored in an annular hole (30). Due to the additional anchoring of the expansion anchor (10) to a core (32), the anchorage is improved. In addition, the anchoring of the expansion anchor (10) on the core (32) is not affected by an expansion of the ring hole (30), for example due to cracking in the anchorage (34).

Description

The The invention relates to an expansion anchor with the features of the preamble of claim 1.

Known Expansion anchors have a conical expansion body and an expansion sleeve, which can be spread apart by pushing on the spreader to the Anchoring expansion anchors in a borehole. It can also be reversed the spreader in the expansion sleeve be retracted to spread open the expansion sleeve and the expansion anchor to anchor in the borehole. It is conceivable with the spreader other than a cone shape, for example, with a Cone or wedge shape. Also need expansion surfaces of the expansion body or inner surfaces the expansion sleeves in the axial direction not be flat, but can, for example, spherical or be hollow. To the expansion sleeve lighter, i. to be able to spread with less force it is customary to train them with one or more slots.

task The invention is to propose an zugzonentauglichen expansible anchor.

These The object is achieved by the Characteristics of claim 1 solved. The spreader the expansion anchor according to the invention is sleeve-shaped. there enough it, that the spreader in a spread area or in an area to sink is provided in a borehole, sleeve-shaped. On one of one Anchorage protruding length can the spreader or his shaft be massive.

The sleeve shape of the expansion body the expansion anchor according to the invention has the advantage that the expansion anchor can be anchored in an annular hole is that has a core. Here is a slot under ring hole to understand that is on a preferably closed line extends around the core. The core of the ring hole supports the spreader when anchoring from the inside. Furthermore can not only spread the expansion sleeve during anchoring, i. expanded to the outside, but also the spreader of the expansion sleeve to be compressed inside. As well as the expansion sleeve outward pressed against a hole wall is and the expansion anchor by force and possibly additionally by Holds positive fit anchored in the ring hole, the spreader is after pressed against the inner core and stops the expansion anchor by force and possibly additionally by positive locking on Anchored core. By anchoring inwards and outwards arises from the outset an increased Anchoring force of the expansion anchor according to the invention in the ring hole.

One Another and significant advantage is an improved Zugzonentauglichkeit the expansion anchor according to the invention. By train zone is meant ultimately that a borehole, for example can expand as a result of cracking. In known, zugzonentauglichen Expanding anchors will be a spreading in a borehole extension the expansion anchor achieved in that the spreader a bit far pulled out of the borehole and thereby retracted deeper into the expansion sleeve and spread it further. The expansion anchor remains in the anchored extended borehole. This Nachspreizeffekt is at expansion anchor according to the invention also present, the Nachspreizeffekt basically after Outside and works inside. In the expansion anchor according to the invention is added that the core does not tear and, being massive, can neither expand nor diminish. By the additional Anchoring the expansion anchor according to the invention at the core, where the problem of hole enlargement does not occur, is the anchoring of the expansion anchor according to the invention in a cracked Concrete and thus the Zugzonentauglichkeit the expansion anchor according to the invention improved.

Of the spreader the expansion anchor according to the invention can be considered as a second or inner expansion sleeve, the when pushing the first or outer expansion sleeve expands the outer expansion sleeve and is compressed by the outer expansion sleeve. The expansion anchor is thereby widened outwards in the expansion area as well compressed inside whereby the anchoring described at the hole wall and the core possible is. In a special case, it is also conceivable that the expansion anchor exclusively or essentially at the core and not or only to a small extent Part is anchored to a perforated wall. The hole wall is in this Case dispensable, the expansion anchor can be anchored on a pin which takes the place of the pitting core.

Further Advantages of the expansion anchor according to the invention are easier and less expensive Construction with low material usage, a small drilling volume and a high transverse force and bending strength of the expansion anchor his pipe shape. An axial displacement of the expansion anchor in a borehole extension is small. This also applies to dynamic crack testing and continuous load. Of the inventive expansion anchor can be anchored in a non-undercut ring hole. He lets himself also as an undercut expansion anchor for anchoring in an undercut Train borehole.

The expansion anchor according to the invention is in particular annular, its expansion body has in one embodiment of the invention a konusar tiger area as a spreading surface. The spreading surface is referred to as cone-like, because it may differ from a geometric cone shape, for example, by crowned or hollow round design. Also provides an embodiment of the invention, a cone-like inner surface of the expansion sleeve before as a spreading.

to Attachment of an item on the expansion anchor sees an embodiment the invention that the spreader axially longer than the expansion sleeve is. The spreader can also have a shaft through which it axially longer than the expansion sleeve is. For attachment of the article, the spreader has a Thread on, due to the sleeve shape of the expansion body in particular, an internal thread can be. It is also possible, the expansion sleeve axially longer as the spreader form and threaded for attachment of an object to provide, which also has an internal or external thread can be. It should always be the part of the expansion anchor for attachment an object to be used when subjected to tensile stress Spreading the expansion anchor causes the expansion anchor under load in the sense of a stronger one Spreading and not in the sense of loosening the anchorage too apply.

Of Furthermore, the invention is based on an anchoring arrangement with the Characteristics of claim 5 directed. The anchoring arrangement according to the invention has an expansion anchor of the type described above, in a anchored a hole core ring hole anchored in an anchorage is. As anchoring reason in particular concrete or stone are provided. In a preferred embodiment, the expansion sleeve of the expansion anchor according to the invention spread in an anchored state and is against the hole wall depressed and the spreader is from the expansion sleeve compressed inside and is located at the core.

The Invention will now be described with reference to a drawing embodiment explained in more detail. The single figure shows an expansion anchor according to the invention in cross section.

The in 1 illustrated, inventive expansion anchor 10 has a tubular expansion sleeve 12 and a sleeve-shaped expansion body 14 on, on which the expansion sleeve 12 is axially displaceable. The expansion sleeve 12 has one or more longitudinal slots 16 extending from a front sleeve end over about half the axial length of the expansion sleeve 12 extend. The slots 16 divide the expansion sleeve 12 in spreader legs 18 , the axial length of the slots 16 defines a spreading area of the expansion sleeve 12 , In the area of the slots 16 and the expansion leg 18 expands the expansion sleeve 12 with an inner cone 20 on, which forms a spreading surface.

The spreader 14 is also sleeve or tubular, he has a shaft 22 on, it widens conically at a front end, with the cone a spreading surface 24 forms. The spreading surface 24 forms the actual spreader, with the shaft 22 is one piece. An axial length of the spreading surface 24 of the expansion body 14 is in the order of the axial length of the spreading surface 20 the expansion sleeve 12 , in the illustrated and described embodiment of the invention, the spreading surface 24 of the expansion body 14 a little longer than the spreader surface 20 the expansion sleeve 12 , As well as the expansion sleeve 12 has the spreader 14 longitudinal slots 26 on, extending axially over about the length of the conical spreading surface 24 extend. The the actual spreader 25 forming conical region of the expansion body 14 is characterized as well as the expansion sleeve 12 in thighs 27 divided over the length of the spreader surface 24 extend.

The spreader 14 has an internal thread 28 on, in the illustrated and described embodiment of the invention over the entire length of the expansion body 14 extends. Basically, the internal thread 28 also be shorter and only in a rear, ie the spreading surface 24 distant area of the shaft 22 of the expansion body 14 be educated.

For producing an anchoring arrangement according to the invention, as described in 1 is shown, first a ring hole 30 that a core 32 has, in an anchorage 34 made of concrete or stone, for example. The production of the ring hole 30 done by ultrasonic processing with an ultrasonic drill, not shown. Such drills are known per se, they can be designed as hand tools and have the shape of a conventional percussion drill or hammer drill. A sonotrode, ie an ultrasonic machining tool can be tubular, it is excited by the ultrasonic drill with axial vibrations in the ultrasonic frequency range and penetrates into the anchorage 34 one. This is the ring hole 30 made, with the hole core 32 stop. The ring hole 30 has the shape of a hollow cylinder. Another possibility of ultrasonic production of the ring hole 30 is the use of a rod-shaped sonotrode, the manner of a drill in the anchorage 34 is introduced and then guided on a circular path such as a cutter to the ring hole 30 manufacture. Such a sonotrode has a diameter which corresponds to a gap thickness of the ring hole 30 equivalent. Basically, the ring hole 30 also be produced conventionally.

After making the ring hole 30 in the anchorage 34 becomes the expansion anchor 10 with its front end ahead in the ring hole 30 introduced and it is the expansion sleeve 12 for example, by beating the spreading surface 24 of the expansion body 14 postponed. In this case, the actual expansion body spreads 25 the expansion legs 18 the expansion sleeve 12 and pushes it outward against a perforated wall 36 of the ring hole 30 , The spreading surface 20 the expansion sleeve 12 forming inner cone presses the thighs 27 of the expansion body 14 inward against the core 32 , The expansion anchor 10 is characterized both by the outward against the hole wall 26 pressed spreader leg 18 the expansion sleeve 12 as well as against the inside against the core 32 pressed thighs 27 of the expansion body 14 in the anchorage 34 anchored.

The shaft 22 of the expansion body 14 stands out of the anchorage 34 before, at its thread 28 can be attached to an anchoring, not shown object.

The expansion anchor according to the invention 10 is zugzonentauglich, he has a Nachspreizverhalten. The anchoring loosens by an extension of the ring hole 30 for example, as a result of cracking in the anchorage 34 , the spreader moves 14 axially strained by a fastened object axially a short distance from the ring hole 30 out, causing the expansion sleeve 12 spread further, that is nachgespreizt, so that the expansion anchor 10 with approximately unchanged anchoring force in the anchorage 34 remains anchored. For an extension of the ring hole 30 is a great advantage the anchoring of the expansion anchor 10 at the core 32 , as this of a possible cracking in the anchorage 34 is not affected. First, there is a crack through the anchorage 34 not through the hole core 32 therethrough. Second, the core is 32 massive and is stressed on pressure, he would not squeeze even in a crack further. The anchoring of the expansion anchor 10 inside the hole core 32 is therefore at an extension of the ring hole 32 not impaired.

Claims (7)

Expansible anchor, with an expansion body and an expansion sleeve, which can be expanded by being pushed onto the expansion body, characterized in that the expansion body ( 14 ) is sleeve-shaped. Expansion anchor according to claim 1, characterized in that the expansion body ( 14 ) a conical surface as a spreading surface ( 24 ) having. Expansion anchor according to claim 1, characterized in that the expansion sleeve ( 12 ) a cone-like inner surface as a spreading surface ( 20 ) having. Expansion anchor according to claim 1, characterized in that the expansion body ( 14 ) is axially longer than the expansion sleeve ( 12 ) and a thread ( 28 ) for fixing an article. Anchoring arrangement, with an expansion anchor, which is anchored in a hole in an anchorage, wherein the expansion anchor has an expansion body and an expansion sleeve, which is pushed onto the expansion body and thereby spread, whereby the expansion anchor is anchored in the well, characterized in that the expansion body ( 14 ) is sleeve-shaped and that the hole in the anchorage ( 34 ) a ring hole ( 30 ) with a core ( 32 ). Anchoring arrangement according to claim 5, characterized in that the expansion body ( 14 ) of the expansion sleeve ( 12 ) is compressed to the inside and at the core ( 32 ) is present. Anchoring arrangement according to claim 5, characterized in that the ring hole ( 30 ) is made by ultrasonic machining.