EP3805485A1 - Anchor - Google Patents

Abstract

Anchor (1) for arrangement in a structural element, in particular in a wall (7), in a ceiling (3) or in a precast concrete part, comprising: - an anchoring element (12) for anchoring in a receiving opening (10) having an undercut (11) ) of the component, - a connecting element (13) for connection to a support element, in particular with a platform (8) for formwork or with a support arm (4) for a protective shield, or with a lifting element for lifting the component, - wherein the anchoring element (12) is movable between an anchoring position for anchoring in the receiving opening (10) and a release position for removal from the component, - a securing element movable between a first position and a second position is provided, which the movement of the anchoring element (12) between the anchoring position and the release position blocked in the first position and released in the second position.

Description

• ein Verankerungselement zur Verankerung in einer eine Hinterschneidung aufweisenden Aufnahmeöffnung des Bauelements,
• ein Verbindungselement zur Verbindung mit einem Tragelement, insbesondere mit einer Bühne für eine Schalung oder mit einem Tragarm für ein Schutzschild, oder mit einem Hebeelement zum Umheben des Bauelements.

The invention relates to an anchor for arrangement in a structural element, in particular in a wall, in a ceiling or in a precast concrete part, comprising:

• an anchoring element for anchoring in a receiving opening of the component that has an undercut,
• a connecting element for connection with a support element, in particular with a platform for formwork or with a support arm for a protective shield, or with a lifting element for lifting the component.

The invention further relates to an anchoring device and a component with such an anchor.

Finally, the invention relates to a method for at least partial recovery of an anchor from a component.

Such an anchor is for example from the WO2008 / 019408 A1 known. In this state of the art, a structure is erected with the help of climbing formwork. The climbing formwork has climbing units that are held on already completed wall sections by means of climbing rails. The climbing rails are carried by climbing shoes that are held on the wall with the help of anchors. The anchors have conical sections adjacent to the wall surface, to which the climbing shoes can be screwed.

However, it is disadvantageous that part of the anchor, in particular the so-called locking anchor, is introduced into the structure as a foreign body which remains in the structure even after completion. Furthermore, the cost of materials is high.

The object of the invention is to alleviate or remedy at least individual disadvantages of the prior art. The invention has a particular aim of making it possible to easily recover at least parts of the anchor for further uses.

This object is achieved by an anchor with the features of claim 1, an anchoring device with the features of claim 13, a component having the features of claim 14 and a method having the features of claim 15 achieved.

According to the invention, the anchoring element is movable between an anchoring position for anchoring in the receiving opening and a release position for removal from the component, with a securing element which is movable between a first position and a second position and is designed to facilitate the movement of the anchoring element between the anchoring position and to block the release position in the first position and release in the second position.

In the second position of the securing element (unlocked position) the movement of the anchoring element is released so that the anchoring element can preferably be moved reversibly and without permanent deformation from the anchoring position to the release position (and vice versa). In the first position of the securing element, the movement of the anchoring element is blocked, so that the anchoring element is reliably anchored in the undercut of the receiving opening. In the first position, the securing element preferably rests on the anchoring element in such a way that a movement of the anchoring element in the direction of the release position is prevented. The removal of the anchoring element from the receiving opening is prepared by moving the securing element from the first position into the second position. In the second position of the securing element, the anchoring element can be transferred from the anchoring position in which the anchoring element engages the undercut of the receiving opening in the component to the release position in which the anchoring element is completely moved out of the undercut of the receiving opening. The securing element is preferably displaceable between the first and the second position, preferably in the axial direction, i.e. in the direction of the central longitudinal axis of the elongate anchor. In the release position, the anchoring element can be removed from the receiving opening of the component, preferably together with the connecting element and the securing element.

In a preferred embodiment, the securing element is designed as a pull-out element for pulling the anchor out of the receiving opening, so that by applying a tensile force to the securing element, in particular via a tool, not only the release of the anchoring element is effected, but the anchor can also be pulled out of the receiving opening. In this embodiment, the anchoring element can passively be moved into the release position by contact with the (concrete) body of the component surrounding the anchor when the anchor is pulled out of the receiving opening via the securing element.

According to a further preferred embodiment, an actuating element is provided which is designed to transfer the anchoring element between the anchoring position and the release position. When the actuating element is moved from a first to a second position, a force is transmitted to the anchoring element in such a way that the anchoring element is moved, preferably inward, from the anchoring position to the release position. In this embodiment, the anchoring element is actively moved into the release position via the actuating element, the securing element being arranged in the second position.

It is particularly preferred if the securing element and the actuating element are implemented by a securing and actuating element which causes the anchoring element to be unlocked and the anchoring element to be actively moved into the release position. In an alternative embodiment, however, the securing element and the actuating element can be formed by different components.

To actuate the securing and actuating element, a tool is preferably used which is releasably connected to the anchor only for the recovery of the anchoring element and possibly also the connecting element. When the support element is attached to the anchor in use, the tool is not connected to the anchor. According to the invention, the anchor can be at least partially removed from the structure after use. Advantageously, no unnecessary foreign bodies remain in the structure. In this way, the risk of corrosion that exists with conventional barrier anchors can be avoided. It is also advantageous that the anchor can be reused, whereby a cost saving can be achieved.

The anchoring element, the connecting element and the securing element, preferably also the actuating element, are preferably connected to one another so that they cannot be lost.

The anchor according to the invention can be used for various purposes in the construction of the structure.

In a first application, the anchor holds a support arm, which can preferably be arranged in a horizontal position on a (concrete) ceiling. A climbing profile, which in particular carries a protective shield for shielding an outer edge of the ceiling when a building is being erected, is preferably attached to the support arm.

In a second application, the anchor carries a platform with formwork, in particular with wall formwork, for pouring a (concrete) wall.

In a third application, the anchor is arranged in a precast concrete part, a lifting element, for example a crane, being attached to the anchor for lifting the precast concrete part.

In order to enable stable anchoring in the anchoring position and easy removal in the release position, the anchoring element, in particular at its rear end, in a preferred embodiment has an expanding part which in the anchoring position with respect to the outside of the connecting element at its rear end area in a radial direction Projecting outward direction and in the release position is arranged in the radial direction the same distance or further inward than the outside of the connecting element at its rear end region. Thus, in the anchoring position, the expansion part produces a form-fitting connection between the anchoring element and the receiving opening of the component. By transferring the anchoring element, preferably by means of the actuating element or passively via the surrounding (concrete) body of the component, into the release position, the expansion part is moved so far displaced inside that the expansion part does not protrude beyond the outside of the connecting element on the anchoring element side. In the release position, the anchoring element can be pulled out of the receiving opening in the axial direction, preferably together with the connecting element and the securing element, preferably also with the actuating element. Reuse of the anchoring element, in particular also the connecting element and the securing element, preferably also the actuating element, is thus made possible in a particularly simple manner.

In order to anchor the anchor as well as possible in the structural element, it is advantageous if the anchoring element has several, in particular three, spreading parts, which are preferably arranged at regular angular intervals in the circumferential direction. In a particularly preferred embodiment, exactly three identical expansion parts are provided, which are each distributed in the circumferential direction offset by 120 degrees to one another.

For purposes of this disclosure, the terms "axial", "radial" and "tangential" etc. refer to the central longitudinal axis of the armature. If the anchor is used in the construction of a structure, the location and direction information, such as "vertical", "horizontal" etc., refer to a structure with horizontal ceilings and vertical walls. If the building geometry differs, the location and direction information must be transferred accordingly.

In order to enable the movement of the expansion parts, intermediate spaces are preferably formed between the expansion parts in the anchoring position, which spaces are at least partially, in particular completely, closed in the release position. Thus, the gaps can be used to release the movement of the expansion parts from the outer anchoring to the inner release position, i.e. inwards. The expansion parts preferably abut one another on the inside in the release position. In this version, the gaps are completely closed in the release position.

For transferring the anchoring element from the anchoring the release position is the securing and / or the actuating element in a preferred embodiment, preferably in the interior of the anchoring and / or the connecting element, movably, in particular displaceable in the axial direction, arranged. In a preferred embodiment, the movement of the actuating element, preferably in the axial direction, can be converted into the displacement of the anchoring element, preferably radially inward, in order to release the engagement of the anchoring element in the undercut of the receiving opening and thus removing the anchoring element from the receiving opening to enable.

In order to release the anchoring element, it is particularly advantageous if the anchoring element can be pivoted between the anchoring position and the release position.

It is also preferred that the securing element and / or the actuating element is axially displaceable so that the axial displacement of the securing element is converted into the release of the anchoring element or the axial displacement of the actuating element is converted into the pivoting of the anchoring element.

In a preferred embodiment, the connecting element has a pivot axis, in particular essentially perpendicular to the axial direction, for the pivotable arrangement of the anchoring element, wherein preferably several pivot axes, in particular essentially perpendicular to the axial direction, are provided for the pivotable arrangement of the expansion parts of the anchoring element.

In a preferred embodiment, a longitudinal section of the connecting element, which can also extend over essentially the entire length of the connecting element, has a non-circular outer contour in cross section (viewed perpendicular to the longitudinal axis), in particular an angular outer contour, for example a hexagonal outer contour. This embodiment has the advantage that torsional forces, ie forces that would cause the armature to rotate about its longitudinal axis, can be reliably diverted into the component.

Effective force transmission to the anchoring element on the one hand and stable and secure anchoring on the other hand can be achieved if the securing and actuating element has an actuating head for transferring the anchoring element from the anchoring position to the release position, the actuating head in the anchoring position on the inside on the expansion part of the anchoring element is applied. Thus, in the anchoring position, the actuating head preferably blocks a movement, in particular pivoting, of the expansion part, preferably inward, from the inside. A malfunction of the anchor in the anchoring position can advantageously be reliably avoided in this way. By moving the actuating head away from the expansion part, in particular in the axial direction, the movement of the expansion part can be released in order to prepare for the removal of the anchoring element from the receiving opening of the component. The actuating head is preferably widened in relation to a longitudinal section of the securing and actuating element that preferably adjoins the front.

According to a preferred embodiment, the anchoring element, in particular at the front end, has an actuating arm onto which the actuating head of the securing and actuating element can be pushed in order to move the anchoring element into the release position, in particular to pivot it. In the anchoring position, the actuating arm preferably rests on the front longitudinal section of the securing and actuating element, which preferably has a smaller radial extent than the actuating head. The actuating arm of the anchoring element preferably has a run-on surface on which a further run-on surface of the actuating head strikes when the securing and actuating element is actuated. As a result, the anchoring element is moved into the release position. The impact of the actuating head on the contact surface of the actuating arm preferably causes the expansion part to pivot. Conversely, pushing in the securing and actuating element causes the armature to be arranged in the anchoring position. The process is therefore reversible.

In order to make the operation of the safety element as easy as possible, it is advantageous if the securing element has a holding opening, in particular with a thread, for attaching a tool, in particular a pulling tool. If the securing element is also designed as an actuating element, the tool can be brought into engagement, in particular in threaded engagement, with the holding opening of the securing and actuating element in order to actuate the securing and actuating element, in particular to move it in the axial direction, and thus the anchoring element to solve from the undercut of the receiving opening of the component. By handling the tool, in particular by applying a tensile force to the tool, at least the anchoring element, preferably at the same time the connecting element and the securing and actuating element, can be removed from the exception opening.

In order to enable the support element to be attached to the anchor in a reversibly releasable manner, the connecting element preferably has an internal thread for a fastening screw. The connecting element preferably has a cylindrical section and / or a conical section, in particular at the front end. The cone shape is used so that the part can be removed from the concrete after use.

In a preferred use of the anchor, the fastening screw is connected to the connecting element, the fastening screw preferably securing the securing and actuating element against a transfer of the anchoring element from the anchoring position to the release position.

In a further embodiment, a securing means, for example a spring, is provided which secures the securing and actuating element - regardless of the presence of the fastening screw - against a transfer of the anchoring element from the anchoring to the release position.

In a further embodiment, the actuating element is designed as a screw which is displaced in the axial direction by rotation. In this embodiment, a securing means can be omitted.

In order to enable the anchor to be set in concrete without impairing its function, in a preferred embodiment the anchoring element can be received in a sealing sleeve which preferably has at least one predetermined breaking point. The predetermined breaking point can run spirally along the outer surface of the sealing sleeve and is used for easier removal after use.

In a further embodiment, the sealing sleeve is designed to be elastic and is captively connected to the anchoring element and / or to the connecting element.

A sealing sleeve is preferred, but not essential. Alternatively, the receiving opening can be made with a flow cone, which is then removed. Furthermore, the receiving opening can be produced with the aid of a placeholder, for example made of Styrofoam, which is then removed, for example chemically or thermally, before the anchor is inserted into the receiving opening. Furthermore, the receiving opening can be formed by a bore.

• ein Bauelement, insbesondere eine Wand oder eine Decke,
• ein Anker gemäß einer der zuvor beschriebenen Ausführungsformen, wobei der Anker in der Aufnahmeöffnung des Bauelements angeordnet ist,
• bevorzugt ein Tragelement, insbesondere ein Tragarm, vorzugsweise mit einem Kletterprofil, oder eine Bühne mit einer Wandschalung.

In a structure according to the invention there are at least:

• a building element, in particular a wall or a ceiling,
• an anchor according to one of the embodiments described above, wherein the anchor is arranged in the receiving opening of the component,
• preferably a support element, in particular a support arm, preferably with a climbing profile, or a stage with wall formwork.

• ein Betonfertigteil, beispielsweise eine Betonplatte,
• ein Anker gemäß einer der zuvor beschriebenen Ausführungsformen, wobei der Anker in der Aufnahmeöffnung des Betonfertigteils angeordnet ist,
• ein Hebeelement, beispielsweise ein Kran, welches lösbar mit dem Verbindungselement des Ankers verbunden ist.

In a precast concrete element according to the invention there are at least:

• a precast concrete part, for example a concrete slab,
• an anchor according to one of the embodiments described above, wherein the anchor is arranged in the receiving opening of the precast concrete part,
• a lifting element, for example a crane, which is detachable with is connected to the connecting element of the anchor.

In this embodiment, the anchor can be used to lift the precast concrete element, for example between a vertical and a horizontal position. The precast concrete part can also be loaded onto a truck.

• Anordnen des Ankers in der Aufnahmeöffnung des Bauelements,
• Anbringen eines Werkzeugs an dem Sicherungselement des Ankers,
• Überführen des Sicherungselements von der ersten Position in die zweite Position mit Hilfe des Werkzeugs,
• Überführen des Verankerungselements des Ankers von der Verankerungsstellung in die Freigabestellung, und
• Entfernen des Verankerungselements, insbesondere auch des Verbindungselements und des Sicherungselements, aus dem Bauelement.

In the method for at least partial recovery of the anchor from the component, at least the following steps are carried out, preferably one after the other:

• Arranging the anchor in the receiving opening of the component,
• Attaching a tool to the securing element of the anchor,
• Transferring the securing element from the first position to the second position with the aid of the tool,
• Transferring the anchoring element of the anchor from the anchoring position to the release position, and
• Removing the anchoring element, in particular also the connecting element and the securing element, from the component.

• Herstellen eines Bauelements, insbesondere einer Wand oder einer Decke, des Bauwerks,
• Anordnen eines Ankers gemäß einer der zuvor beschriebenen Ausführungsformen in einer Aufnahmeöffnung des Bauelements,
• Verbinden eines Tragelements, vorzugsweise eines Tragarms für ein Kletterprofil oder einer Bühne mit einer Schalung, insbesondere über eine Befestigungsschraube, mit dem Verbindungselement des Ankers,
• Halten des Tragelements mittels des Ankers,
• Lösen der Verbindung zwischen dem Tragelement und dem Verbindungselement, wobei, wenn vorhanden, die Befestigungsschraube aus dem Verbindungselement entfernt wird,
• Anbringen eines Werkzeugs an dem Sicherungselement des Ankers,
• Überführen des Sicherungselements von der ersten Position in die zweite Position mit Hilfe des Werkzeugs,
• Überführen des Verankerungselements des Ankers von der Verankerungsstellung in die Freigabestellung und
• Entfernen des Verankerungselements, insbesondere auch des Verbindungselements und des Sicherungselements, aus dem Bauelement mittels des Werkzeugs.

Furthermore, a method for erecting a structure can have at least the following steps, it being understood that further steps can be carried out between the steps listed:

• Production of a structural element, in particular a wall or a ceiling, of the structure,
• Arranging an anchor according to one of the previously described embodiments in a receiving opening of the component,
• Connecting a support element, preferably a support arm for a climbing profile or a stage, to formwork, in particular via a fastening screw, to the connecting element of the anchor,
• Holding the support element by means of the anchor,
• Releasing the connection between the support element and the connecting element, the fastening screw, if present is removed from the connector,
• Attaching a tool to the securing element of the anchor,
• Transferring the securing element from the first position to the second position with the aid of the tool,
• Transferring the anchoring element of the anchor from the anchoring position to the release position and
• Removing the anchoring element, in particular also the connecting element and the securing element, from the component by means of the tool.

• Fig. 1 zeigt ein Bauwerk nach Fertigstellung mehrerer Geschoße, an denen mit Hilfe von wiedergewinnbaren Ankern gemäß einer Ausführungsform der Erfindung horizontale Tragarme für ein vertikales Kletterprofil angebracht sind.
• Fig. 2 zeigt die zeitweilige Befestigung einer Bühne mit einer Schalung mit Hilfe der wiedergewinnbaren Anker.
• Fig. 3 zeigt den Anker gemäß Fig. 1, 2 in einer Verankerungsstellung.
• Fig. 4 zeigt den Anker im eingebauten Zustand im Bauwerk in der Verankerungsstellung, wobei eine Befestigungsschraube in ein Verbindungselement des Ankers eingeschraubt ist.
• Fig. 5 zeigt den Anker in der Stellung gemäß Fig. 4, wobei jedoch die Befestigungsschraube aus dem Innengewinde entfernt wird, um die Wiedergewinnung des Ankers vorzubereiten.
• Fig. 6 zeigt die Verbindung eines externen Werkzeugs mit einem Sicherungs- und Betätigungselement des Ankers.
• Fig. 7 zeigt die Betätigung des Werkzeugs, welche ein Zusammenziehen mehrerer Spreizteile durch Verschieben des Sicherungsund Betätigungselements bewirkt, um den Eingriff des Ankers im Bauteil zu lösen.
• Fig. 8 zeigt den Anker außerhalb des Bauteils, wobei in der gezeigten Ausführung eine Dichtungshülse im Bauteil verbleibt.
• Fig. 9 zeigt den Anker in der Freigabestellung im verbundenen Zustand mit dem Werkzeug.
• Fig. 10 und Fig. 11 zeigen eine Dichtungshülse des Ankers.
• Fig. 12 zeigt einen Schnitt durch einen alternativen Anker, bei welchem das Verbindungselement eine sechseckige Außenkontur aufweist.

The invention is explained further below with the aid of a preferred exemplary embodiment.

• Fig. 1 shows a structure after the completion of several storeys, to which horizontal support arms for a vertical climbing profile are attached with the aid of retrievable anchors according to an embodiment of the invention.
• Fig. 2 shows the temporary fastening of a stage with formwork using the recoverable anchors.
• Fig. 3 shows the anchor according to Fig. 1, 2 in an anchoring position.
• Fig. 4 shows the anchor installed in the structure in the anchoring position, a fastening screw being screwed into a connecting element of the anchor.
• Fig. 5 shows the anchor in the position according to Fig. 4 but removing the fastening screw from the internal threads in preparation for reclamation of the anchor.
• Fig. 6 shows the connection of an external tool with a securing and actuating element of the anchor.
• Fig. 7 shows the actuation of the tool, which involves the contraction of several expansion parts by moving the securing device Actuating element causes to release the engagement of the armature in the component.
• Fig. 8 shows the anchor outside the component, with a sealing sleeve remaining in the component in the embodiment shown.
• Fig. 9 shows the anchor in the release position in the connected state with the tool.
• Figures 10 and 11 show a sealing sleeve of the anchor.
• Fig. 12 shows a section through an alternative anchor in which the connecting element has a hexagonal outer contour.

In Fig. 1 a first example of the use of an anchor 1 in the erection of a structure 2, here a multi-storey building, is shown. In the state shown, several, here four, ceilings 3 storeys on top of one another have already been concreted. A plurality of horizontal support arms 4 are arranged on the lower ceilings 3, each of which has a climbing shoe 5 for a vertical climbing profile 6 at the front end. In the embodiment shown, a protective shield is attached to the climbing profile 6, with which the open sides of the floors 3 are secured during the construction process. The climbing profile 6 can be set up with the help of a self-climbing device or a crane (not shown). With the anchors 1, the support arms 4 are temporarily attached to the ceilings. In this embodiment, the anchors 1 are arranged vertically in the ceilings.

In Fig. 2 a second example of the use of the anchor 1 in the erection of vertical walls 7 of successive storeys of the structure 2 is shown. In this application, the anchor 1 is concreted in the horizontal state in a first (top) wall 7a in order to carry a platform 8 for a wall formwork 9 in the next concreting step. In the construction progress shown, a further anchor 1 carries the platform 8 on a second wall 7b (located under the uppermost wall 7a) from a previous concreting step, on which the wall formwork 9 is arranged for concreting the uppermost wall 7a. In the embodiment shown is In addition, another anchor 1 is arranged on a third wall 7c below the second wall 7b in order to enable the stage 8 to be braced. In the embodiment shown, a crane climbing system is shown. In the case of a self-climbing system (not shown), a climbing profile can be held by the lower anchor via a climbing shoe.

In the Figures 3 to 9 the anchor 1 is shown in different functional positions. The anchor 1 is used for the reversibly detachable attachment of a support element, for example the support arm 4 (cf. Fig. 1 ) or the platform 8 for the wall formwork 9 (cf. Fig. 2 ) into a receiving opening 10 of a component, in particular the ceiling 3 (cf. Fig. 1 ) or wall 7 (cf. Fig. 2 ) arranged. The anchor 1 is preferably concreted into the structural element, that is to say is introduced into the formwork space before concreting. The receiving opening 10 has on the rear side, ie on the side facing away from the outside of the component, an undercut 11 in which an anchoring element 12 of the anchor 1 can be anchored in such a way that the anchor 1 is in the axial direction, ie in the direction of a central longitudinal axis 12a of the elongated anchor 1, is secured against removal from the component. In the Figures 3 to 6 the anchoring element 12 is shown in each case in the anchoring position in which the anchoring element 12 engages positively in the undercut 11 of the receiving opening 10 of the component.

On the front side (ie towards the outside of the component), the anchor 1 has a connecting element 13, which can be connected to the support element in a reversible and detachable manner. In the embodiment shown, the connecting element 13 has a cylindrical section at the rear and a section conically widened towards the front at the front. In the embodiment shown, the connecting element 13 has an internal thread 14 which can be connected to an external thread 15 of a fastening screw 16. According to Fig. 4 the fastening screw 16 is attached to the connecting element 13. In this position, the armature 1 can carry the support element. In order to prepare for the removal of the anchor 1, the fastening screw 16 is unscrewed from the connecting element 13 (cf. Fig. 5 ).

As can be seen from the drawing, the armature 1 also has a securing and actuating element 17, with which the anchoring element 12 of the in Figures 3 to 6 outer anchoring position shown in an in Figures 7 to 9 inner release position shown can be transferred in order to enable recovery of at least the anchoring element 12 and the connecting element 13. The anchoring element 12, the connecting element 13 and the securing and actuating element 17 are preferably formed from metal.

The anchoring element 12 has at least one expansion part 18 at its rear end, in the area of the undercut 11 of the receiving opening 10. In the outer anchoring position, the expansion part 18 protrudes outward beyond the outside of the connecting element 13 at its rear end region in the radial direction (perpendicular to the longitudinal axis 12) in order to produce a form fit between the anchoring element 12 and the receiving opening 10. In the inner release position, the expansion part 18, viewed in the radial direction, is arranged to be the same distance or further inward than the outside of the connecting element 13 at its rear end region, in order to enable extraction in the axial direction.

In the embodiment shown, the anchoring element 12 has several, here three, identical expansion parts 18, which are arranged at regular angular intervals in the circumferential direction (i.e. tangentially with respect to the cylindrical section of the connecting element 13). In the outer anchoring position, separate spaces are formed between the expansion parts 18, which in the release position are at least partially closed, in the embodiment shown, completely.

The securing and actuating element 17 is movably arranged in the interior of the anchoring element 13, in the embodiment shown displaceable in the axial direction. The displacement of the securing and actuating element 17 causes the anchoring element 12 to pivot between the anchoring position and the release position. In the embodiment shown, the expansion parts 18 are mounted on the connecting element 13 via pivot axes 19. For transferring the anchoring element 12 from From the outer anchoring position to the inner release position, the securing and actuating element 17 has an actuating head 20 at the rear end. In the outer anchoring position, the actuating head 20 rests on the inside against the expansion parts 18 of the anchoring element 12. The spreading parts 18, in the embodiment shown, each have an actuating arm 21 at their front ends, onto which the actuating head 20 of the securing and actuating element 17 can be pushed in such a way that the spreading parts 18 are pivoted into the inner release position. In addition, the securing and actuating element 17 has a holding opening 22 at the front end, to which a tool 23 can be attached in a reversibly releasable manner in order to remove the armature 1 from the component. In the embodiment shown, the holding opening 22 has a thread 24 into which the tool 23 can be screwed.

In the embodiment shown, a sealing sleeve 25 shaped corresponding to the receiving opening 10 is also provided, which surrounds the anchor 1 in the receiving opening 10 of the component at least so far that the setting in concrete of the anchor 1 does not impair the functions of the anchor 1. The sealing sleeve 25 can have predetermined breaking points 26 in order to facilitate a later removal of the sealing sleeve 25 from the component.

From the Figures 4 to 8 the procedure for the recovery of parts of the anchor 1 is shown.

Initially, the armature 1 is arranged in the receiving opening 10 of the component. The fastening screw 16 is connected to the connecting element 13 in such a way that the fastening screw 16 secures the securing and actuating element 17 against a transfer of the anchoring element 12 from the outer anchoring to the inner release position (cf. Fig. 4 ).

The fastening screw 16 is then unscrewed from the connecting element 13 (cf. Fig. 5 ).

The tool 23 is then attached to the securing and actuating element 17 of the armature 1 (cf. Fig. 6 ). The tool 23 has a handle 27, with which the screwing in of the tool into the holding opening 22 of the securing and actuating element 17 and pulling out the armature is facilitated.

By applying a tensile force to the tool 23, the anchoring element 12 of the anchor 1 can then be transferred from the outer anchoring position to the inner release position (cf. Fig. 7 ).

Continued pulling on the tool 23 removes the anchoring element 12 together with the connecting element 13 from the receiving opening 10 of the component (cf. Fig. 8 ).

In Fig. 12 a section through the armature 1 in the area of the connecting element 13 is shown schematically, which in the embodiment shown has an angular, here hexagonal, outer contour in order to enable torsional forces to be derived, see double arrow 28. For the sake of clarity, the internal structure of the connecting element 13 is not shown.

Claims (15)

Anchor (1) for arrangement in a structural element, in particular in a wall (7), in a ceiling (3) or in a precast concrete part, comprising: - An anchoring element (12) for anchoring in a receiving opening (10) of the component which has an undercut (11), - A connecting element (13) for connection to a support element, in particular to a platform (8) for formwork or to a support arm (4) for a protective shield, or to a lifting element for lifting the component, characterized in that - The anchoring element (12) is movable between an anchoring position for anchoring in the receiving opening (10) and a release position for removal from the component, a securing element being provided which is movable between a first position and a second position, which secures the movement of the anchoring element (12 ) blocked between the anchoring position and the release position in the first position and releases in the second position. Anchor (1) according to claim 1, characterized by - An actuating element (17) for transferring the anchoring element (12) between the anchoring position and the release position. Anchor (1) according to claim 1 or 2, characterized in that the anchoring element (12), in particular at its rear end, has an expansion part (18) which, in the anchoring position, extends over the outside of the connecting element (13) at its rear end region protrudes outward in the radial direction and is arranged in the release position in the radial direction inside the outside of the connecting element (13) at its rear end region. Anchor according to one of Claims 1 to 3, characterized in that that the anchoring element (12) has several, in particular three, expanding parts (18), which are preferably arranged at regular angular intervals in the circumferential direction. Anchor according to one of claims 1 to 4, characterized in that the securing and / or the actuating element (17), preferably inside the anchoring element (12) and / or the connecting element (13), is movable, in particular displaceable in the axial direction, is arranged. Anchor (1) according to one of Claims 1 to 5, characterized in that the anchoring element (12) can be pivoted between the anchoring position and the release position. Anchor (1) according to one of claims 3 to 6, characterized in that the securing and actuating element (17) has an actuating head (20) for transferring the anchoring element (12) from the anchoring to the release position, the actuating head (20) ) in the anchoring position on the inside on the expansion part (18) of the anchoring element (12). Anchor (1) according to claim 7, characterized in that the anchoring element (12), in particular at the front end, has an actuating arm (21) on which the actuating head (20) of the securing and actuating element (17) can be pushed in order to achieve the To move anchoring element (12) into the release position, in particular to pivot. Anchor (1) according to one of claims 1 to 8, characterized in that the securing element (17) has a holding opening (22), in particular with a thread (24), for attaching a tool (23), in particular a pulling tool. Anchor (1) according to one of Claims 1 to 9, characterized in that the connecting element (13) has an internal thread (14) for a fastening screw (16). Anchor according to claim 10, characterized in that the fastening screw (16) is connected to the connecting element (13), the fastening screw (16) preferably being the securing and the actuating element (17) secures against a transfer of the anchoring element (12) from the anchoring position to the release position. Anchor according to one of claims 1 to 11, characterized in that the anchoring element (12), preferably also the connecting element (13), is received in a sealing sleeve (25) which preferably has at least one predetermined breaking point (26). Anchoring device, comprising: - An anchor (1) according to one of claims 1 to 12, - A tool (23) which is connected to the securing element of the armature (1). Construction element, in particular wall (7), ceiling (3) or precast concrete part, with an anchor (1) according to one of Claims 1 to 12, which is arranged in the receiving opening (10) of the construction element. Method for at least partial recovery of an anchor (1) from a structural element, comprising the steps: - Arranging an anchor (1) according to one of claims 1 to 12 in the receiving opening (10) of the component, - Attaching a tool (23) to the securing element of the anchor (1), - transferring the securing element from the first position to the second position with the aid of the tool (23), - Transferring the anchoring element (12) of the anchor (1) from the anchoring position into the release position, and - Removing the anchoring element (12), in particular also the connecting element (13) and the securing element (17), from the component.

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