EP2126248B1 - Anchor system of a concrete wall form - Google Patents

Abstract

A locking device (20,21) for an anchor rod (2) of an anchor system of a concrete wall form, has a screw nut element for screwing the anchor rod through a screw thread of the screw nut element. A dome plate can be fastened to a back of a form element (5,6) of the concrete wall form by means of fastening elements (30) and has a spherically shaped plate section with an opening in which the screw nut element is arranged so as to have radial play. The screw nut element has a groove-type radial seat which accommodates the edges of the opening in the spherical plate sections.

Description

The invention relates to an anchor system of a concrete wall formwork with at least one locking device for an anchor rod of the anchor system, wherein the locking device has a nut element for screwing through the anchor rod by a nut thread of the nut member.

Such anchor systems are used in formwork technology in concreting reinforced concrete structures. Concrete wall formworks are made of a formwork skin and its supporting elements, e.g. Side member and cross bar, constructed. The two sides of a wall are each made up of a concrete formwork element, i. a formwork half, formed, which are held together by anchor rods. The anchor rods are inserted through holes in the formwork skin and attached at their ends to the formwork supporting the elements so that the force acting on the anchor rods during concreting tensile force is absorbed. Usually, the two ends of the anchor rods have threads on which nuts are screwed as Ankerfixierungen. As a result, the effective length of the anchor rod and thus the strength (thickness) of the wall to be concreted is determined. At the same time, the pressure exerted on the formwork by the liquid concrete during concreting is dissipated via the nuts on the tie rods. The tie rods are loaded on train. Spacers are inserted between the shell skins in the volume of the wall to be concreted, which can accommodate the pressure forces generated during the concreting process, thereby ensuring that these compressive forces do not affect the wall thickness undesirable, i. Reduce.

The DE 197 54 366 C2 discloses an anchor system of a concrete wall formwork in which a locking device is provided on one side of a concrete wall formwork. The locking device consists of a positional fixation of a nut of the anchor system. The nut is fixed in position by transverse to its axis, fixed in a cross bar locking screws, whereby the position-fixed nut is no longer rotatable. As a result of this positional fixation, the screw is also locked relative to a formwork half due to the fastening of the locking screws on the crossbar.

The DE 103 36 414 B4 discloses an anchor system, wherein on the backs of two forming a concrete wall formwork formwork elements through which an anchor rod of the anchor system is carried out, respectively a very flexible locking device is provided, by means of which both train and compressive forces can be absorbed on the formwork elements so that the trainees concrete wall thickness can be formed very accurately.

In the known anchor systems arise difficulties in the implementation of the anchor rod in the construction of the concrete wall formwork, as soon as facing with their Schalhäuten, auszuformende the concrete wall forming formwork elements with their anchor bushing holes are not sufficiently aligned. Since the anchor rod is always seen from the outside, viewed from the back of a first formwork element, through the already established formwork elements, the formwork builder who positions the tie rod, the anchor passage bore of the second formwork element can not see. Although the latter anchor bushing is still relatively easy to find, however, the anchor rod is then obliquely to the formwork of the formwork elements in poorly aligned anchor bushing holes, whereby finding the thread of a fastened on the back of the second formwork element Arresting device is very difficult. Further, in such an inclined position of the anchor rod, the locking devices are no longer fully flush with the formwork elements, resulting in only a selective power transmission in a concreting of the forces occurring from the concrete wall formwork on the locking devices and this heavily used.

The DE 94 12 556 U discloses a locking device for an anchor rod of a bolting system of a concrete wall formwork, comprising a nut member for screwing through the anchor rod, wherein a dome plate is provided which has a spherical plate portion having an opening. The nut member is formed to be spherical so as to be movably supported within the edges of the opening similarly to a ball joint, whereby radial rotation of the nut member in the opening is prevented by axial groove-like guides.

In such a bearing of the nut member in the dome plate of the screwed into the nut member anchor rod is only very accurately guided movable. The dome plate must therefore be positioned accurately relative to the anchor bushing in a formwork skin.

The EP 0 279 046 has the features of the preamble of claim 1 and describes a locking device for an anchor rod of an anchor system concrete wall formwork, with a nut member for screwing through the anchor rod, wherein the nut member has a radially circumferential groove. It is provided an anchor plate having an opening in the groove with a radial clearance is arranged. In this case, the nut element can be tilted only slightly in the anchor plate, wherein the axis of rotation is in this tilting according to the curvature of an intermediate layer on the side facing away from the formwork of the screw nut element.

The invention has for its object to provide an anchor system for concrete wall formwork, a locking device for the anchor system and a concrete wall formwork, which avoid the disadvantages of the prior art.

This object is solved by the devices of the independent claims. The dependent claims represent preferred embodiments of the invention.

A locking device according to the invention for an anchor rod of an anchor system concrete wall formwork with a first and a second formwork element has a nut member for screwing through the anchor rod by a nut thread of the nut member. It is provided a dome plate, which can be fastened by means of fastening means on a rear side of one of the shuttering elements of the concrete wall formwork, so facing away from the concrete side facing skin surface usually longitudinal and / or cross bar side of the formwork element. The dome plate has a spherically shaped plate portion with an opening in which the nut member is arranged with radial play. The nut member has a groove-like radial circumferential receptacle in which the edges of the Opening are included in the spherical plate area. The radial clearance is circumferentially present, so that within the radial play a full deflection of the nut member on the dome plate is made possible. This results in a fulcrum of the preferably a dome nut comprehensive nut element in the region of the armature feedthrough bore in the formwork skin. The radius of the spherical plate area is chosen according to the distance between the formwork skin and the opening in the spherical plate area. The nut element can thus be deflected similar to a joystick on the dome plate.

When using the locking device according to the invention in a concrete wall formwork, in which the shuttering elements and therefore the Ankerdurchführungsbohrungen are not directly aligned in the Schalhäuten, acting on the nut elements compressive forces despite not perpendicular to the formwork surfaces anchor rods radially completely circumferential surface of the Kalottenoberfläche transferred to the nut elements. It is thus ensured a more stable construction of the concrete wall formwork. Next possible damage to an anchor system are avoided by selective overload.

In accordance with the invention, a tubular guiding device aligned with the screw nut thread of the screw nut element is provided on the end of the screw nut element to be arranged on the concrete formwork side. As a result, finding the nut thread, in which the anchor rod is to be screwed, with the anchor rod much easier. The inner surface of the tubular guide means may advantageously be funnel-shaped. However, at least the cross section of the screw nut element facing away from the opening of the guide device exceeds that of the nut thread of the nut member. In this case, the guide device ends in the region of the scarf skin level, so that the tip of an anchor rod compellingly enters the opening of the guide device when setting an anchor rod.

Particularly advantageous is an anti-rotation is provided on the nut member. This anti-twist device can e.g. by forming the superposed surfaces of the nut member and the dome plate with a high twisting friction e.g. be achieved by a nubbed surface. When using such a locking device, the anchor rod, e.g. be screwed from the back of the first formwork element in the locking device, which is attached to the back of the second formwork element, without a formwork builder on the back of the second formwork element, the locking device during screwing, for preventing co-rotation of the nut member with the anchor rod operate got to. Such a locking device is therefore suitable e.g. For use on inaccessible concrete formwork areas.

Preferably, the rotation on a stop element, wherein by the stop element, a rotation of the nut member by abutment on a, preferably formed by the fastening means, stop can be prevented. This ensures a particularly simple and secure anti-rotation protection. If the abutment element is of a wing-like design, a stop arranged further away from the nut element can also prevent twisting.

An inventive anchoring system of a concrete wall formwork comprises an anchor rod and a first and a second locking device according to the invention, wherein the anchor rod in the nut screw thread the screw nut elements of the locking devices is screwed. When using such an anchor system, the advantages of the locking device according to the invention can be realized on both sides of the concrete wall formwork.

The anchor rod preferably has a course tapering in the direction of an anchor rod tip, wherein a first screw thread in the anchor rod tip end region of the anchor rod has a larger thread diameter than a second screw thread in the anchor rod near the anchor rod tip end. The ankerstabspitzennahe second screw thread can be screwed as far as the stop in the second locking device, so that there is a defined position of the anchor rod and thus the second formwork element.

Advantageously, the anchor rod tapers conically between the first and second screw threads, which facilitates removal of the anchor rod after curing of a concrete wall poured between the concrete wall formwork.

In a concrete wall formwork according to the invention, at least one anchor system according to the invention is applied. In this case, the concrete wall formwork on a first and a second formwork element, wherein facing the formwork elements with their formwork skins. On the back of the first formwork element, the first locking device of the anchor system, preferably fixed by means of first fastening means, arranged and the second Locking device of the anchor system is on the back of the second formwork element, preferably fixed by means of second fastening means arranged. The anchor rod of the anchor system is coming from the back of the first formwork element, screwed through the nut thread of the nut member of the first locking element and performed by a respective Ankerdurchführungsbohrung in Schalhäuten, screwed into the nut thread of the nut member of the second locking device. The application of the anchor system according to the invention can advantageously be made such that first the second locking device on the back of the second formwork element, for example by means of a screw bolt is attached. Then, the anchor rod on which the first locking device is already screwed in the region of the ankerstabspitzenfernen end, passed from the back of the first formwork element through the formwork elements and screwed into the nut element of the second locking device to stop. Thereafter, the first locking device is attached to the adjacent formwork element. The attachment of the two locking devices on the backs of the formwork elements is, in addition to the exact positioning, also to the fact that the anchor system can be derived on the anchor rod and the pouring of the concrete wall formwork acting on the formwork elements pressure forces.

If a locking device with a tubular guide device and / or an anti-twist device is used as the second locking device, the finding of the nut thread of the second Locking simplified and / or the second locking device must not be held by a formwork builder to prevent co-rotation when screwing the anchor rod.

Very advantageous in a concrete wall formwork according to the invention as anchor system is an anchor system in which a first screw thread in ankerstabspitzenabgewandten end portion of the anchor rod has a larger thread diameter than a second screw thread in ankerstabspitzennahen end of the anchor rod, preferably with a conically tapered anchor rod used. When the second screw thread of the anchor rod of the anchor system is completely screwed into abutment in the nut member of the second locking device of the anchor system and the nut member of the first locking device of the anchor system is secured by means of a split pin in the anchor rod Sicherungssplintes, the wall thickness of the wall to be concreted without additional Alignment effort, simply adjusted by final assembly of the anchor system exactly.

Another embodiment of the locking devices according to the invention for attachment to the formwork element to be erected first could consist in that the locking device are permanently attached to the formwork elements. This would have the advantage that you have to make at the first established Schalungslement no Vormontierung. However, the locking means would then be slidably attached to the formwork elements, so that the anchor rod with the attached thereto locking device can attach to the closing formwork side.

The invention will be explained in more detail using an exemplary embodiment with reference to the drawings.

The FIGS. 1 to 4 each show an embodiment of a concrete wall formwork according to the invention in different phases of the implementation of an anchor rod of an anchor system according to the invention in a section through the respective anchor system according to the invention. The Figures 1b and 1c each show an enlarged view FIG. 1a ,

The figures of the drawings show the subject matter of the invention in a highly schematic manner and are not to scale. The individual components of the article according to the invention are shown so that their structure can be well shown.

In the FIGS. 1 to 4 In each case an embodiment of a concrete wall formwork according to the invention is shown in different phases of the implementation of an anchor rod 2 of an anchor system according to the invention in a section through the respective anchor system according to the invention. Shown is in each case a first and a second formwork element 5.6. The formwork elements 5.6 each have a formwork skin 7 and longitudinal and transverse bars 9, to which the formwork skin 7 is usually riveted. The cut representation runs in each case by a longitudinal bar, so that the respective longitudinal bar only by the wall 11 of the steel profile from which it is made, is shown. The formwork elements 5.6 are facing the formation of a concrete wall to be concreted with their Schalhäuten 7. In each case a cross bar is provided in the Schalhäuten 7 each have an anchor passage bore 13. The anchor rod 2 is or is just from the back of the first formwork element 5 through the anchor bushing holes 13 and the cross bar, in whose area the armature feedthrough holes 13 are arranged, passed. In this case, seals 15 are arranged in the armature feed-through bores 13, which surround the armature bar 2 in such a way that substantially no liquid can escape through the armature feed-through bores 13 during concreting. On the back of the formwork elements 5.6 respectively a locking device 20,21 according to the invention in the region of the armature feedthrough holes 13 is positioned. The locking devices 20,21 each have a nut member 23,24 with a nut thread, ie a bore with an internal thread, through which the anchor rod 2 is screwed through or is. Next, the locking devices 20,21 each have a dome plate 26,27 with fastening means 30 for fastening the dome plate 26,27 and thus the locking device 20,21 on the back of each one of the formwork elements 5.6. The fastening means 30 are formed by a hole in the edge region of the dome plate 26,27, formed by a screw bolt 32 can be screwed into a screw hole 34 on the respective longitudinal bolt or screwed. As a technically equivalent fastener 30 and brackets, bayonet locks and similar retaining means are conceivable. The dome plate 26,27 is made of a steel plate. she has a spherically shaped plate region, ie a plate region shaped as a spherical shell region, in which an opening is provided. The concave surface of the dome plate 26,27 is arranged in the direction of the formwork skin 7 of the respective formwork element 5,6 with circumferential radial play. In the opening, the nut member 23,24 of the respective locking device 20,21 is positioned. At the screw nut elements 23,24 each have a radially encircling groove is provided which forms a receptacle 40 in which the edges of the opening in the spherical plate portion of the associated dome plate 26,27 are accommodated. The receptacle 40 has a shape corresponding to the spherical plate area, so that within the radial play a full deflection of the nut member 23,24 on the dome plate 26,27, guided by the dome plate 26,27, is possible. The groove can be formed, for example, in that a ring 41 forming the concrete shutter side wall of the groove is slipped or screwed onto a tubular region of a part of the screw nut element 23, 24 which is formed as a dome nut 42. At the respectively on the second formwork element 6 positioned locking device 21 according to the invention is arranged on concrete shutter side end of the nut member 24 aligned with the nut thread of the nut member 24, tubular guide means 45 is provided (eg sleeve-like extension, which is formed on the nut member 24) having a conically extending free Cross section has. The inner surface of this guide device 45 is funnel-shaped with an opening angle, so that it serves as a guide during the insertion of an anchor rod 2, as in FIG. 2 represented, serves. The opening of the guide means 45 extends approximately to the seal 15 in the associated anchor bushing holes 13 of the corresponding formwork skin 7, so that an anchor rod 2, which is passed through the associated seal 15 with its tip 50, is inserted directly into the guide means 45, which is integrally formed on the cap nut 42. Thus, the pivot point (circle center) to which the cap nut 42 pivot when inserting an anchor rod 2, deflect or can be moved in the plane of the formwork skin 7. Next is on the nut members 23,24 of the locking devices 20,21, to the Rear sides of the second formwork elements 6, ie those formwork elements 6, by which the anchor rods 2 are introduced from the front side, ie from the formwork skin 7, in each case an anti-rotation device 60 is provided. These anti-rotation devices 60 are designed in such a manner that an outer region of the screw nut elements 24 abuts upon rotation of the respective screw nut element 24 against a stop formed, for example, by the attachment means 30 of the associated dome plate 27, so that the nut element 21 can not rotate any further. The formwork elements 5.6 of the concrete wall formwork in the FIGS. 1 are arranged with their armature feedthrough holes 13 aligned opposite one another. It follows that the nut elements 23,24 are centrally positioned in the associated openings in the dome plates 26,27. The anchor rod 2 is in FIG. 1 completely screwed in. For this purpose, the screw thread 70 of the anchor rod 2 in the region of the tip 50 of the anchor rod 2 has a smaller diameter than the remaining anchor rod 2, whereby at the transition of the screw thread 70 to the remaining anchor rod 2, a stop is formed. The screw-in depth of the screw thread 70 in the region of the tip 50 of the anchor rod 2 in the nut member 24 of the associated locking device 21 is defined so defined. The diameter of the screw thread 71 in the region of the ankerspitzenabgewandten end of the anchor rod 2 is therefore greater than the diameter of the screw thread 70 in the region of the tip 50 of the anchor rod 2. It also follows that the nut thread of the positioned at the back of the first shuttering element 5 locking device 20, from the anchor rod 2 is inserted, has a larger diameter than the nut thread of the locking device 21 on the back of the second formwork element 6. The illustrated anchor rods 2 also have at their remote from the tip 50 of the respective anchor rod end portions on which the at Rear side of the first shuttering element 5 fastened locking devices 20 are screwed on pinholes 75 for performing securing splints on. By means of the arrangement of these pinholes 75, the wall thickness of the wall to be concreted can be determined. In order to be able to absorb compressive forces on the formwork elements 5, 6, which would lead to a reduction in the wall thickness of the wall to be concreted, by the illustrated anchoring system, it would be apparent from FIGS FIG. 1 nor an attachment of the dome plates 26,27 on the backs of the formwork elements 5,6 necessary. The latter attachment is in the Figures 2 and 3 made by means of bolts 32 with molded rings. The anchor rods 2 have in their between the formwork skins 7 to be positioned areas in the direction of the respective armature tip 50 conically tapered shape, whereby the anchor rods 2, in particular if they have been treated or oiled prior to their application to the concrete wall formwork, can be removed once again in a facilitated manner after the concrete wall has hardened. The formwork elements 5.6 of the concrete wall formworks of FIGS. 2 to 4 are arranged with their anchor bushing holes 13 are not aligned opposite. Accordingly, the nut members of the locking devices 20, 21 are not centered in the openings of the spherical plate portions of the associated dome plates. The nut elements are rather guided on the surfaces of the spherical areas of the dome plates of the associated dome plates radially deflected so that the anchor rods 2 are not aligned perpendicular to the scarf skins 7 of the formwork elements 5.6.

In FIG. 2 is shown as the anchor rod 2, after passing through the armature feedthrough bore 13 of the second formwork element 6, with the tip 50 penetrates into the tubular guide means 45 of the attached to the back of the second formwork element 6 locking device 21 and from the guide means 45 to the nut thread of the associated Nut element is guided.

In the embodiment of the at the back of the second formwork element 6 in FIG. 4 arranged locking device, the anti-rotation device 60 is formed as a kind of wing 80 projecting from the nut member, so that a further remote from the nut member stop can prevent co-rotation of the nut member when screwing the anchor rod 2. The anchor rod 2 in FIG. 4 has a consistent Screw thread along its entire length. The latter makes it necessary to coat the anchor rod 2 before its application to the concrete wall formwork, at least in the subsequently concreted area of the anchor rod 2 with a conical plastic layer 82, so that the anchor rod after curing of the concrete wall can be removed again.

Proposed is a locking device 20,21 for an anchor rod 2 of an anchor system concrete wall formwork, with a nut member 23,24 for screwing through the anchor rod 2 by a nut thread of the nut member 23,24. In this case, a dome plate 26,27 is provided, which can be fastened by means of fastening means 30 on a rear side of a formwork element 5,6 of the concrete wall formwork and has a spherically shaped plate area with an opening in which the nut member 23,24 is arranged with radial play, said Nut element 23,24 has a groove-like radial circumferential receptacle 40 in which the edges of the opening are received in the spherical plate area.

The invention is not limited to the embodiments given above. Rather, a number of variants are conceivable, which make use of the features of the invention even with fundamentally different type of execution.

Claims (9)

1. Locking device (20,21) for an anchor rod (2) of an anchor system of a concrete wall form, comprising a screw nut element (23,24) for screwing the anchor rod (2) through a screw thread of the screw nut element (23,24), wherein a dome plate (26,27) is provided that can be fastened to a back of a form element (5,6) of the concrete wall form by means of fastening elements (30) and has a spherically shaped plate section with an opening, and wherein the screw nut element (23,24) is arranged in the opening so as to have radial play, wherein the screw nut element (23,24) comprises a receptacle (40) in the form of a radial groove around the entire circumference, which accommodates the edges of the opening in the spherical plate section, characterized in that a tubular guidance facility (45) aligned with the screw thread of the screw nut element (24) is provided at the end of the screw nut element (24) to be disposed on the concrete form side, wherein the cross-section of the opening of the guidance facility (45) facing away from the screw nut element exceeds the cross-section of the screw thread of the screw nut element (24).
2. Locking device according to claim 1, characterized in that the tubular guidance facility (45) ends near to a formwork shell (7) of the form element (6).
3. Locking device according to at least one of the claims 1 and 2, characterized in that an anti-rotation lock (60) is provided on the screw nut element (24).
4. Locking device according to claim 3, characterized in that the anti-rotation lock (60) has a stop element preferably constituted as a wing (80), wherein the stop element can prevent rotation of the screw nut element (24) by stopping against a stop preferably constituted by the fastening elements (30).
5. Anchor system of a concrete wall form with an anchor rod and a first locking device (20) according to the pre-characterizing part of claim 1 and a second locking device (21) according to any one of the claims 1 to 4, wherein the anchor rod (2) is screwed into the screw thread of the screw nut elements (23,24) of the locking devices (20,21).
6. Anchor system according to claim 5, characterized in that the anchor rod (2) tapers toward the anchor rod tip (50), wherein a first screw thread (71) in the end region of the anchor rod (2) facing away from the anchor rod tip has a larger thread diameter than a second screw thread (70) in the end region of the anchor rod (2) near to the anchor rod tip.
7. Anchor system according to the claim 6, characterized in that the anchor rod (2) conically tapers between the first and the second screw thread (70,71).
8. Concrete wall form with at least one anchor system according to any one of the claims 5 to 7, wherein the concrete wall form has a first and a second form element (5,6) and wherein the form elements (5,6) are opposite each other with their formwork shells (7), characterized in that the first locking device (20) of the anchor system is disposed on the rear of the first form element (5), preferably fastened by means of first fastening elements, and the second locking device (21) of the anchor system is disposed on the rear of the second form element (6), preferably fastened by means of second fastening elements and the anchor rod (2) of the anchor system, coming from the rear of the first form element (5), is screwed through the screw thread of the screw nut element (23) of the first locking element (20) and, guided through one anchor insertion hole (13) each in the formwork shells (7), is screwed into the screw thread of the screw nut element (24) of the second locking device (21).
9. Concrete wall form according to claim 8, characterized in that, as the anchor system, an anchor system according to any one of the claims 5 to 6 is provided, wherein the second screw thread (70) of the anchor rod (2) of the anchor system is screwed completely into the screw nut element (24) of the second locking device (21) of the anchor system as far as it will go and the screw nut element (23) of the first locking device (20) of the anchor system is pre-positioned by means of a locking splint inserted through a splint hole (75) in the anchor rod (2).

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