EP0094404A1

EP0094404A1 - Anchoring device for works effected on a concrete wall or ceiling

Info

Publication number: EP0094404A1
Application number: EP19820903450
Authority: EP
Inventors: Jürgen HAUSER
Original assignee: Individual
Current assignee: Individual
Priority date: 1981-11-20
Filing date: 1982-11-18
Publication date: 1983-11-23
Also published as: WO1983001804A1

Abstract

Dispositif d'ancrage pour des travaux sur une paroi (8) ou un planfond en béton, consistant en une douille (13) munie d'un élément d'ancrage bétonnée dans la paroi (8) ou le plafond en béton et un élément (14) de fixation qui pénètre dans la douille (13) et dans l'élément d'ancrage de la douille (13). La douille (13) présente une première partie avec une section en forme de fente et une deuxième partie avec une section de préférence circulaire ou approximativement circulaire servant d'éléments d'ancrage. L'élément de fixation (14) comprend une barre ou un tube qui présente à son extrémité pénétrant dans la douille (13) un ou plusieurs éléments d'ancrage perpendiculaires à la barre ou au tube et adaptés à la fente de la douille (13), et à son autre extrémité sortant de la douille (13) un dispositif de liaison par serrage ou boulonnage.Anchoring device for working on a concrete wall (8) or bottom, consisting of a socket (13) provided with an anchoring element concreted in the wall (8) or the concrete ceiling and an element ( 14) of fixing which penetrates into the bush (13) and into the anchoring element of the bush (13). The socket (13) has a first part with a slit-shaped section and a second part with a preferably circular or approximately circular section serving as anchoring elements. The fixing element (14) comprises a bar or a tube which has at its end penetrating into the sleeve (13) one or more anchoring elements perpendicular to the bar or to the tube and adapted to the slot of the sleeve (13 ), and at its other end leaving the bushing (13) a connection device by tightening or bolting.

Description

Fastening anchors for working on a concrete wall or ceiling.

The invention relates to a fastening anchor for performing work on a concrete wall or concrete ceiling. In particular, the formwork of ceilings or floors that are placed on concrete walls is considered. Such anchoring anchors can also be used in connection with suspended ceilings or for attaching pipelines to concrete walls or concrete ceilings.

So far, it has been customary to concrete steel pins or wires into the concrete wall, on which a ceiling is to be placed, for example, which were then used to hold the ceiling formwork. This way of working has several disadvantages. After removing the slab formwork, the protruding ends of the steel pins or wires must be pinched off and so clean that they no longer protrude from the concrete surface. On the one hand, wire ends protruding from a concrete wall - even if they are so short - can lead to injuries to the construction workers, but on the other hand such protruding steel pins or wire ends are a nuisance view, which is particularly important for exposed concrete. In addition, the pinching off of these steel pins or wires after stripping the concrete wall is time-consuming and therefore expensive.

In addition to these disadvantages, there is the fact that the protruding wire ends or pins, even if they are pinched off, become rusty. Running rainwater can leave rusty stripes on the concrete wall, so that the wall will soon become unsightly. In any case, such a wall would not be practically practicable in exposed concrete.

In order to avoid the disadvantages mentioned, a fastening anchor is already known, which consists of a sleeve which can be concreted into the concrete wall and has an anchoring pin made of steel which penetrates the sleeve transversely to its longitudinal direction; this anchoring pin in turn serves as an anchor for an eyelet-like fastener to be inserted into the interior of the sleeve. After completion of the concrete wall, it thus has a series of openings resulting from the inserted sleeves, into which eyelet-like fastening elements are hung, so that these eyelets can then be used to hold the shuttering boards.

Although this type of fastening anchor already represents an advance over the fastening methods for formwork boards mentioned at the outset, the object of the invention is to improve this known sleeve principle in such a way that the individual parts of the fastening anchor can be manufactured more cheaply and more stably. Starting from the known fastening anchor, which consists of a concrete that can be concreted into the concrete wall or ceiling, is provided with an anchoring element and a insertable into the concreted sleeve and lockable in the anchoring element of the sleeve, it is proposed according to the invention that the sleeve is a first Section with an essentially slit-shaped cross-sectional profile and an adjoining, serving as anchoring element, second section with an expanded, preferably circular or approximately circular cross-sectional profile and that the fastening member consists of a rod or tube which has one or at its insertable end into the sleeve has several, transversely to the longitudinal direction of the rod or tube, the slot profile of the sleeve adapted anchoring members and the other, protruding from the sleeve end for a clamp or screw connection gnet is trained.

If a clamping connection can be carried out with the fastening member, its end protruding from the sleeve is expediently eyelet-shaped, for. B. for pressing a wedge. In the case of a screw connection, the end of the fastening member protruding from the sleeve has an internal or external thread.

For better anchoring of the sleeve in the concrete, it is advisable to provide it with a reinforcing flange at its end, namely on the part which has a circular or approximately circular cross-sectional profile. Furthermore, it is advisable to provide that cavity of the sleeve, which has a circular or approximately circular cross-sectional profile, with one or more transverse limiting tabs, which then serve as a stop for the rotational movement of the fastening element to be inserted.

The sleeve itself is expediently made of plastic, namely by injection molding. It is provided with access covers on both sides, which are adapted to the respective cross-sectional profiles.

Compared to the known fastening anchor consisting of a sleeve and a fastening element, the invention has the advantage that the slot-shaped profile of the front part of the sleeve only results in a smaller opening in the concrete wall than in the known arrangement. Since the central bulge of the slot only needs to be so large that the shaft of the fastening element has about a play of 1 mm, a guide for the fastening element is also provided inside the sleeve.

The fastener to be inserted into the sleeve is expediently made of malleable cast iron. Naturally, it would also be possible to produce this link from normal steel or even from flat iron, in which case the stamping method would be used in the production. 5 - 10 mm thick flat iron could be used as the starting material for this.

A particularly cost-effective production for a fastener permitting a screw connection would arise when this link is formed in two parts, such that one part has the anchoring member and the other part consists of a conventional threaded tie rod for concrete formwork. If you then provide the first-mentioned part with an axial threaded hole, you can screw this part with the threaded tie rod. The advantage of this manufacturing method is that only the first-mentioned part, which therefore has the anchoring member, would have to be made from malleable cast iron.

Exemplary embodiments of the fastening anchor according to the innovation, which is to be understood as meaning the sleeve to be concreted in with the associated fastening member, are shown in the drawings.

In Fig. 1 of the drawing is a side view, in Fig. 2 is a plan view of the basic design of the sleeve. Fig. 3 shows a view of an embodiment of the fastener, while in Fig. 4 the principle of the use of this fastening anchor is shown for formwork of a concrete wall using a clamp connection. 5 and 6, perspective representations of the fastening sleeve are drawn, in FIG. 7 a differently designed fastening element and in FIG. 8 it is shown how such a fastening anchor with a fastening element according to FIG. 7 is to be used when formworking a concrete wall .

1 and 2, the sleeve to be concreted into the wall is designated 13. It consists of the two sections 1 and 2, which merge into one another. These two sections differ from each other in their profile. The profile of section 1 is approximately slot-shaped, as can be seen in FIG. 2. The adjoining profile 2, on the other hand, is circular or approximately circular. Both resulting openings of the sleeve 13 are covered by the cover 3 and 3a. While the cover 3a only has the task of closing the sleeve 13 against the penetration of concrete, the cover 3 is used to hold the sleeve 13 during the concreting process. Accordingly, the cover 3 has a thickness of approximately 20 mm. It is attached to the formwork board with the help of pins or nails, then the sleeve is attached to the cover 3.

From Fig. 3 the formation of an eyelet-like fastening member 14 can be seen, which is inserted into the concreted-in sleeve 13. This link consists of the eyelet 5, a shaft 6 and an anchoring pin 7. As shown in the drawing, these parts can be manufactured individually and then assembled, for example by welding the tubular shaft 6 into the eyelet 5 and then the Pin 7 is driven into a bore in the shaft 6. In mass production, however, the part shown in FIG. 3 will expediently be produced in one operation, for example in malleable cast iron.

In Fig. 4 is the application of an attachment consisting of the parts shown in Figs. 1, 2 and 3 anchor explained. The eyelet-like fastening member 14 is inserted into the sleeve 13 concreted into the concrete wall 8, such as a key in a keyhole. After insertion of this link, it is rotated by 90 °, so that the anchoring pin 7 is locked in the sleeve part 2. Then the formwork board 10 can then be attached to the concrete wall 8 and wedged using a further spacer 15 and a U-rail 11 using a wedge 12 inserted into the outer part 5.

Of course, you can also first put the formwork board 10 on the concrete wall 8, then insert the fastener 14 through the hole provided in the formwork board 10 in the sleeve 13 and rotate 90 ° and finally the formwork board 10 with the help of the U-rail 11 and the wedge Wedge 12 in the eyelet 5 of the fastener 14.

After pouring the ceiling to be placed on the concrete wall, the wedge 12 is knocked out so that the formwork board 10 can be removed. Subsequently, the eyelet-like fastening member 14 is removed from the sleeve by rotation through 90 ° and the sleeve opening is closed with the aid of the cover 3.

5 and 6 are perspective representations of the sleeve shown in FIGS. 1 and 2 in a view drawn on a smaller scale than in FIGS. 1 and 2. In Fig. 7 another embodiment of a fastening member is drawn and in Fig. 8 the attachment of a casing with such a fastening member.

5 and 6 details of the sleeve 13 can still be seen. For example, the circular cross-sectional profile 2 has a reinforcing flange 16 on its outer edge. In the interior of this circular cross-sectional profile, one or more limiting tabs 17 are provided, which serve as a stop. The sleeve is provided on both open sides with caps 3 and 3a, the shape of which is adapted to the cross-sectional profiles.

In Fig. 7 an embodiment for the fastening member is drawn, which is inserted into this sleeve after concreting the sleeve shown in Figs. 1, 2, 5 and 6. This fastening member is composed of the two parts 18 and 19, the part 18 is expediently made in malleable cast iron and carries the anchoring member 20 at its end. The diameter of the shaft 18 must be smaller than the inner diameter 4 of the sleeve part 1 (FIG. 2) so that this part can be rotated after it has been inserted into the slot-shaped part 1 of the sleeve. The anchoring member 20 has a span, which must be less than the inner diameter of the circular sleeve part 2. The part 18 of the fastening member is also provided with an inner bore and internal thread 21, so that a conventional threaded tie rod 19 can be screwed into this part, which on both of its parts Male thread ends 22 and 23 is provided. After the two parts 18 and 19 have been screwed together, this fastening member is inserted into the concreted-in sleeve 13 and pivoted through approximately 90 °. With the help of the anchoring member 20, which abuts the stop tab 17 when the pivoting is about 90 °, the fastening member 18, 19 is anchored in the sleeve and can now be used to fasten the formwork boards to be applied. The attachment is then carried out using a wing nut 24, which is also shown in Fig. 7.

The operation with this fastening anchor is shown in one embodiment in FIG. 8. The concrete wall is again designated 8. During the pouring of this wall, the sleeve 13 just described has been concreted. In this case, the wooden formwork 10 is fastened with a tensioning timber 11, which is applied to the wooden formwork 10 together with a spacer 15. The fastening element is inserted into the sleeve 13 and rotated through 90 ° through a bore in the tensioning timber 11, so that the anchoring member 20 of the fastening member is anchored in the sleeve. With the help of a wing nut 24, the tensioning timber 11 is now pressed onto the wooden formwork 10, so that the wooden formwork 10 lies firmly against the concrete wall 8.

It should finally be pointed out that the fastening element, which is shown in two parts in FIG. 7, can also be produced from a single piece. However, the two-part production has the advantage that it is much cheaper. As can be seen from the above, the concretable sleeve is the essential element of the fastening anchor according to the invention. In the illustrated embodiments, this sleeve has two profiles, the first of which is used to insert the actual anchoring element, while the second profile is designed so that it Locking this fastener after it is inserted into the sleeve. For this purpose, in the illustrated embodiment, the fastener is provided with an anchoring pin extending transversely to its longitudinal direction, so that after it has been inserted into the sleeve, this fastener must be rotated, for example, by 90 ° in order to engage in the anchoring.

Another embodiment of the invention corresponding to this basic idea would consist in changing the profiled sleeve shown in FIGS. 1, 2, 5 and 6 in such a way that the profile part 1 runs asymmetrically to the central axis of the sleeve. One side of the profile shown is omitted, so that the profile part 1 has an opening approximately corresponding to the opening of a keyhole. If you now give the rod-shaped fastening member a diameter that is slightly less than the width of the slot of the profile 1 and if you thicken this rod at its end to a bead which has a slightly smaller diameter than the diameter 4 according to FIG. 2, so you can insert this fastener into the sleeve, to the extent that the thickened end of this attachment limb protrudes into the rear profile part 2 of the sleeve. If this fastener is now moved so far in the slot direction that the rod falls into the slot, this fastener is secured against falling out of the sleeve because its final thickening is anchored in the profile part 2. This version would have the advantage that you could use commercially available parts for the fastener.

The fastening anchor according to the invention can also be used in connection with suspended ceilings or for fastening pipes to concrete ceilings. In this case, the use of a fastening element according to FIG. 7 would be expedient. However, the shaft 19 would then have to have a greater length in order to protrude sufficiently far after being inserted into the concreted-in sleeve.

Claims

Claims:

Fastening anchors for work on a concrete wall or ceiling, consisting of a sleeve that can be concreted into the concrete wall or ceiling, provided with an anchoring element, and a fastening member that can be inserted into the concreted-in sleeve and lockable in the anchoring element of the sleeve, characterized in that the sleeve (13 ) has a first section (1) with an essentially slot-shaped cross-sectional profile and an adjoining second section (2) serving as an anchoring element with an expanded, preferably circular or approximately circular cross-sectional profile, and that the fastening member (14) consists of a rod or tube exists, which has at its insertable end into the sleeve one or more transverse to the longitudinal direction of the rod or tube, the slot profile of the sleeve adapted anchoring members (7, 20) and the other end protruding from the sleeve for a clamping or Schr Aubverbindung is suitable.

2. Fastening anchor according to claim 1, characterized in that the fastening member; (14) at its end opposite the anchoring member (7) is designed like an eye. (5)

3. Anchoring anchor according to claim 1 and 2, characterized in that the second section (2) of the sleeve (13) has a reinforcing flange (16).

4. Fastening anchor according to claim 1 to 3, characterized in that in the second section (2) of the sleeve (13), one or more limiting tabs (17) are attached, which as a stop for the rotational movement of the fastening member to be introduced (14, 18, 19th ) serve.

5. Anchoring anchor according to claim 1 to 4, characterized in that the sleeve (13) consists of plastic and is designed as an injection molded part.

6. Anchoring anchor according to claim 1 to 5, characterized in that the sleeve (13) is provided on both sides with end caps (3, 3a) which are adapted to the respective cross-sectional profiles.

7. Anchoring anchor according to claim 1 to 6, characterized in that the fastening member (14, 18) is made of malleable cast iron.

8. Anchoring anchor according to claim 1 to 6, characterized in that the fastening member is made of steel, preferably of flat iron.

9. Anchoring anchor according to claim 1 to 6, characterized in that the fastening member is formed in two parts, such that a part (18) has the anchoring member (20) and the other part (19) consists of a conventional threaded tie rod for Eeton formwork and that the first-mentioned part (18) is provided with an axial threaded bore (21) for the purpose of a screw connection with the tension rod (19) having threads at both ends (22, 23).

10. Anchoring anchor according to claim 9, characterized in that only the first-mentioned part (18) is made of malleable cast iron.