FI59454C - FOERFARANDE FOER ATT BILDA I BETONGKONSTRUKTIONER FOEREKOMMANDE SKARV- OCH FOERANKRINGSOMRAODEN SAMT FOERANKRINGSSTYCKE FOER ATT GENOMFOERA FOERFARANDET - Google Patents

Description

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C (45) Patent granted 10 OS 1931 Patent aeddelat v "(51) K» .ik.3 / In * .a3 E 04- C 5/16 FINLAND —FINLAND (21) P «w« t * ll »» lwmu · —Putunttiwdltnlng 8θθ4θ5 (22) Htkumlipilvt — AnalMmlnfidag 11.02.80 ^ (23) AlkupUvl — GlMgltuttdag 11.02.80 (41) Tullut | ulklMlc * l - Bllvlt offtfltllg Patents j. monthM-iWam

Patant · och ragiftarstyrMtan 'Amokm utlagd och utl. * Krtft # n puMicund 30. Oh. 8l (32) (33) (31) Requested haze — Bugtrd prtortt · * (71) (72) Asko Erkki Series, Nuolitie 49, 02240 Espoo 24, Finland-Finland (FI) (74) strip & Co (5h) Method for the formation of splice and anchoring areas of concrete bars in concrete structures and for the implementation of the method of anchoring - Förfarande för att bilda i betongkonstruktioner förekommande skarv- och förankringsomräden bett to form and strengthen splice extension and / or anchoring areas.

The following types of extensions and anchors for reinforcing bars and tendons are already known: 1. Adhesive joint and adhesive anchoring. without splices or anchors.

2. Welded splices, which may be - welding of bars - welding of transverse bars or anchor pieces (English patent 1375635 and Norwegian patent 31384).

3 · Splice or anchorage mounted around a rod or tendon using spiral reinforcement (U.S. Patent 3,552,787).

4. Sleeve joints and sleeve anchor pieces (Danish patent 123749, French patent 1426844, US patents 2327650,3638978, 2638367, 3540763 and 3729218, English patents 1107592, 1194239, 1293954 and 1453674), Swedish patent 34 and German patent 34

5- Extension parts (English patent 1095 ^) 2 ^, U.S. patent 367S25Q and Swiss patent 5253531- mainly for the installation of steels, sometimes also for the transmission of the force 2 59454 of the pressed reinforcements and sometimes for the partial transmission of the force of the drawn reinforcements.

The features and shortcomings of the mentioned extension types are e.g. follow-vat:

The glue joint and the adhesive anchor require a rather long extension or anchoring length, which complicates the design, concreting and economics of the structure.

Making welded joints on site conditions is almost impossible, and the work requires specialized workers and becomes very expensive. Spiral-like splices and anchors are difficult to install precisely in place and make concreting difficult.

The sleeve joints are formed by threading, pressing or blasting the sleeves against the rod or filling the gap between the steel sleeve and the rod in the sleeve, e.g. with termite solder or concrete mortar. Sleeve joints are usually reliable, but require special work or are otherwise quite expensive. They should be used mainly for special purposes and reinforcement repairs. Extensions made for the installation of reinforcements do not work effectively in transmitting the traction of the joint, so they are of little importance as functional parts of the structure.

The method according to the invention is mainly characterized in that before casting concrete for each extension area in the overlapping area of reinforcing bars or tendons but without attaching the bonding and anchoring pieces to the reinforcing reinforcing bars or tendons themselves, whereby the bonding and anchoring pieces in the structure prevent the concrete of the splices and anchoring areas from expanding in the concrete effective operation of anchoring.

The invention also comprises a binding and anchoring body for carrying out the above-mentioned method, and the features 3 594 S 4 characteristic of the binding and anchoring body become apparent from claims 3 to 6.

The bars or tendons to be extended or anchored thus pass through the splice or anchor parts to be placed in the overlap area or anchorage area of the splice and the splice or anchor body acts to prevent the concrete of the splice or anchorage from expanding or the efficient operation of anchoring. During the installation phase of the reinforcements and during concreting, the piece can act as an installation piece, in which case the rods to be extended or anchored are securely fastened in place.

Preliminary tests have shown that by using a binding and anchoring piece, the reinforcements can be installed accurately and easily in place. When operating in a structure, the invention provides sufficient splice or anchoring capacity for a splice or tendon splice or anchor length that is only 1/2 to 1/5 of the length of the glue joint or adhesive anchor. The toughness of the splice or anchorage, i.e. the fracture slip, is also substantially higher than with the adhesive splice or adhesive anchoring. The cost of this splice or anchorage is substantially lower in both material and labor costs than the price of other power-transmitting pieces, allowing for a wide range of applications. The invention may be of particular importance in the increasing use of prefabricated irons, roads and the manufacture of structural elements.

The invention will become more apparent from the following description and the accompanying drawings, in which Figure 1 shows a group of tie and anchor pieces seen from above when anchoring steel bars, Figure 2 shows a group of tie and anchor pieces in Figure 1 seen from one end, Figure 3 shows the tie and anchor body of Figures 1 and 2 and the anchoring member group seen from above as the steel bars are extended, Fig. 4 shows the binding and anchoring member group of Fig. 3 seen from one end, Fig. 5 shows a third embodiment of the binding and anchoring member group seen from above and Fig. 6 shows a sectional view taken from Fig. 5 AA.

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According to Figures 1 and 2, the bonding and anchoring piece 2 is formed by a plate-like or sheet profile body anchored in concrete, preferably made of steel, with notches, openings or holes 4 for fitting and guiding the reinforcing bars 6 or tendons and through the anchoring pieces 2. Figure 1 shows the connection of three binding and anchoring pieces 2 by longitudinal parts 3 into a group of binding and anchoring pieces 1.

According to Figures 1 and 2, the main parts of the bonding and anchoring piece 2 are a plate-like anchor part in the direction perpendicular to the bar 6 or the tension, shaped for anchoring the concrete at its ends 5 and possibly on other sides. There may be one or more binding and anchoring pieces 2 in one anchoring area.

The group of binding and anchor pieces 1 usually also includes a longitudinal part 3 connecting the binding and anchor pieces 2, stiffening the piece, supporting the extension or anchoring during installation and also securing the binding and anchor body group 1 to the concrete. The longitudinal parts 3 can also be one or more , in special cases the longitudinal part 3 may be missing. One or more rods 6 or tendons can be extended or anchored by one binding and anchoring body 2 or a group 1 formed therefrom.

Figures 3 and 4 show a group of binding or anchoring pieces 1 'arranged at the joint of the steel bars 6'. In Figures 3 and 4, the counterparts have the same reference numerals as in Figures 1 and 2, but with an apostrophe.

Figures 5 and 6 show a different embodiment of the binding and anchoring group and the reference numbering of the counterparts is the same as in Figures 1 and 2, but with two apostrophes.

The essential operating principles of the extensions (Fig. 3) and anchoring (Fig. 1) of the reinforcing bars 6, 6 'and the determining factors of the splitting or anchoring capacity are 1. the transverse tensile stresses in the concrete and the resulting cracking in the direction of the bars 6 and detached, causing the 5 59454 rods to detach from the structure at their joint.

If these phenomena can be avoided, the joint will only break due to the slip between the bars 6, 6 'and the concrete, whereby the capacity of the joint is substantially higher than with a conventional glue joint. In this case, the overlap length can be shortened accordingly, thus saving the steel going into the overlap and facilitating the concreting work.

The purpose of the transverse bonding and anchoring pieces 2, 2 ', 2 "is to act as holding and connecting parts for the bars 6, 6' at the joint during reinforcement installation and concreting. 6, 6 'cracks in the concrete and prevent the bars 6, 6' from splitting the protective concrete and thus detaching from the structure.

The function of the longitudinal tie rod 3 is to connect the transverse tie and anchor pieces 2, 2 ', 2 "to each other during the installation and concreting of the reinforcements and thus to enable them to act as a rigid joint and to prevent the transverse tie and anchor pieces 2, 2', 2" and through them. , 6 'from splitting the protective concrete and thus detaching from the structure under further stress.

When the transverse bonding and anchoring pieces 2, 2 ', 2 "have a shape similar to the examples, they are able to prevent cracking of the concrete. In addition, when the bars 6, 6' remain inside the structure, the joint breaks only when the concrete breaks between the ridges. depending on the case, increases by about 1.5 to 3.0 times the normal overlap and the overlap length can be shortened accordingly in order to achieve the required capacity, a suitable overlap length for e.g. .100 instead of 0. This results in considerable savings in steel material and at the same time ensures the operation of the splice as the capacity dissipation is reduced.

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The transverse binding and anchoring pieces 2, 2 ', 2 "keep the extendable bars 6' precisely in their pods, and the distance between the overlapping bars '6' is made to the desired size. The suitable bar spacing depends on the granularity of the concrete mass. In this way, poor compaction of the concrete, which often occurs in the joint, is prevented, which increases the reliability of the joint.

The binding and anchoring piece acts as an anchoring piece according to the same principles as the extension piece. With anchoring pieces, the longitudinal part is thinner than with extension pieces and may be missing.

The binding and anchoring piece 2 'is mounted by threading the piece from the end of the rod 6' to be extended so that the rod goes into the corresponding holes 4 'or notches in the anchor parts. The second part of the extendable rod 6 'is then mounted at the required point overlapping the required distance with the rod 6' passing through the binding and anchoring piece 2 'and the binding and anchoring piece 2' is moved to the overlaps of the rods 6 'so that the overlapping part of the second rod 6' in the holes 4 'or notches of the anchor parts belonging to this rod 6' in the anchoring piece 2 '. The binding and anchoring piece 2 is threaded from the end of the rod or tendon to be anchored to the anchoring area, i.e. close to the end of the rod 6 or tendon, so that the rod 6 or tendon goes into the corresponding holes 4 or notches in the binding and anchoring body 2.

The above exemplary embodiments of the invention illustrate only a few structural solutions and uses. There are thus other structural and operational applications of the invention within the scope of the claims.

Claims (6)

7 59454 A method for forming and reinforcing splicing and / or anchoring areas of reinforcing bars (6) or tendons in concrete structures and concrete elements, characterized in that before casting for each spanning area in the overlapping area of the reinforcing bars (6) or tendons a spaced-apart bonding and anchoring piece (2), preferably made of steel and consisting of plate profiles and having one or more notches, holes (4) or openings, spaced substantially transversely to the reinforcing bars (6) or tendons, which is adapted to anchor 6) binding and anchoring pieces (2) to the concrete mass surrounding the joints and / or anchoring points of the or tendons, but without attaching them to the self-extending concrete-steel bars (6) or tendons, whereby the binding and anchoring pieces (2) - and the concrete of the anchoring areas from expanding against the reinforcing bars (6) or tendons in a perpendicular plane, ensuring the efficient operation of the joint or anchoring. A method according to claim 1, characterized in that through-holes, notches or holes (4) are formed in the bonding and anchoring pieces (2) for each reinforcing steel bar (6) or tension, and in that the bonding and anchoring pieces (2) are used for splicing. and / or at anchoring points as installation parts during reinforcement installation and during concreting. Bonding and anchoring body for carrying out the method according to claim 1 and thus for forming and reinforcing extension and / or anchoring areas of reinforcing bars (6) or tendons in concrete structures and concrete elements, characterized in that the bonding and anchoring body (2) is formed by an anchoring or reinforcing plate a single piece of sheet profiles, preferably made of steel or forming part of a group (1), with one or more notches, openings or holes (4) for fitting and guiding the reinforcing bars (6) or tendons loosely transversely to the anchorage and / or extension areas through the bonding and anchoring pieces (2), the main concrete gripping surfaces or parts being located in the bonding and anchoring body (2), in particular in its end or edge areas. 8 59454 Binding and anchoring piece according to Claim 3, characterized in that the binding and anchoring piece (2) has a loose hole (4), an opening or a notch for each reinforcing steel bar (6) or tendon passing therethrough. Binding and anchoring body according to claim 3, belonging to a group (1) formed of binding and anchoring bodies (2), characterized in that the spaced-apart binding and anchoring bodies (2), which are preferably parallel to each other, are connected to one another. with one or more rigid longitudinal * sections (31 · Binding and anchoring piece according to Claim 3, characterized in that the end or edge parts (5) of the piece are specially shaped to enhance the anchoring of the piece to concrete, for example by bending the edge parts of the piece. k 59454 9