DE1936683A1 - Reinforcing steel - Google Patents

Description

Karl A. Bros ©

Dipl.-Ing.

D-8Ü23 Munich - Pullach Hünchen-Pullach, July 18th, 1969

Wiener $ tr.2.I.Mchn.7933S70.79JtJl2

Austrian-Alpine Montangesellachaft • in Vienna

Reinforcing steel

The invention relates to a reinforcing steel made of naturally hard steel for concrete and consists essentially in that the cross-section of the one-piece Stahles the shape of two or more touching or intersecting »approximately bounded by circles Has surfaces that are in a width that corresponds to at least half the diameter of the circles, with each other Are connected, wherein it is expedient in the grooves formed by the adjoining circular surfaces transverse ribs are arranged at a distance from one another, which are not protrude beyond the envelope of the profile.

Reinforcing steel with a circular cross-section well known. Reinforcing steels are also known, whose cross-section consists of two circular areas, which

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however, do not touch, but connected by a bridge are. Compared to reinforcing steels, the cross section of which is formed by a single circular area, the inventive Reinforcing steel has the advantage that its surface is in a more favorable ratio to the cross-section stands, i.e. that the surface, which is decisive for the adhesion in the concrete, opposite the surface of a cylindrical rod is substantially enlarged with the same cross-section. Compared to a reinforcing steel, whose cross-section is composed of circular areas, which are connected to one another by webs, the reinforcing steel according to the invention has the advantage of a smaller one Cross-section width to «According to the building regulations, reinforcing bars with a diameter of less than 20 mm must be arranged in the concrete at a distance of at least 20 mm, while reinforcing bars with a diameter over 20 mm at a distance which is at least the diameter of each stronger reinforcing bar, must be arranged. Circular profiles are based on rolling technology cheaper, and the invention thus enables you to take advantage of it the advantages in terms of rolling technology given by the more favorable profile while at the same time taking advantage of the advantages of the more favorable ratio between surface and cross-section. The reinforcing steels according to the invention enable sosit to accommodate more iron in a zone of a given width gen, i.e. the reinforcement at those points to]

focus on which it is most effective. It can For example, the tensile reinforcement of a concrete beam, or the like. be arranged in a row so that all the reinforcement lies at the greatest distance from the neutral zone of the beam, and therefore most effective is «Burch this better use of the reinforcement in terms of arrangement, steel can be saved. These advantages can be achieved with rebar ben of circular cross-section nods can be achieved because, when the same cross-sectional area in a circular area is concentrated, because of the smaller surface the adhesion iaa Baton is not guaranteed to this extent £ tnd it can

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these advantages also with the known cross-sectional shapes in which two circular areas are connected by a web are, cannot be achieved, because the web has the cross-section widened and thus the accommodation of the corresponding number of reinforcing bars in one level is not possible will.

Because of the required adhesive surface, it is on most favorable when the circular surfaces from which the profile is composed touch each other. With overlapping arrangement According to the invention, the distance between the circle centers of the circular areas should be at least three quarters of the circle diameter be.,

According to the invention it is advantageous if the circular surfaces merge into one another via fillets, the radius of which is a quarter of the radius of the circular surfaces, or if the circular surfaces merge into one another via curves or straight lines, their connection points to the circular curvatures at a distance ^ of about a quarter of the diameter of the circular surfaces »This creates re-entrant angles which are not with Safety can be filled by the concrete and at which points there is therefore no adhesion, and from which points corrosion originate due to insufficient sealing, avoided. On the other hand, the re-entrant grooves are still large enough to ensure a sufficient adhesive surface on the one hand and on the other hand to enable the granular aggregates of the concrete to be embedded.

Appropriately, transverse ribs are arranged at a distance from one another in the grooves formed by the circular surfaces that close to one another, which ribs do not protrude beyond the envelope of the profile. In this way, troughs are formed, so to speak, into which the concrete penetrates, and here it is of particular importance that the troughs are so large that the grains of the filling material penetrate into these troughs. In this way there is greater resistance to

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pulling the reinforcing steel out of the concrete achieved. It can longitudinal ribs can also be arranged, which are then connected again by transverse ribs, the transverse ribs in height of the longitudinal ribs are led around the cross-section, and this can also lead to a further increase in adhesion Have longitudinal ribs a toothing.

In the drawing, the invention is based on exemplary embodiments explained schematically.

1, 2, 3 and 5 show cross-sections through reinforcing steel, which are composed of two circular areas. Fig. 4 shows a view of the reinforcing steel Fig. 3, while Fig. 3 shows a cross section along line III-III of Fig. 4 represents. 6 shows a reinforcing steel in a view. 7 and 8 show the arrangement of known reinforcement bars and reinforcing bars according to the invention in comparison. Figs. 9 and 10 also show the arrangement of a more known type and reinforcing bars according to the invention in comparison. 11 to 15 show reinforcing steels, the cross-section of which is composed of three circular areas, partly in diagrammatic form Representation, partly in cross-section and partly in view. Fig. 16 and 17 show reinforcing steels, the cross section of which consists of four Circular areas is composed in cross section.

Fig. 1 shows a cross section, which consists of two contacting circular areas 1 and 2 is composed. Both circular surfaces touch so that the center distance a is equal to the diameter of the top surface. Both circular areas merge into fillets 3, the fillet radius being a quarter of the radius of the surfaces 1 and is 2 bounding circles. Fig. 2 differs from Fig. 1 only in that the two circular surfaces 1 and 2 do not merge into one another via fillets, but rather via a straight line 4 .. In this case, the distance b is the Attachment points of this straight line 4 to the circular areas 1

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and 2 about a quarter of the diameter of the surfaces 1 and 2 bounding circles.

The reinforcing bars can now easily be made from these two cylinders formed by the circular areas 1 and 2 exist, which about the fillets 3 or the straight line or curved connections 4 are connected to one another. However, spaced transverse ribs are useful 5 arranged, which increase the adhesive strength in the concrete.

The cross-section according to Pig. 3 differs from the cross section according to Pig. 2 in that the circular surfaces of the profile in the area of the troughs 6 formed by the ribs 5 are cut at 7. In this way, the troughs 6 are enlarged, a larger amount of concrete can penetrate into these troughs and the adhesion is improved as a result. Fig. 4 shows the view of a stick according to Pig. 3 ₉ whereby the ribs 5, which delimit the troughs 6, are clearly visible. The ribs 5 are offset from the ribs 5 * arranged on the other side of the rod and indicated by dashed lines. The reinforcing steel according to FIG. 5 differs from the reinforcing steel according to FIG. 2 in that longitudinal ribs 8 are also provided. The longitudinal ribs 8 have the advantage that the transverse ribs 5 can now be made higher, and these transverse ribs can also no-cn be guided around the profile, as indicated by the ribs 9,

Fig. 6 shows a view of an embodiment in which the Cross ribs 5 are arranged obliquely. On the opposite side, these transverse ribs 5 * are inclined in the other direction arranged as indicated by dashed lines. In this embodiment, the longitudinal ribs are used to increase the adhesive strength provided with teeth, 10.

FIGS. 7 and 8 show the arrangement of the reinforcing bars in the concrete. Fig. 7 shows the usual rods with a circular cross-section, which, for example, have a diameter of

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10 mm. The distance d must therefore be 20 mm. Fig. 8 shows the profiles according to the invention, which have the cross-section of two rods according to Pig.7. The distance d can thus can be chosen here to be equal to diameter c. Ls shows that with a given width of a beam almost twice the amount of steel can be accommodated in one plane. The same results from the comparison of Fig. 9 and 10, FIG. 9 again showing the reinforcement with known rods. Here, if the prescribed distance d is observed, the double the amount of iron can be accommodated in one level. With

11 the lower edge of the carrier is indicated, and it shows that thus in the reinforcing steels according to the invention, the amount of steel at a smaller distance from the lower edge of the wearer can be concentrated.

Fig.:11, 12, 13, H and 15 show different designs a reinforcing steel, the cross-section of which consists of three Circular areas 12, 13 and H is composed. The those Areas 12, 13 and 14 bounding circles touch each other again, and it is in an analogous manner to the described Arrangements of transverse ribs 5 or 5 * and longitudinal ribs 8 are provided. In these balls can be in the same plane almost three times the amount of iron can be accommodated.

Fig.16 shows an embodiment in which the cross section of the reinforcing steel is composed of four circular areas 15, 16, 17 and 18, with transverse ribs as well 5 are provided. Here, too, they touch Areas 15 »16, 17 and 18 bounding circles. In one such a case can contain almost four times the amount of iron in the at the same level.

17 differs from FIG. 16 only in that longitudinal ribs 8 are additionally provided and that the transverse ribs 5 are supplemented by transverse ribs 9, similar to the arrangement according to FIG. 3, which extend around the profile . ⁿ

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Claims (6)

Patent claims: Reinforcing steel made of naturally hard steel for concrete, characterized in that the cross-section of the one-piece steel.die shape of two or more has surfaces (1,2f12,13,14 {15,16,17,18) that touch or overlap, approximately bounded by circles, those in a width that is at least half the diameter corresponds to the circles, are connected to each other, and it is useful in the areas connected to each other Circular areas (1,2j12,13,14; 15,16,17,18) formed grooves Transverse ribs (5 »5'Hn spaced from each other are arranged, which do not protrude beyond the envelope of the profile. 2. Reinforcing steel according to claim 1, characterized gekennzeichi net that with an overlapping arrangement of the circular areas Distance (a) between the center of the circle at least three quarters of the circle diameter is. 3. Reinforcing steel according to claim 1 or 2, characterized in that that the circular areas ($ 1.2 12,13,14) have fillets (3) merge into each other, the radius of which is a quarter of the radius of the circular surfaces. 4. Reinforcing steel according to claim 1 or 2, characterized in that that the circular areas (1,2; 12,13,14; 15,16,17,18) merge into one another via curves or straight lines (4) whose connection points to the circular areas (1,2 * 12,13,14 °, 15,16,17,18) at a distance (b) of about a fourth «! the diameter of the circular areas. 5. Reinforcing steel according to one of claims 1 to 4, characterized in that the through the circular areas 909 88 5; / 02 8 3 (1, 2j12,13, -14; 15 »16,17" »18) of the cross-section ■ The cylinder has longitudinal ribs (8) and the transverse ribs (5) are guided around the cross-section at the level of the longitudinal ribs (8) (9) are. (Fig. 5,15,17). 6. Reinforcing steel according to claim 5, characterized in that that the longitudinal ribs (8) have teeth (10). 7 Reinforcing steel according to one of Claims 1 to 6, characterized in that the circular areas (1,2 $ 12,13 »14) of the cross-section in the area of the trough (6) formed between the transverse ribs (5) to enlarge this trough (7) aind, (Fig. 3). - ⁸ - 4.7.69 / / f 90 9 885/026 3 BATH ORiQINAL.