DE6903194U - STEEL ROD FOR STRENGTHENED CONCRETE CONSTRUCTIONS - Google Patents

Description

regarding steel rods for prestressed concrete structures.

The invention relates to a steel rod for prestressed concrete structures, hereinafter referred to as prestressed concrete steel rod.

Various types of pre-stressed concrete steel bars are known, such as a recessed steel bar or a steel wire rope made from steel strands.

The steel rod provided with recesses has the following disadvantages:

a) Given the small dimensions of the depressions, the concrete filling the depressions breaks easily if a load or tension is applied, causing the adhesion between the steel rod and the concrete through the indentations is not significantly improved.

b) Since the depressions are present at individual points, the steel rod does not have a constant cross-section over their entire length.

c) Since the strand with the indentations is not intended to be screwed into it, it must if threads are attached to the end section, foil will machine the part to a standard diameter for turning before this is carried out in the same way as with a steel rod of a different shape.

Steel wire ropes have the following disadvantages:

a) Since it is a twisted strand, at the beginning of the tension one becomes the real tension unrelated elongation occur, and so there is an elongation that is not with the help of the modulus of elasticity the stress-strain curve can be calculated. It is therefore necessary to pre-tension the cord when tensioning it target.'

b) In the case of tensioning a strand, a tensioning device must be used. If when tensioning the strand a slip occurs in the tensioning device, the strand must correspond to the slip of the tensioning device on the Clamping side to a greater extent due to the load to be applied to be pulled. It is therefore difficult to obtain the correct tension load. The price of the jig is like this it is high that although this disadvantage is negligible in a toughening process and prolonged use, it is in technical and from an economic point of view is particularly disadvantageous, comparatively short columnar structures such as prestressed concrete pillars produced by means of a prestressing process.

The invention is based on the object of a prestressed concrete steel rod that has such a high level of adhesion to the concrete that no breaking or tearing in the d.

the
ge surrounding concrete occurs, / which leads to a uniform elongation and makes the formation of a stop head or a screwed thread in the end portion easily possible.

In order to solve this problem, ^{according to the invention, the steel rods i '; in} prestressed concrete structures are characterized by the fact that the spiral number, reordered hats of essentially semicircular cross-section are provided on the surface of the round steel rod, so that the entire width of the grooves on the rod circumference is less than 2 / 5 of the total surface area of the bar is that the width of each hat is less than 1/10 of the total diameter of the bar and that the depth of each hat is less than 1/10 of the diameter of the bar.

The invention and details of the invention are illustrated below with reference to schematic drawings of an exemplary embodiment explained in more detail.

FIG .. 1 shows in a side view a piece of erf i ¹ "manure ACCORDING SEN steel rod;

Fig. 2 shows a cross-section through the rod along line A-A in Fig. 1;

Fig. 3 shows a side view of part of the inventive Steel rod with a stop head;

Fig. 4 shows a side view of a piece of the invention Steel rod with a thread screwed into the rod end;

Fig. 5 shows a part of a known one in a side view Prestressed concrete steel bar with recesses;

6 shows the known steel rod in a section along line B-B in Fig. 5;

Fig. 7 shows in a side view a piece of a known one wire rope-shaped Snann concrete steel rod;

Fig. 8 shows this steel rod in a longitudinal section

Line C-C in Figure 7;

Figure 9 is a graphical representation of the boiling results the anchoring lengths of prestressed concrete steel bars according to the invention on the one hand and the known prestressed concrete steel rods with a circular cross-section on the other hand.

The erfindunprsgemässe prestressed concrete steel bar according to Figs. 1 and 2 includes a rod body 1 having a surface 2, are formed spirally in the guard 3 ^{substantially} J- ^m semicircular cross section.

According to FIG. 3, the rod body 1 with the surface 2 and the grooves 3 formed in a spiral shape therein and of an essentially semicircular cross-section has a stop head k on ο

According to FIG. 4, the rod body 1 has the surface 2 and the spirally formed 3 of a substantially semicircular cross-section have a screwed-in thread section 5 on.

The known prestressed concrete steel rod 6 according to FIGS. 5 and 6 is provided with indentations or depressions 7.

In the case of a known wire rope-shaped design according to FIGS. 7 and 8, individual steel wires 8 are provided, between which recessed or recessed sections 9 are formed.

In the graphic representation of FIG. 9, the abscissa shows the distance from the end of the stress in centimeters, while the ordinate shows the voltage measurement values to be multiplied by the factor 1O ~. Curve I shows the measurement results for the anchorage length of an inventive Prestressed concrete steel rod, while curve II shows the measurements of the anchorage length for a known prestressed concrete steel rod reproduces.

This measurement of the anchorage length was carried out in the following way:

A concrete material is formed around a prestressed concrete steel bar which was loaded or tensioned by stop pieces. According to de .τ. The stop pieces were used to set the concrete released to give tension to the concrete. The size of the prayer piece was 8 cm in height, more often than not. in the width and 150 ct. in length. Tension gauges were passed over the surface of the concrete at a distance of first 5 cm and then 10 cm, and then a Voltage measured.

Function, mode of action and advantages of the inventive Prestressed concrete steel rods are detailed below explained;

a) Since the rod has several spiral shaped grooves, as it depends on the diameter size of the steel rod is required, their adhesion to the concrete is great.

This is done by the measurement results of the anchorage length a prestressed concrete steel rod according to the invention with a diameter of 11 mm and a prestressed concrete steel rod with a circular cross-section and a diameter of 10.9 ram. According to FIG. 9, according to these results, the anchoring amount of the prestressed concrete steel rod is circular Cross section ninety times the diameter, while the anchoring length of the prestressed concrete steel rod according to the invention is so smaller that it is only thirty-five times that of the diameter is.

In other words, when the adhesion of the prestressed steel bar to the concrete is increased mechanically in that A prestressed concrete steel rod with a larger diameter can adhere not only to the surface, but also to the grooves

can also be used. As also shown in Fig. 1, the crimped pre-stressed concrete rod used to enclose the length of the anchoring has a diameter of 11 mm and has six grooves, three with a cross-sectional area of 1.2 mm each and one (the spiral long height of about ten times the diameter.

b) Although the anchoring length is smaller as described under a, the prestressed concrete steel rod according to the invention carries no protrusions on their surface that could split or tear the concrete. Therefore, even when used as a Prestressed concrete pillars, when hammering in or cutting off one excess length does not cause axial tearing in the concrete.

c) Since the prestressed concrete steel rod according to the invention remains constant Has cross-sectional area over the entire length, results even with a plurality of rods if they are tensioned when the load is introduced, an equal elongation. Furthermore, a bias is also like a Strand not necessary.

d) If a prestressed concrete steel rod is tensioned in order to obtain a correct tension load, it is highly desirable to use the steel rod 1 with a stop head more stupidly with a threaded section 5, as shown in FIGS. 3 and ^ . Since the outside diameter of the prestressed concrete steel rod according to the invention is produced with a standard value of precision with which a thread can be screwed in, this thread can be made without the need to only machine the required section in order to obtain an effective diameter before cutting the thread as it is done with the well-known prestressed steel bars. Furthermore, when the thread is cut, the threading tool is worn. When comparing the degree of wear of the prestressed concrete rod according to the invention on the one hand and the known prestressed concrete steel

On the other hand, it has been shown that because of the grooves 3 in the steel rod 1 according to the invention, the tool is not overloaded and its lease time is increased by about JO% ο

e) Since when the head 4 hits, a real circular shape with a sharp contour is obtained, the head 4 is difficult to bend when on the surface below the Head 4, as shown in Figs. 3 and 4, an irregularity is present, when the load is introduced, the irregularity in the anchoring plate cuts out of a softer one Steel as the prestressed concrete steel rod 3in, and thereby the prestressed concrete steel rod is prevented from rotating.

f) In the case of anchoring with a chuck, the wear period of the chuck's pawl is three times as long, because the contact area with the pawl of the chuck is larger than with strand.

Even v. ⁱ e ^vi ' ⁿ di ° prfinriiintrsfpmsiKRf! Snann concrete steel

bar is subsequently tensioned, it does not become a large one in the concrete will

Crack, but / only in the main negligible small Cracks generated because the sticking of the rod to the concrete is greater than with a known prestressed concrete steel rod with a circular Cross section is.

The reasons for establishing the aforementioned cross-sectional shape of the prestressed concrete steel rod according to the invention are given below set out in detail.

In general, it is necessary to provide a prestressed concrete steel rod with a provided in its end Gevjinde to "erank'-rn. Further is, in order to increase the safety factor against a shearing of the threads divided, the cutter during clamping, for a Spannbetonstahlstrnpe with a nominal diameter of 10 mm ■ (Gevjindo outside diameter of 10 mm) and an actual diameter of 9.15 mm a nut with a height of 1 $ mm,

1.5 times the diameter. The shear force the product of the mother is more effective. Diameter and the cutter height proportional. If a Spannoetonstahlstahl: e with a nominal diameter of 10 mm with a tension load of 100 kg / mm using a nut of any height, it shows that a severe break occurs in the threaded part of the nut when it has a height of about 8 mm. Therefore applies to the strength of the vorgenarm η nut a safety factor that corresponds to a double shear fracture stress. Will the total width of the Grooves 3 on the circumference of the prestressed concrete steel rod 1 larger, enlarged usually also sticking to the concrete. Hence, it is in the case of using it as an ordinary steel rod of different shape not necessary to limit its shape at all. In the case of a prestressed steel bar, however, in which the shear fracture of the butter becomes problematic, namely when the total width of the grooves on the circumference is more than the make up half the total circumference, the standard nut can no longer be used for the pre-stressed concrete steel rod at hand, because a shear fracture will occur mechanically. When you have the security of thread equipment tolerances taken into account, the usable total width of the grooves on the circumference is therefore only up to 2/5 of the total circumference. If also takes the mother's safety factor into account the total usable width of the grooves about 1/3 of the total circumference. furthermore, the shape of each groove is different depending on the strength of the concrete when the load is applied is applied to the concrete. If the width is less than 1 mm, the concrete in the groove will crack and therefore it will stick be lowered on the concrete. If the width is more than 3.5 mm, the thread part is completely cut off by the groove, and therefore the strength would be lowered. Hence, a side of about 2.5 rom is most effective, like that Experiments have shown.

As for the depth of the groove, it seems that if it is about

7029

corresponds to the core diameter of the threaded part in the case of a screwed thread on the steel punch, for example with a material diameter of 13.1 mm a base diameter of 12.052 mm, i.e. a hat depth of about 1 mm for the Prestressed concrete steel rod according to the invention, in which the outer thread diameter I ^ mm. Hence, a trapezoidal cowl with a width of 2.5 mm and a depth of about 1 mm most desirable. The formation of a corner at However, making the groove is so difficult that the groove is made with a rounded shape. However, in the case since adherence to concrete is not so necessary, a semicircular one or triangular groove is sufficient.

Since the total width of the grooves on the circumference is determined in this way and any desired groove shape can be used, the number of F ¹ Uten will be small in the case of a thin prestressed steel rod, while it will be large in the case of strong prestressed steel rods. However, if regulation is only possible with the number of grooves, the groove width should be adjusted.

Further, since the threaded part is difficult to bulge out due to the existence of the grooves when it is screwed in, the diameter becomes the prestressed concrete steel rod according to the invention something selected larger than that of the known prestressed concrete steel rod without a groove, while, for example, the diameter of a known Prestressed concrete steel rod with a nominal diameter of 14 mm Is 12.92 mm, the diameter of an inventive Prestressed steel bar 13.1 mm, so it is about 0.2 mm larger.

-Claim-

Claims (1)

Claim to protection Steel rod for prestressed concrete structures, characterized in that it extends in a spiral jnde grooves (3) of substantially semicircular cross-section on the surface (2) of the round steel rod (1) are provided that the total width of the grooves on the circumference is less than 2/5 of the total circumference of the bar is that the width each groove is less than 1/10 of the total circumference and that the depth of each groove is less than 1/10 of the rod diameter amounts to.