DE8325996U1 - REINFORCEMENT ELEMENT - Google Patents

Description

The founding concerns a thrust defense point for Flat ceilings or beams supported by concrete pillars

to reinforced or prestressed concrete.
b

In DE-PS 27 27 159 a shear reinforcement is described, which is perpendicular to the ceiling surface Reinforcing bars, the lower ends of which are welded vertically on a flat bar, the

Ό within the ceiling parallel to its main plane runs. This shear reinforcement requires the use of various elements, with the vertical Reinforcing bars consist of cold forged round bars. This results in considerable additional manufacturing and storage costs, which increase the manufacturing costs the known shear reinforcement. It must be taken into account that every weld between the vertical reinforcing bars and the flat steel includes safety risks, too are unavoidable in automatic production.

In contrast, the invention is based on the object of improving the known shear reinforcement so that when using only a single material with correspondingly simpler storage, better material utilization is possible with a more favorable transfer of forces between reinforcement and concrete.

The invention solves this problem by the features contained in the characterizing part of claim 1 .

Since the shear reinforcement element according to the invention is a part of one in the longitudinal direction in the area I-profile steel cut in a wave-like manner on the web is, both the warehousing and the

I V I · · ·

II I · · · III ·· · I

the production of the reinforcement element is very easy. In addition, it can be through different design and position of the dividing line in the web of the I-profile in adaptation to the given conditions of use be formed differently.

The dividing line can thus run sinusoidally and / or trapezoidally and / or rectangular, the wavelength of the dividing line being variable, if necessary can be. The possibility of the length of the half-waves at a constant wavelength is particularly advantageous to be able to design unequal and / or variable.

Furthermore, special conditions of use can also be taken into account in that the dividing line can be arranged asymmetrically to the central longitudinal axis of the I-profile.

The invention is based on the schematic drawing of several exemplary embodiments explained in more detail. Show it:

Fig. 1 is an I-profile with symmetrical to the central longitudinal axis of the profile extending tra- pez-shaped dividing line in perspek

tivic view,.

2 shows an I-profile with a trapezoidal dividing line running asymmetrically to the central longitudinal axis,

3 shows an I-profile with a sinusoidal dividing line arranged symmetrically to the central longitudinal axis, 35

4 shows a cross section through a separated

th longitudinal part of the I-profile with angled Wave crest and

Fig. 5 shows a cross section through a separated

° th longitudinal part of an I-profile with on the

J wave crest welded on T-profile

g cut.

% In Fig. 1 there are two shear reinforcement elements 10 and 11

j 10 showing the symmetrical halves of a

J I-section steel 12, the web 13 of which is symmetrical

I tric to the central longitudinal axis of the I-profile through a

$ trapezoidally corrugated dividing line 14 are made.

Vi In this way, by severing the

'i 15 webs of an I-profile at the same time two with each other

5J identical reinforcement elements are produced.

I Fig. 2 shows an I-profile steel 15, the web 16

■ ί asymmetrical to the central longitudinal axis of the I-profile 15

g 20 divided by a trapezoidal dividing line 17 jjj is so that two asymmetrically designed Schubbe

reinforcement elements 18 and 19 are present.

Instead of the trapezoidal shape of the wave-shaped dividing line shown in FIGS. 1 and 2, the wave shape also be rectangular or sinusoidal.

Fig. 3 shows two reinforcement elements 20 and 21, which by one to the longitudinal center axis of an I-profile steel 30 22 symmetrically running sine wave separating ·? line 23 are made. The longitudinal central axis can

": can thus be viewed as the x-axis of the dividing line.

'·' The dividing line 23 is in the profile web so into

$ specifies that the length of the above the x-axis

it 35 running half-waves (a) by 1/10 in each case in the Li direction of the front left in the drawing

As seen from the end, the wavelength of the lower half-wave (b) assigned to each individual period increases by 1/10 from the end of the I-section beam on the left in the drawing to the other end. This increases the load-bearing capacity of both reinforcement elements 20, 21 in the direction of that end to which the two intersection points formed by the crest of the x-axis have an increasingly greater distance from one another.

* 0 sen. The upper and lower half-waves each add up to a wavelength of 1.0, with the length of the upper and lower half-waves of a wave becoming more and more similar as the distance from the front left end in FIG. 3 increases. The ratio of the wavelengths from one end of the carrier to the other can also be reversed. In practice, one longitudinal half of the profile steel 22 is turned over so that the ends equipped with the same length of the half-shafts and thus having the same shear strength lie next to one another. Since the wavelength of the sinusoidal waves steadily increases away from the supported end on the left in the figure, the beam or the flat slab is reinforced in the area of its support than in the areas in which shear forces have to be absorbed to a lesser extent. In deviation from FIGS. 2 and 3, it is also possible to arrange the axis of the dividing line to the longitudinal axis of the carrier at an angle and / or to dimension the wavelength halves or half-waves unequal and / or variable with a constant wavelength.

In Fig. 4 is a cross section through z. For example, the shear reinforcement element 21 is shown, the corrugated crest being bent at right angles to the web, and in this way an anchoring element 24

Il · II ··· ■ IC t · ··

forms. *

In a departure from FIG. 4, FIG. 5 shows an embodiment rungsform, in the z. B. on the crest of the% shear reinforcement member 11 in Fig. 1 with trapezoid-shaped waves $ a T-profile section is welded at 26 25. ι

Claims (10)

et · ■ ·· t · iaiiik • f · ■ ··· »Il * t ** V ···> Il» • ■ at ··· · tι »t ι> k DI Γ * !. -'ΪN G. ' HAN S AV. GBOE NI N G I »A T E N T A K W A L T N 4-31 Slide and bearing technology Nell GHibH Ringstr. 15 5620 Velbert 15 (Neviges) Shear reinforcement element claims 1. Shear reinforcement element for those supported on supports Flat ceilings or beams made of reinforced or prestressed concrete, characterized in that the Schubbev / ehrungselement consists of a part of an I-profile, which in the web in the longitudinal direction Is separated in a wavy manner. 2. shear reinforcement element according to claim 1, characterized in that the wave crests with transverse to Level, directed anchors are provided. 3. shear reinforcement element according to claim 2, characterized in that the anchorages by Bending of the wave crests are formed. 4. shear reinforcement] ement according to claim 2, characterized characterized in that the anchorages are made to the IMtTSTIt. 4 · SlICItI MfNCIi l: .N Uli, '· Ii (MI SlilW't I (I · 1 * A l * t Ί ΪI.:' Lljl J: i A IMT INT ■ Tl: l .. (IIMII 47HI7II · Ti: ii: \ .1 LVd.TII ■ It 11 lit I I Il till! Wave crests welded on T or L profile sections exist. 5. Shear reinforcement element according to one of claims 1 to 4, characterized in that the dividing line of the web of the I-profile is sinusoidal. 6. Shear reinforcement element according to one of claims 1 to 5, characterized in that the dividing line of the web of the I-profile is trapezoidal. 7. Shear reinforcement element according to one of claims 1 to 6, characterized in that the dividing line of the I-profile is rectangular. 8. shear reinforcement element according to one of claims 1 to 7, characterized in that the wavelength the dividing line is variable. 9. shear reinforcement element according to one of claims 1 to 8, characterized in that at constant Wavelength the length of the half-waves is unequal and / or variable. 10. Shear reinforcement element according to one of claims 1 to 8, characterized in that the dividing line to the central longitudinal axis of the I-profile is asymmetrical runs or is inclined.