EP0341346A2 - Concrete reinforcement spacer - Google Patents

Abstract

A strip-like concrete reinforcement spacer (1) with a bearing strip (2) and two supporting strips (3, 4) integrally moulded thereto to form a U-shaped cross-section is described. At least one longitudinal rib (14 and 15), which is approximately 2-4 mm high and is provided with transverse grooves (17 and 18) at regular spacings, is integrally moulded on the bearing strip, on its side opposite the supporting strips. When placed in the transverse grooves in the longitudinal rib or ribs, the steel reinforcing elements (9, 10) are very well stabilised against lateral slipping. Since the transverse grooves are arranged at regular spacings, the desired uniform spacing of the steel reinforcing elements from one another results automatically. The complex measuring of the spacings and the complex aligning of the steel reinforcing elements on the building site are no longer necessary. Moreover, the low height of the longitudinal rib(s) of only 2-4 mm and consequently the correspondingly low depth of the transverse grooves ensure that spacings other than those predetermined by the sequence of the transverse grooves can also be chosen. <IMAGE>

Description

Technical field

The present invention relates to a strip-shaped concrete spacer with a support bar and two support bars molded onto it to form a U-shaped cross section.

Concrete spacers are required for concreting as spacing elements between reinforcing steel and formwork to ensure a uniform and defined concrete covering of the reinforcing steel.

State of the art

A concrete spacer of the type mentioned is already known and is widely used. The support bar of the known concrete spacer is provided with elongated recesses. Its support strips have a notched edge. The known ßeton spacer is usually used so that it stands with its support strips on the formwork or bears against it and the reinforcing steel comes to rest on its support bar. By turning around, the known concrete spacer is also for installation suitable on soft insulation boards.

Presentation of the invention

It is a particular object of the present invention to provide a concrete spacer of the type mentioned, the use of which makes it considerably easier to lay the reinforcing steel on the construction site, but which, on the other hand, is universally usable no less than the already known concrete spacer.

According to the invention, the stated object is achieved by a strip-shaped concrete spacer with the features of patent claim 1.

In addition to the known features already mentioned at the outset, the concrete spacer according to the invention is accordingly characterized in that at least one approximately 2 to 4 mm high longitudinal rib is formed on the support strip on its side opposite the supporting parts and that this longitudinal rib is provided with transverse grooves at regular intervals.

The advantages of the invention can be seen above all in the fact that the reinforcing irons can be inserted into the transverse grooves in the longitudinal rib or ribs and in this experience a fairly good stabilization against lateral slipping when laying. The fact that the transverse grooves are arranged at regular intervals automatically results in the uniform spacing of the reinforcing bars from each other is desired. The elaborate measuring of the distances as well as the elaborate alignment of the reinforcing bars on the construction site are not necessary. On the other hand, the small height of the longitudinal rib (s) of only 2 to 4 mm and the resulting correspondingly small depth of the transverse grooves ensure that distances other than those specified by the sequence of the transverse grooves can also be selected. Furthermore, the low height of the longitudinal ribs ensures that the concrete spacer can still be placed on soft insulation panels without unduly deforming them. Finally, it can be regarded as a further advantage of the low height of the integrally formed longitudinal rib / s that this does not result in strongly protruding edges, corners and the like, which would entail the risk of injury.

Advantageous embodiments of the invention are characterized in the dependent claims.

Brief description of the drawing

• Fig. 1 in perspektivischer Darstellung einen Abschitt eines leistenförmigen Betonabstandhalters nach der Erfindung,
• Fig. 2 das Profil eines anderen leistenförmigen Beton­abstandhalters nach der Erfindung,
• Fig. 3 einen Abschnitt des Betonabstandhalters von Fig. 2 in Aufsicht, und
• Fig. 4 den Abschnitt von Fig. 3 in einer Seitenansicht.

Exemplary embodiments of the invention are explained below with reference to the attached drawings. It shows:

• 1 is a perspective view of a section of a strip-shaped concrete spacer according to the invention,
• 2 shows the profile of another strip-shaped concrete spacer according to the invention,
• Fig. 3 shows a portion of the concrete spacer of Fig. 2 in supervision, and
• Fig. 4 shows the section of Fig. 3 in a side view.

Ways of Carrying Out the Invention

In Fig. 1, a strip-shaped concrete spacer according to the present invention or the short section shown by it is designated by 1. It has a support strip 2, on which two mutually parallel support strips 3 and 4 are formed to form a U-shaped cross section. The support bar 2 is provided with elongated oval recesses, which are designated 5, 6 and 7. The lower edge of the support strips has approximately semicircular notches at regular intervals, of which only one is designated by 8.

On its side opposite the two support strips, on which reinforcing bars 9-12 rest, the support strip of the spacer shown is provided with two longitudinal ribs 14 and 15, respectively. While the entire height of the spacer above the formwork 16 is a few centimeters (typically between 1.5 and 4 cm), the two longitudinal ribs are each only a few millimeters, preferably only between 2 and 4 mm, high.

The two longitudinal ribs 14 and 15 are provided at regular intervals of preferably about 5 cm with transverse grooves, of which only two, designated 17 and 18 respectively, can be seen in FIG. 1. The transverse grooves 17 and 18 mentioned are of the same length, i.e. arranged adjacent to one another in the same cross-section of the spacer, but on the other hand can also be arranged offset with respect to one another. The depth of the transverse grooves preferably corresponds approximately to the height of the longitudinal ribs. The reinforcing bars 9 and 10 are inserted into other such transverse grooves to prevent them from slipping sideways, which is why the corresponding transverse grooves are covered.

Due to the low height of the longitudinal ribs and the resulting correspondingly small depth of the transverse grooves, any other spacing than that specified by the sequence of the transverse grooves can be selected. Regularly arranged transverse grooves of a more pronounced design, which do not allow an alternative choice of the spacing of the reinforcing bars, would inevitably lead to structural errors in cases in which the spacing of the reinforcing bars corresponding to the spacing of the transverse bars is not prescribed by the engineering specifications.

In order to stabilize the reinforcing bars between the individual transverse grooves to prevent them from sliding sideways, the longitudinal ribs 14 and 15 are between the transverse grooves with a plurality of notches of less depth, for example in the manner of a Rack, provided, as is clear from Fig. 1.

It often proves to be advantageous or necessary to firmly connect the reinforcement bars to the spacer, which is easiest to do by tying with a binding wire. Attaching the binding wire to the spacer is made considerably easier by shaping the recesses in the support strip in such a way that at least one, preferably dovetail-shaped nose projects into each of them. Such a nose is shown in the recess 6 in Fig. 1 and designated 19. The lugs protruding into the recesses are preferably each arranged with the transverse grooves in the longitudinal ribs in a cross-sectional plane of the spacer.

A plastic is particularly suitable as the material for the concrete spacer. If a plastic material is used, the concrete spacer can be produced in a manner known per se by extrusion, the longitudinal ribs 14 and 15 being obtained by suitable shaping of the extrusion nozzle without an additional operation. After the strand has been extruded, the recesses in the support strip and the semicircular notches in the support strips are made by punching out. The transverse grooves and notches in the longitudinal ribs can simply be pressed into the still soft strand.

To improve the embedding of the spacer in it surrounding concrete can advantageously be roughened in particular the side surfaces of the support strips. The easiest way to roughen is immediately after extrusion using a roughing or needle roller on the still soft strand. A surface roughness between about 0.1 and 2 mm should be aimed for.

Fig. 2 shows another embodiment of a strip-shaped concrete spacer according to the invention in profile. This spacer again has a support strip 20 and two support strips 21 and 22 molded onto it to form a U-shaped cross section. However, only a single longitudinal rib 23 is formed on the support strip here. The longitudinal rib 23 is formed directly next to the area 24 opposite the support strip 22 on the support strip 20 and thus laterally outside of the center thereof.

As can be seen from FIG. 2, the support bar is again provided with recesses 25. The recesses 25 are approximately C-shaped. They extend with their two legs over the entire width of the support strip 20 between the two support strips. The legs mentioned therefore also overlap with the longitudinal rib 23, as a result of which the transverse grooves 26 arise in the latter.

As can also be seen from FIG. 4, the recesses 25 are dimensioned, shaped and arranged in such a way that longitudinal rib sections and transverse grooves each have the same length Alternate sections. The lower edge of the support strips 21, 22 again has approximately semicircular notches at regular intervals, of which only one is designated by 27. The notches are each arranged below the recesses 25.

The strip-shaped concrete spacer according to FIGS. 2 to 4 has the following advantages in particular: Because it has only one longitudinal rib provided with transverse grooves, the reinforcing bars can also be inclined. i.e. be laid on it at an angle other than 90 ° with respect to its longitudinal direction. Due to its simple profile, it can be easily extruded, with the longitudinal rib 23 being molded on at the same time. After extrusion, it is only necessary to punch out the recesses from the support bar and the notches from the support bars. When punching out the recesses from the support strip in the form described, the desired transverse grooves in the longitudinal rib are produced automatically, as a result of which no additional work step is required for their formation.

The latter advantage could of course also be achieved with a different shape of the recesses than that described above. Furthermore, the spacer shown in FIGS. 2 to 4 can also be roughened laterally during extrusion.

Claims (10)

1. strip-shaped concrete spacer (1) with a support strip (2) and two support strips (3, 4) molded onto it to form a U-shaped cross section, characterized in that at least one, approximately 2, on the support strip on its side opposite the support strips -4 mm high longitudinal rib (14 or 15) is formed and that this longitudinal rib is provided with transverse grooves (17 or 18) at regular intervals. 2. Concrete spacer according to claim 1, characterized in that two parallel longitudinal ribs (14, 15) are integrally formed on the support strip, opposite the support strips, and that the transverse grooves (17, 18) in pairs in these longitudinal ribs next to each other with the same length or in same cross-section or offset from each other. 3. Concrete spacer according to claim 1 or 2, characterized in that the mutual distance of the transverse grooves from each other is about 5 cm. 4. Concrete spacer according to one of claims 1 or 3, characterized in that the depth of the transverse grooves in the or the longitudinal ribs approximately corresponds to their height. 5. Concrete spacer according to one of claims 1 to 4, characterized in that a plurality of notches of smaller depth are provided in the manner of a rack between two transverse grooves in the or the longitudinal ribs with a depth that approximately corresponds to their height. 6. Concrete spacer according to one of claims 1 to 5, characterized in that the support strip has recesses (5, 6, 7) which are shaped such that at least one, preferably dovetail-shaped nose (19) projects into them. 7. Concrete spacer according to one of claims 1 to 6, characterized in that the support strips have a notched edge and that their side surfaces have a rough surface with a surface roughness between 0.1 to 2 mm. 8. Concrete spacer according to one of claims 1 or 5 to 7, characterized in that the support strip (20) has recesses (25) which overlap with the at least one longitudinal rib (23) and which thereby form the transverse grooves (26). 9. Concrete spacer according to claim 8, characterized in that the at least one longitudinal rib (23) on the support strip (20) laterally outside the center thereof, preferably is formed directly next to the area (24) opposite one of the support strips (22). 10. Concrete spacer according to one of claims 8 or 9, characterized in that only one longitudinal rib (23) is integrally formed on the support strip (20).

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