DE19755630A1 - Spacer for holding reinforcement in building shuttering filled with concrete - Google Patents

Abstract

The spacer comprises a plastic extrudate having alternating raised (2) and depressed (3) areas repeated along the length forming a a semi-open profile in cross-section, for resisting pressures and give secure fixing of reinforcement. An Independent claim is also included for a method of spacer manufacture in which a thin walled tubular plastic extrudate is produced by extrusion blowing, reshaped to create raised and depressed areas and then divided into two half shell profiles. Preferred Features: The profile has a U-shaped cross-section and is formed in a wave form or a meandering shape along the length. Raised areas (2) rest against the shuttering. Openings (10) punched in the profile, allow concrete to flow through, and the dimensions of the depressed areas (3) enable a reinforcement to be fitted in. Reshaping of the extrusion blown product is carried out by a caterpillar track tool, and an S-shaped form is produced before dividing the profile into two half shells.

Description

The invention relates to a spacer for reinforcement or reinforcement in structural formwork to space the reinforcements or reinforcements the formwork to be filled with a filling compound, in particular concrete. The Ab standhalter is designed as an extruded profile made of plastic and has a half-open profile cross-section.

The use of concrete in civil engineering is due to its brittle mate only through the use of additional internal reinforcement elements, the so-called reinforcements or reinforcements possible. Reinforcements or Be  Reinforcements usually consist of individual, intertwined Steel strands that also, especially for reinforcing flat concrete surfaces elements as a two-dimensional braided steel mesh mat is a widespread ver find application. Since the backfill material concrete is only tensile and limited Shear stresses can absorb the reinforcements before the completion of the individual concrete parts for absorbing and compensating for the concrete parts kenden forces adjusted accordingly. For example, the reinforcements for absorbing large tensile forces, such as occur in bridge construction, additionally put under tension before being in concrete with appropriate Formwork to be filled. Such constructions are also under the designation prestressed concrete known. After completion of the individual concrete parts tensile stress in the reinforcement and compressive stress in the concrete material the balance.

Examinations of the mechanical bela in a concrete element stungen have shown that reinforcements as close as possible to the concrete surface should run within the individual concrete parts so that they are as effective as possible can absorb bending loads occurring within the concrete parts. A such peripheral arrangement of reinforcements immediately below the concrete surface of the individual components on the one hand enables the smallest possible Material use regarding the use of reinforcement material and looks to others that the reinforcement should be as far as possible from the position of the neutral fiber when bending loads occur within the individual concrete own parts.

Another important aspect in the manufacture of concrete parts concerns the manufacturer completely closed surfaces. So the laying of reinforcement always with an even distance from the concrete board This is because the reinforcements lying directly on the formwork are selected rend and not completely embedded after filling with concrete and thus the Are exposed to external influences. Environmental influences on a metallic Reinforcement usually leads to their steadily increasing corrosion after a short time.  

A permanent absorption of tensile forces is therefore not guaranteed and required usually a cost-intensive concrete renovation.

It is therefore important to ensure that any processing errors that occur in the Shaking, shaking and possible effects of frost or the hasty Drying the surface that forms can lead to various surface defects to avoid deep reinforcement, which is necessary to avoid appropriately adjusted spacers from the surface of the formwork in front of the Backfilling is to be positioned.

Generic spacers are known in many forms and at described for example in the German utility model G 90 13 975.5. Out The concrete spacer made of plastic material looks for reasons of stability provided with support feet, upright vertical tape in front of the Longitudinal central axis has a sinusoidal shape and to increase the Bela stability of the spacer provides support struts. Similar constructed Ab standholders are from the German published application DE 195 33 239 A1 and can be found in German utility model DE 296 19 339 U1.

The known spacers described above all have Ver improvement of the inherent stability as well as its resilience, which is complex to manufacture Support strut structures that are made exclusively by known plastic Injection molding techniques are made. A disadvantage of this manufacturing process is on the one hand the costly production of corresponding mold parts and second, the fact that injection molding is not in a continuous Process flow can be operated. There are also limits to the possibility sets to produce spacer profiles of any length. For training long, one-piece spacer profiles are used with suitable plug-in connectors bindings with which individual partial strands can be connected to one another. However, this requires a correspondingly complex connection structure from which not least also determines the effort of an injection mold.

The invention has for its object a spacer for reinforcements or Reinforcement in accordance with the preamble of claim 1 so that the Spacer has a contour, on the one hand, for the secure fixing of Withstand the reinforcement pressure that occurs without causing self-deformation gene and on the other hand, can be produced efficiently and cost-effectively. In particular, it should be possible to use spacers of any length put. A method is also to be specified with which the spacer ko inexpensive and mass-produced can.

The solution to the problem on which the invention is based is in claim 1 give. A method according to the invention is the subject of claim 11. Den Features of the invention that advantageously design features are the subject of the Un claims.

The spacer according to the invention for reinforcements or reinforcements for work status of the reinforcements or reinforcements of structural formwork that are Filling compound, in particular concrete, are to be filled in, and are made of plastic is extruded profile is formed and has a semi-open profile cross section formed such that the extruded profile has a longitudinal section, which in Selective sequence, periodically repeating raised and lowered areas che provides.

Experienced by the wave-shaped or meandering extruded profile wall the spacer on the one hand increased longitudinal flexibility and at the same time high Pressure resistance.

Resilience tests have shown that despite the simple design tion of the extruded profile as a U-profile of the spacers by providing the quasi meandering contour the weight of the load on the spacer can withstand deformations.  

The meander structure can take any form of training, from the classic sical, rectangular meander structure, over wavy contours to Zigzag profiles, such as those equipped with an articulated joint drinking straws are enough.

The spacer also has two opposite through the U-profile Flanks whose flank edges provide raised and lowered sections, so that they rest on the flank edges, for example on building formwork de spacers, just above the raised sections with the construction formwork in Contact occurs. In this way, the contact surfaces can be minimized, so that the surface resulting from the backfill can solidify homogeneously.

It is also ensured that the reinforcement resting on the spacer is safely spaced from the construction formwork. Moreover, the invention Extruded profile additional openings, so that the backfill, preferably Concrete can also penetrate into the interior of the U-shaped profile.

So that the reinforcements resting on the profile beam according to the invention are possible The lowered areas of the mean are as secure as possible against slipping The shaped structure of the spacer is so large that the individual steel struts protrude into the contour of the lowered areas can. In this way, the entire reinforcement can be clamped on the spacers are fixed.

Due to the longitudinal flexibility of the spacer according to the invention, due to the meandering wall structure, the spacer can be in any way ne are deformed S-shaped in the longitudinal direction. In this way the distance is maintained holder has a stable contact surface and is largely secured against tipping.

A particularly advantageous aspect of the spatial configuration of the spacer lies in the possibility of production by means of extrusion processes. With help of a  Plastic extrusion process, it is possible to use the spacer by the meter to manufacture and cut to length according to customer requirements.

According to the invention is a method for producing the above Spacers designed such that by means of a plastic extrusion process with a downstream blow molding process, a thin-walled, tubular strand is won. With the help of a suitable caterpillar mold, the tubular strand deformed so that the wall structure periodically like repetitive, raised and lowered areas in alternating succession provides. Finally, the extruded profile obtained in this way is combined with a Cutting tool separated into two half-shell profiles.

Immediately before or after the cutting process, the extruded profile can be heated deformation in any way in addition to ver relative to its longitudinal direction be shaped, for example according to an S shape or to form a complete ring.

After hot forming, there are additional side openings in the distance punched out holders, which are preferably introduced along the center line.

The invention is hereinafter without limitation of the general inventions thanks based on exemplary embodiments with reference to the drawings described as an example. Show it:

Fig. 1 shows typical arrangement of a spacer between Bauschalung and reinforcement,

Fig. 2 plan view of a spacer having thereon befindlicher reinforcing mat,

Fig. 3a, b are perspective views of a spacer according to the invention, and

Fig. 4a, b, c are side views of spacers according to the invention.

In Fig. 1, the typical use of a spacer for spacing a reinforcement 12 against a building formwork 11 is shown. The spacer 1 shown in the page representation stands up with the smallest possible contact surface on the surface of a construction formwork 12 and carries on its surface the reinforcement 12 resting on it, which must not be less than a distance from the construction formwork 11 given by the height of the spacer.

In Fig. 2 a top view is shown of a reinforcement mat 12 which rests on a S-shaped configured spacer 1. The spacer 1 in turn rests on a construction form 11 . The S-shaped contour of the spacer 1 ensures, on the one hand, that it rests against tilting on the construction 11 and, on the other hand, supports the reinforcement mat 12 in a possible large area relative to the longitudinal axis of the spacer.

An extruded profile according to the invention, which can be produced with the aid of a plastic extrusion process, is shown in FIGS. 3a and b. The extruded profile has raised 2 and lowered 3 areas through which the extruded profile, which is designed as a U-shaped profile, provides increased stability. The extruded profiles shown in both representations of FIGS . 3a and b also have openings 10 through which concrete can also penetrate into the interior of the extruded profile 1 . Due to the meandering wall structure, the spacer according to the invention can be deformed particularly well around its longitudinal axis.

The spacer has two opposite flanks 4 and 5 , over whose flank edges 6 and 7 the spacer rests.

In Figs. 4a-c advantageous extruded profiles with differently designed flank edges in a side view representation are shown. In Fig. 4a-c are the raised sections 8 , on which the extruded profile rests on the ground from lowered sections 9 spaced apart. The spacer according to FIG. 4a is deformed and is suitable, for example, for resting on a barrel-shaped construction formwork.

The lowered areas 3 of the profile wall of the Strangpro fils according to the invention are dimensioned so large that the reinforcement mats can be inserted in them so that they can be clamped between two raised areas with the spacer. In this way, the reinforcements are largely secured against slipping with the spacers, so that the reinforcements do not slip even during the filling process.

Reference list

1

Extruded profile

2nd

raised area

3rd

lowered area

4th

,

5

opposite flanks of the extruded profile

6

,

7

Flank edges

8th

raised section

9

lowered section

10th

breakthrough

11

Construction formwork

12th

Reinforcement

Claims (14)

1. Spacers for reinforcements or reinforcements in construction formwork for spacing the reinforcements or reinforcements from the formwork to be filled with a filling compound, in particular concrete, which is designed as an extruded profile ( 1 ) made of plastic and has a semi-open profile cross-section, characterized that the extruded profile ( 1 ) has a longitudinal section which, in an alternating sequence, provides periodically repeating raised ( 2 ) and lowered ( 3 ) areas. 2. Spacer according to claim 1, characterized in that the longitudinal section is wavy or meandering has such a shape. 3. Spacer according to claim 1 or 2, characterized in that the extruded profile ( 1 ) can be produced by means of a plastic extrusion process. 4. Spacer according to one of claims 1 to 3, characterized in that the extruded profile ( 1 ) is a U-profile. 5. Spacer according to one of claims 1 to 4, characterized in that the extruded profile ( 1 ) has two opposing flanks ( 4 , 5 ), the flank edges ( 6 , 7 ) of which each have a periodically recurring contour of raised ( 8 ) and lowered ( 9 ) sections. 6. Spacer according to claim 5, characterized in that the contour of the flank edges ( 6 , 7 ) is wavy or meandering. 7. Spacer according to claim 5, characterized in that the extruded profile ( 1 ) with the raised portions ( 8 ) rest on the formwork. 8. Spacer according to one of claims 1 to 7, characterized in that the extruded profile ( 1 ) has openings ( 10 ) which can be penetrated by the filling compound. 9. Spacer according to one of claims 1 to 8, characterized in that the extruded profile ( 1 ) bent along its longitudinal direction, extends in the manner of an S-shape. 10. Spacer according to one of claims 1 to 9, characterized in that the lowered areas ( 3 ) are dimensioned such that the reinforcements or reinforcements are at least partially fixable or clampable in these areas. 11. A method for producing a spacer according to one of claims 1 to 10, characterized by the combination of the following method steps:

• a thin-walled, tubular strand is obtained by means of a plastic extrusion process and downstream blow molding process,
• Forming the tubular strand into an extruded profile with a periodically repeating wall structure with raised and lowered areas,
• - Divide the extruded profile into two half-shell profiles.

12. The method according to claim 11, characterized in that a caterpillar mold is used for forming becomes. 13. The method according to claim 11 or 12, characterized in that the formation of an S-shaped shape still before dividing the extruded profile into two half-shell profiles. 14. The method according to any one of claims 11 to 13, characterized in that breakthroughs through which the filling material passes, be punched into the extruded profile.