NO144334B - LIFEBOAT. - Google Patents

Description

Spacers for rebar.

The present invention relates to a spacer for rebar. Such spacers serve to keep the statically calculated reinforcement that is to be surrounded by concrete at the correct distance from the formwork and in the correct position relative to each other during the production of reinforced concrete.

Spacers of many kinds are known for this purpose. One type of these known spacers consists of a trestle in the form of a wire hoop which is designed so that two foot parts lie horizontally on the formwork and two hoop branches are interconnected with a mounting step for the rebar. Each rebar therefore needs several such braces and these spacers only ensure the rebar's distance from the formwork, but not the distance between the parallel rebars.

Another significant disadvantage of this and other metal spacers is that the foot parts of the cast-in spacers, which have been in direct contact with the formwork, will lie on the surface of the finished reinforced concrete and corrode within a short time, causing unsightly stains.

This latter disadvantage is avoided by another known spacer type which is disc-shaped and provided with a recess for placing the reinforcing bars. This type is made of concrete, burnt or glazed steatite or porcelain, i.e. materials that neither move nor boil or have other properties that may be harmful to the concrete. However, this known spacer type can also only hold the reinforcement

the desired distance from the formwork, but not at the same time ensuring the distance between the irons which lie parallel to each other in a vertical direction to the formwork.

As is known, the distances between the rebars and from the rebars to the formwork must be carefully observed, as the produced reinforced concrete strength depends on this. It must therefore be required of the used spacers that they secure the distances between the arranged rebars even if the reinforcement is stepped on. They must therefore under no circumstances be permanently deformed under load, because the distance between iron and formwork will otherwise change, and they must also not allow any change in the juxtaposition of the irons. Only a spacer that fully and even under the most unfavorable conditions secures the placement of the rebars also guarantees that the reinforced concrete will have a firmness that corresponds to the calculated values.

However, an ideal spacer must also fulfill other conditions. Above all, it should be as affordable as possible, as this is an item that is only used once and for a short time. It should also be designed so that it becomes practically invisible in the concrete and must thus have as small a contact surface as possible against the formwork, at the same time that this contact surface must not be of such a nature that it can be pressed into the usually soft wood in the formwork under the weight of the reinforcement or when someone walks on the reinforcement, as the distance of the irons to the formwork will otherwise be shortened or changed and the parts of the spacer that are pressed into the formwork would protrude from the finished reinforced concrete body.

An ideal spacer should also consist of a material that cannot corrode.

All of the above requirements are met by the spacer according to the invention, as this ensures a correct distance between the rebars and the formwork even if someone steps on the rebar and even in the places where the rebars gather, i.e. where a large specific load occurs, as the rebars' contact point on the spacer is always located above an attachment point for the spacer on the formwork and the spacer is solid between these two points. Furthermore, the spacer according to the invention ensures the correct lateral distance between the reinforcing bars, regardless of the diameter of the bars from center axis to center axis, as the bars lie in a conical recess and thereby center themselves and are secured against unwanted lateral displacement. A very reasonable continuous production is also achieved, as the spacer according to the invention is injection-molded in endless strips, which are cut into approx. 500 m lengths and rolled up on drums are taken to the construction site, where they can be cut to the required lengths without any slack. The contact surface of a spacer according to the invention will always form a straight line which in itself is almost invisible in the finished reinforced concrete body. Due to the zigzag shape of the installation, the tendency for some concrete, especially during vibration, to get under the installation edge is favoured, so that the spacer is completely hidden from the cast surface. Finally, it is ensured against any possibility of corrosion and thereby against the formation of stains on the reinforced concrete surface, as the spacer according to the invention consists of plastic.

More specifically, the invention thus relates to a spacer for rebar, which can simultaneously hold several parallel rebars at a certain distance from each other and from a starting plane (formwork), as it is designed as a strip, which on one side at regular intervals has recesses for recording of rebar and on the other side has elevations which are intended to rest against the starting plane (the formwork) and keep the rebars at the correct distance from this, the new and characteristic thing being that the narrow strip made of a non-metallic material is approximately zigzag-shaped and with a profile that is suitable for continuous<1> production, as it is provided with tags that each simultaneously on one side form a tapered recess for centering a rebar of any diameter and on the other side form a projection, which lies directly below the center of gravity axis of a rebar arranged in said recess, for t An approximate linear construction against the starting plane (the formwork), so that the mutual distances of the irons in the horizontal plane and the distance of the irons to the starting plane are maintained.

The spacer according to the invention will be described in more detail below

with reference to an exemplary embodiment

in the drawing, the only figure of which shows said embodiment in perspective.

A strip 1 of a non-metallic material, e.g. eternit, concrete, wood cement, a ceramic material or polyvinyl chloride, has on one side recesses 2, which are arranged at regular distances and designed so that they can accommodate reinforcing bars A or B with the most different diameters. On the opposite side of the recesses, the strip has elevations 3, by means of which an approximately point-shaped contact of the strip 1 against a formwork for the production of a reinforced concrete part is ensured, which contact will be practically invisible when the formwork is removed. In the embodiment shown, the strip is zigzag-shaped, whereby each tag simultaneously forms the recess 2 for a rebar and on the other side the projection 3 for abutment against the formwork. Between successive recesses and protrusions there is a secure 4 formed in the strip, with the help of which the strip can be easily broken off to the desired length.

Since rebar is usually laid in a plane that is approx. 15 mm above the formwork, the projections will preferably have this height. As the usual distances between parallel irons are further 5, 10, 15, 20, 25 and 30 cm, a distance of 5 cm will be favorable between two successive extractions 2. The thickness of the strip is preferably approx. 1 cm.

It is of course possible to choose such a zigzag shape for the strip

1 that it is optionally suitable for recording

of rebar and point-shaped construction against the formwork on both sides. Furthermore, means can be arranged on the strip for placing fastening wires to secure the placed rebars. Drilling can also be provided in the strip, with the help of which the spacers can be nailed to the formwork.

Claims (3)

1. Spacer for rebars, which can simultaneously hold several parallel rebars at a certain distance from each other and from a starting plane (formwork), as it is designed as a strip, which on one side at regular intervals has recesses for receiving rebars and on the other side has elevations which are intended to rest against the starting plane (the formwork) and keep the reinforcing bars at the correct distance from this, characterized by the fact that the narrow strip (1) made of a non-metallic material is approximately zigzag-shaped and with a profile which is suitable for continuous production, as it is provided with tags which each simultaneously on one side form a tapered recess (2) for centering a rebar of any diameter and on the other side form a projection (3), which lies directly below the center of gravity axis of a rebar (A, B) arranged in said recess (2), for approximately linear construction against the starting plane (the formwork), so that the mutual distances of the irons in the horizontal plane and the distance of the irons to the starting plane are maintained. 2. Spacer as stated in claim 1, characterized in that the cutouts (2) are tapered at a point and that the mutual distance between the tips of two cutouts located next to each other corresponds to the smallest of the usual distances between parallel irons (5 cm ). 3. Spacer as specified in claim 2, characterized in that the strip (1) is provided with incisions (4) between the recesses, so that the strip can be easily shortened by breaking off at the incision locations.