NO119112B - - Google Patents

Description

Procedure for the manufacture of reinforcing bars or similar spacers.

The invention relates to a manufacturing method for reinforced chairs

or spacer body.

In the past, such spacers have been produced as metal elements

of wire or sheet material that is suitably bent,

or they are made of plastic that is spray-stopped in shape.

There are also reinforced chairs produced by cut profiles.

The invention aims to provide a method by

by means of which such reinforcing bars or similar spacers

organ can be produced particularly simply and easily from a suitable starting material, so that production is cheap and can take place at great speed.

According to the invention, it is thus proposed that a rudder of suitable material is provided with perforations or recesses and is then cut across the longitudinal axis of the rudder with the cut lines extending over said recesses, thereby resulting in cut rudder pieces which preferably have open sections of said recesses at both ends.

For rebars, it will usually be preferable to design the recesses in the rudder wall as circular bores or punches, whose axis runs radially on the rudder and whose diameter is adapted to the rebar dimension for which the rebars are to be used, as the cutting takes place through the center of the circular recesses.

The cutting of the rudder to produce the rudder pieces that will form the reinforcing seats can possibly take place a short distance from the center of the circular recesses, whereby the rebar can be pressed into the recesses with a snap effect.

By producing one pair of opposite recesses with associated recesses towards one direction axially on the rudder, reinforcing bars can be produced which allow the insertion of reinforcing bars that cross each other at two different heights.

For a more detailed explanation of the invention, reference should be made to the drawing, where some exemplary embodiments are schematically shown. Fig. 1 shows a piece of a rudder provided with recesses or transverse bores or punches, and fig. la and lb show rudder pieces obtained by cutting off the rudder according to fig. 1 and which make up reinforcement chairs.

Fig. 2 shows a modified design of the openings in the rudder,

and fig. 1c shows a reinforcing chair produced by cutting off the rudder according to fig. 2. Fig. 3 shows how a reinforcement chair according to fig. lc is used to support rebars A and B that cross each other at different heights. Fig. 4 shows a reinforcing chair similar to those in fig. la and lb showed, but where the section line for cutting off the rudder 1 is shifted

know something from the center of the circular withdrawals. A reinforcing

chair according to fig. 4 will thus be able to be attached to the rebar by snap action.

The starting material for the manufacture of the reinforcing bars or spacers according to the invention can advantageously be plastic

tube. The drilling or punching of the recesses as well as the cutting to form the spacers can optionally be carried out automatically

ice in immediate connection with the extrusion of the rudder 1.

Optionally, the extractions can take place at a later time by appropriate means known in and of themselves such as drilling, milling,

stopping or the like.

As the holes or recesses in the rudder run perpendicular to each other, significant parts of the rudder wall will be intact, and the reinforcing bars or spacer blocks will therefore gain great strength,

even if they are given a small height by the fact that the axes of intersecting boreholes

run relatively close to each other. When punching oval holes, the blocks can be made slightly lower for the same distance, and material is saved. When punching double holes or holes where the cut line runs outside the centre, the reinforcement can be attached to the spacer blocks by snap action, as mentioned above. This is necessary e.g. by wall reinforcement.

In fig. 1 and 2 show reinforcing bars or spacers in front of

set by circular/cylindrical rudders 1. These are in fig. 1 provided with bores or punches 2, 3, whose axes are at 90° to each other but are appropriately offset in the longitudinal direction of the rudder. The rudder is then cut along the lines X - X, which results in reinforcing bars as shown in perspective in fig. let and lb.

If the rudder is instead cut along the line Y - Y, a reinforcing steel

is of the type shown in fig. 4, where the opening 2" encloses more than half the circumference of the rebar and is thus effectively attached to its surface by snap action and plastic

the inherent elasticity of the material.

By modification according to fig. 2 and lc it is in connection with

the withdrawals 3' a further withdrawal 5. This is thus to-

provided that a rebar B can be pressed down through the recess 5 and into the holes 3', after which a crossing rebar A can be supported in the recesses 2.

It will be understood that the invention is not limited to those on the

nings showed examples of implementation, as the reinforcing bars or spacers can also be made from rudders that are square or have a different cross-sectional profile. Likewise, rudders with longitudinal

walking stiffeners or embedded reinforcements may be appropriate

suitable for heavy loads and to save material.

With this method, you can use a normal standard plastic tube

produce suitably designed reinforcing bars or spacers

body using simple punching tools. There is thus no need to manufacture expensive molding tools, which are necessary in traditional

in the manufacture of spacers made of plastic. Since no formal

effect is necessary, the different sizes can be produced

es very economical, even in the smallest number, only by choosing the right adapted rudder dimension and the right sockets. At mass-

production, the manufacturing costs will be very low, while the production speed will be very high. Spacers of this type are very stable and can withstand heavy loads. Concrete-

one flows easily around and into the spacers during stopping,

so that massive concrete surrounds the rebars and prevents in-

need for moisture.

Claims (4)

1. Procedure for the manufacture of reinforcing bars or similar spacers, characterized in that a rudder of suitable material is provided with perforations or cutouts and then cut across the longitudinal axis of the rudder with the cut lines extending over said cutouts, resulting in cut-off rudder pieces which preferably have open sections of said cutouts at both ends. 2. Method as specified in claim 1, characterized in that the recesses are provided as circular bores or punches whose axis runs radially on the rudder and whose diameter is adapted to the rebar dimension for which the rebars are to be used, as the cutting takes place through the center of the circular recesses. 3. Modification of the method as stated in claims 1-2, characterized in that the cutting is carried out so that the cut line extends a short distance from the center of the circular recesses. 4. Method as specified in some of the preceding claims, characterized in that one pair (3') of opposite recesses (2', 3') has an associated recess (5) which, for the finished reinforcing chair, allows the insertion of a rebar ( B) in said one pair (3') of withdrawals.