DE3514420A1 - Cable cover profile - Google Patents

Abstract

The invention relates to a cable cover profile of polyolefins processed in an extruder, the material having a proportion of from 10 to over 60% by weight of mineral filler. The invention also relates to a process for producing this cable cover profile, the polyolefin, in the form of powder or grit, being mixed with the finely ground filler and subsequently the mixture being processed in a screw extruder.

Description

Cable cover profile

The invention is directed to a cable cover profile in the extruder processed polyolefins.

These cable cover profiles are used to cover cables, which are laid in trenches dug in the ground.

They get the desired properties through certain profiling. The selected materials are also decisive for this. According to the current status the technology are cable cover profiles made of PVC powder or PVC granulate in continuous Extrusion process or made from polyethylene granulate in an injection molding process. Considerable additions are made in the manufacture of cover profiles made of polyvinyl chloride on heavy metals, such as lead, cadmium and barium compounds, as processing aids necessary.

These form sulphides in the soil and thus pollute a not inconsiderable amount Wise the environment. In addition, these additives lead to undesirable discoloration of the Cable cover profiles.

On the other hand, the processing of polyethylene to such profiles not without problems, because the polyethylene processed in a continuous process are subject to very considerable shrinkage during extrusion. You wise about it in addition, a comparatively low specific weight, which is in the range of of the water. Since such outdoor work, such as laying cables, is often under the rigors of the weather are run and as a result in collects rainwater or groundwater in the cable ducts, the Profiles extruded from polyethylene are not reliable over the laid cable rather they tend to float upwards. This will make the laying work sometimes significantly impaired, and this increases the laying costs extraordinarily.

Polyolefins, such as polyethylene and polypropylene, are known as Powder difficult to process. As a result, this material initially becomes one Processed granules and then fed them to the extruder. This requires one additional work step, which in turn makes the process not inconsiderably more expensive.

It is therefore the aim of the invention to provide cable cover profiles with significantly to produce improved properties in a cheaper way, not only thereby to improve the quality of the cover profiles, but at the same time their production to effectively simplify and thereby the not inconsiderable manufacturing costs effectively mitigate. The invention solves this problem in such a way that the polyolefin material a proportion of 10 to more than 60 wt .-% mineral fillers are added. This can be chalk, clays, kaolin, quartz and the like, all of them are available inexpensively and can be mixed with the plastic without problems. Preferably For these profiles, polyethylene is used, which when added is appropriate Fillers assumes a significantly more favorable shrinkage behavior. It can be Process extremely well, and the tools required are comparative uncomplicated, which simplifies production and has a cost-effective effect. The invention Cable cover profiles have a high specific weight, which means that they Do not float if rainwater digs into the cables while laying the cables or collects groundwater. The modulus of elasticity that has a decisive influence on the stiffness such profiles are also as cheap as the high impact strength. The high thermal conductivity of the cable cover profiles according to the invention is of particular importance. As a result, the floor in the area of the profiles is much less than before dries up.

This in turn allows a higher load capacity of the laid cables. Cable cover profiles produced in this way do not emit any heavy metals in the ground from what is particularly desirable in terms of environmental protection, and beyond they do not discolor either.

According to the invention, not only the properties of such cable cover profiles favorably influenced, but the training according to the invention also has the same effect advantageous to the production of such cable cover profiles, which is why the invention also deals with a corresponding manufacturing process. According to the invention the polyolefin is mixed with the filler in powder or semolina form and then the mixture is processed in the multi-screw extruder. This initially eliminates the need for production of plastic granulate, which is used in the conventional manufacturing processes of Cable cover profiles made of polyolefins are used without exception. On the other hand In this way, proper mixing of polyolefin, in particular Create polyethylene, and filler. For processing generally takes place using a twin screw extruder. In general, there are 100 parts of plastic 10 to 150 parts of mineral filler.

In the drawing is a device for producing cable cover profiles reproduced according to the invention in the schematic diagram. In mixer 1, which is a screw mixer, a drum mixer or any other mixer is used from above or through an additional feed chute 2 the material to be mixed, namely the Plastic and the filler, abandoned. Both are inside the mixer 1 intimately mixed and then get into the feed hopper 3 of the Screw conveyor 4, which feeds the mixed material to the hopper 5 of a twin screw press 6. The finished shaped profile then emerges at the extrusion nozzle 7.

- blank page -

Claims (2)

Claims 1. Cable cover profile processed in the extruder Polyolefins, characterized in that the material has a proportion of 10 to has over 60 wt .-% mineral filler. 2. A method for producing a cable cover profile according to claim 1, characterized in that the polyolefin in powder to semolina form with the finely ground Cold mixed filler and then processed the mixture in the screw extruder will.