DE102010061311A1 - Plastic component has main portion that is in shape of cubic, cylindrical, profiled or polygonal, and overload protection element provided with axles - Google Patents

Abstract

The component (1) has a main portion that is in the shape of cubic, cylindrical, profiled or polygonal. An overload protection element (2) is provided with axles. The overload protection element is either a cord, rope, net, textile sheet, chain, reinforcing steel, prestressing steel or spindle. An independent claim is included for method for manufacturing plastic component.

Description

The invention relates to components made of plastic recyclate with an overload protection in the event that a random or caused by overloading breakage of the component occurs, the overload protection to prevent falling apart of the fragments.

The production of bulky components made of plastic recyclate is known. Also known are the disadvantages of the methods used, especially the risk of the formation of bubbles and voids by gassing plastic recyclate.

It is known that bubbles and voids are mainly caused by the recyclate adhering moisture and various foreign residues. Moisture and residues are heated above the boiling point or the gassing temperature during the plasticization process in the extruder, so that an expansion of contained gas bubbles occurs on entry into the mold and the associated relaxation of the molding compound.

To avoid these disadvantages, is in DE 10 2010 060 817 A1 have been proposed to perform a pre-plasticization of the plastic recyclate, are already exceeded in the boiling point and gassing and in which after the pre-plasticization followed by a relaxation and / or cooling phase before the molding material is fed to the extruder. It can also be found in this process that the molding compound is not yet completely degassed and therefore a number of small-volume gas bubbles (pores) are formed in stochastic distribution in the core region of the molded parts.

The components produced in this way therefore run the risk of being subject to greater fluctuations in their strength characteristics than parts produced from pure starting materials by conventional methods.

It would be possible by correspondingly large dimensions of the parts to exclude risks of overloading. Ultimately, this would be uneconomical.

In order to reduce the risk of accidental breaks or to prevent overburden fractures that the fragments of the parts fall apart, no solutions are known.

The lack of appropriate solutions is particularly disadvantageous because parts that are produced by a Druckintrusionsverfahren made of plastic recyclate, could replace conventional components in many cases. In individual cases, however, this is precluded by construction and licensing requirements.

In particular, this concerns railway sleepers, whereby the conventional wooden and concrete sleepers can be replaced by those of plastic recyclate. This is currently not possible because of building regulations of the railway companies.

It is therefore an object of the invention to propose a component that complies with the provisions of railway companies by providing an overload protection. It is another object of the invention to provide elements and arrangements with which such overload protection can be performed in components of any use. Furthermore, it is an object of the invention to provide methods for producing components made of plastic recyclate with overload fuses.

This above object is achieved with a component made of plastic recyclate with the features of the characterizing part of the protection claim 1 in conjunction with the features of the preamble of this protection claim. Secondary and secondary protection claims describe embodiments of the inventive component made of plastic recyclate, but do not limit the scope of protection on this.

In the following description, the working examples and the claims, the terms used are used with the following meaning:
Recycled plastic - is a mixture of plastic residues, such as film residues, packaging residues, residues of technical plastic parts and the like, wherein the mixture may also contain impurities, components of so-called technical or construction plastic materials as well as residues of residues and the like. Components of the recycled plastic materials are above all LDPE, HDPE, PP, PS and optionally ABS.

Overload protection - is an element that serves to increase component strength, but at least ensures that, in the event of breakage, the fragments are held together for some time.

Component - is a geometric body, which is assigned an overload protection and which is formed from plastic recyclate by pressure intrusion.

According to the invention, a component made of plastic recyclate is formed in an intrusive form. In this case, an overload protection is introduced into the intrusion mold and completely enclosed by the inflowing molding material.

A further embodiment of the invention can provide that a tunnel or a constriction is formed in the molded part and the overload protection is connected to the molded part after the molding.

In the case of a tunnel, the overload protection may be a spindle which is screwed or caulked at the end.

If constrictions are provided in the profile of the component, strapping or clamping in a frame can be designed as an overload protection.

However, embodiments are usually preferred in which the overload protection element or a plurality of them are integrated during the intrusion process in the auszuformende component.

The overload protection can be arranged in the component symmetrical, asymmetrical, crossed or in spatial distribution. Depending on the type of component to be formed, an overload protection can be designed so that it secures the component in an axis or in several axes against overloads and fractures.

The overload protection element formed in the component may be a cord, a cord, a rope, a net, a fabric, a chain, reinforcing steel, prestressing steel or a spindle.

The elements described above may have a thickening, a knot, a loop, a toggle, a bend, a threaded end or an irregular course to achieve an increased positive engagement in the region of their ends or in their course. This ensures that, regardless of the type of possible destruction of the component, a cohesion of the fragments is ensured until replacement of the component.

The component equipped with the means described above and the embodiments described may be a railway sleeper, a carrier, a board, a hollow profile, a mast or a pile.

If the overload protection is arranged asymmetrically and at the same time it was formed under prestressing, the structural strength of the component can be increased beyond the material characteristics of the component.

The method for producing a component with an overload protection with the above-described properties and embodiments provides that in an initial step in an intrusive form an overload protection is inserted. The inserted overload protection is fixed at their ends, so that the incoming molding compound no unwanted changes in position of the overload protection. causes.

After inserting the overload protection, the intrusion mold is closed and connected to a filling device in a subsequent step.

Thereafter, the mold is filled via a Druckintrusionsverfahren and increased significantly when reaching the maximum degree of filling the pressure, so that the mold completely filled and bubbles and voids are largely avoided. In this state, the intrusive mold is subsequently closed and removed from the filling device.

Subsequently, a cooling cycle is carried out with the filled mold, wherein the component is removed in the partially or fully cooled state of the mold as required.

An embodiment of the method provides that after inserting and fixing the position of the overload protection an increased tension of the same is set.

The invention will be explained in more detail below with reference to some embodiments and drawings. Showing:

1 - A cuboid component with an internal overload protection.

2 - A cuboid component with a representation of the possible arrangements of one or more overload protection.

3 - A cuboid component with a preloaded overload protection.

A cuboid component 1 Made of recycled plastic contains an overload protection in its interior 2 that in the illustration in 1 designed as a rope.

The overload protection 2 is shorter than the total length of the cuboid component 1 so she has no contact to the outside. Possible openings in the cuboid component 1 were created by Fixierungsbauelemente can either remain open or can be closed by potting compounds.

The overload protection 2 can also be replaced by means other than a rope. In Considered in particular cords, knotted cords, nets, textile fabrics, which may also be twisted, chains, steel bars and the like. There is only the condition that the overload protection to be inserted 2 has a higher tensile strength than the plastic recyclate from which the cuboid component 1 consists.

An overload protection, like her 1 shows is inserted when closing the intrusive mold in this and conveniently fixed with fixing elements in a predetermined position. This ensures that the incoming molding compound, the overload protection 2 not moving.

At their ends 3 and 4 owns the in 1 illustrated overload protection 2 one node each 5 and 6 , These give the overload protection 2 opposite the cuboid component 1 Form-fitting.

It is possible to introduce a plurality of overload protection in a cuboid component. 2 shows by way of example how fixing points of overload fuses in an upper 7 , a middle one 8th and a lower level 9 as well as in a vertical direction in a left 10 , medium 11 and right level 12 can be split.

On the intrusion side of such a cuboid component 13 in the middle is usually the sprue 14 , which is why on this page a central attachment point 15 must be arranged offset laterally and / or in height.

Taking into account the fixing points described above, different courses of the overload protection can be realized. They can diagonal, V-shaped, X-shaped or in the center of the cuboid component 13 run. The particular type of arrangement of the overload protection ultimately depends on the application of the cuboid component and the requirements applicable to it.

In a cuboid component 16 can be a one-sided inserted overload protection 17 also be designed so that it is biased before pouring in the intrusive form. To maintain this preload on the finished component is on the overload protection 17 a lock 18 arranged, which is poured into the component.

The overload protection 17 may consist of the above-mentioned means, provided they allow an additional bias and this bias to increase the structural strength of the cuboid component 16 is usable.

It is also possible to introduce overload protection in components that are not parallelepipedic.

It is also possible to introduce overload protection in components that have a hollow shape. Here, the means to be used can be selected depending on the wall thickness of the mold and the technical requirements of the range of means described above.

If this is done simultaneously with bias, shape deviations, for example, deviations from the straightness, such components can be prevented by targeted generation of stress states or even compensated.

The invention thus has the advantage that it provides a way to provide molded plastic recyclate components by pressure intrusion with an integrated overload protection. It also has the advantage that it proposes methods with which such overload protection can be integrated into the components during the molding process.

LIST OF REFERENCE NUMBERS

1

Rectangular component

2

Overload protection

3

End of the overload protection [ 2 ]

4

End of the overload protection [ 2 ]

5

node

6

node

7

Upper level

8th

Middle level

9

Lower level

10

Left level

11

Middle level

12

Right level

13

Rectangular component

14

sprue

15

attachment point

16

Rectangular component

17

Overload protection

18

lock

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102010060817 A1 [0004]

Claims (10)

Component made of plastic recyclate, which is designed in a cubic, cylindrical, profiled or polygonal shape, characterized in that it has an acting in at least one of its axes overload protection. Component according to claim 1, characterized in that the overload protection is arranged in the interior of the component. Component according to one of claims 1 or 2, characterized in that the overload protection consists of several elements. Component according to one of claims 1 to 3, characterized in that the overload protection is arranged asymmetrically in the component. Component according to claim 4, characterized in that the overload protection is biased. Component according to one of claims 1 to 5, characterized in that it is a railway sleeper, a carrier, a plank, a hollow profile, a mast or a post. Component according to one of claims 1 to 6, characterized in that the element is a cord, a cord, a rope, a net, a textile fabric, a chain, reinforcing steel, prestressing steel or a spindle. Component according to one of claims 1 to 7, characterized in that the element in the region of its ends has a thickening, a knot, a loop, a gag, a bend or a thread. Method for producing a component with an overload protection according to one of claims 1 to 8, characterized in that in a first step in an intrusive form at least one overload protection consisting of at least one element is inserted, subsequently closed the intrusion mold and connected to a filling device, then the mold is filled via a pressure-intrusion process and closed when the maximum degree of filling is reached and removed from the filling device, subsequently undergoes a cooling cycle and is removed from the mold after cooling. A method according to claim 9, characterized in that the element is fixed in position in the intrusion mold at its ends and / or clamped.

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