DE4329390A1 - Process and apparatus for producing a building material - Google Patents

Abstract

The invention relates to a process and an apparatus for producing a building material for road building, for lightweight building elements or the like. The known building materials, such as crushed stone, gravel, sand or the like, are not available everywhere, so that high transporting costs are incurred not only because of their weight but also because of the distance. The object of the invention is to be seen as that of developing a process by which it is possible to produce a building material which is capable of replacing the building materials mentioned and which can be produced with a significantly lower weight from plastics. This object is achieved by reusable materials, such as containers, films or the like, preferably of PP (polypropylene), PE (polyethylene), PS (polystyrene) or of similar materials, initially being comminuted and subsequently being heated until they plastify, the mixed viscous composition being cooled, followed by breaking up of the cooled-down composition. An apparatus suitable for carrying out the process is shown by the drawing. <IMAGE>

Description

The invention relates to a method and a front Direction for the production of a building material for the streets construction, for lightweight elements or the like.

Gravel and crushed stone are generally used for road construction uses materials whose extraction is not insignificant Costs incurred and beyond that due to their ge important and their occurrence also high transport costs bring.

A component has become known from DE-OS 40 32 281 the one, which essentially consists of concrete as a carrier material and there is at least one aggregate. As an aggregate comes and a. crushed plastic material for use where saved by weight. Because just shredded  Plastics with concrete or with cement only to a very limited extent such components are missing in strength, so its use is only in question there comes where there are no major loads. This conditional Possibility of use can also not satisfy because with this method only relatively small plastic quantities can be processed, although today the re use of plastics on the broadest possible basis is aimed at the pollutant-releasing burning and / or to avoid unwanted dumping.

In contrast, the present invention has the object based on specifying a method by which a construction can produce fabric that works in the same way for the streets construction and / or for the production of lightweight components or the like. suitable is.

This task is carried out with the measures of the characteristic Part of the main claim solved. That way gets one of a building material of uniform consistency, which is a little weight, not only made transportation cheaper, but can also be used broadly. As an advantage Added to this is the fact that this procedure is remarkable Ver quantities of PP, PE and PS or similar substances can be turned and not deposited and / or burned Need to become. It is understood that there are other procedures with which one complies with the plastics mentioned can meet today's demands, but has So far there has been a lack of knowledge, which according to the inventions Building material obtained according to the invention in particular to use for road construction. It was also unknown with the building material obtained according to the invention create that are lighter than the traditional elements and still have sufficient strength. By the Breaking the cooled and hardened by cooling  structures result from the mass, which are easily in the specified manner can be used without Disadvantages have to be accepted. The broken material whose grain size is different has the same properties shafts like gravel, so that the compacted break as Un road construction without any stress conditions, also in heavy goods traffic. Similar thing applies to components in which the according to the Invention break obtained in accordance with the method is used.

Since it is essential for breaking the cooled mass, that the mass has a certain brittleness is recommended it is to proceed according to the measure of claim 2. At processing of the plastics mentioned in the given temperature range, the plasticizers evaporate Ingredients and other pollutants, which once the Brittleness is secured and on the other hand a building material can be offered that is freed of harmful substances. It is understood that when the crushed Extracted gases from plastic materials and ent must be disposed of appropriately. It must therefore be determined len that neither the process nor the use of the new obtained building material is environmentally unfriendly.

To cool the viscous mass, it is recommended to to proceed claims 3 and 4. That the Sprö is encouraged goes without saying teren the cooling process is shortened, so that behaves after breaking can be started for a short period of time.

If one takes advantage of the teaching of claim 5, he you keep a kind of gravel and gravel substitute that like that mineral substances can be used.

When you look at particularly light yet solid components  strives, it is appropriate to proceed according to claim 6. It it is understood that the break apart from the respective bandage medium sand, grit and fine gravel are also added can be. It is also conceivable instead of petegrete or the like. to use normal cement. Definitely will a building material is produced or created who is able to solve the task without that significant disadvantages have to be accepted. It is also noteworthy that the new procedure is essential Lich contributes to the "mountain" of used plastic build and use the dismantled part advantageous.

To carry out the method according to the invention is a Device suitable, such as one from claim 7 results. The design of the device as a production line has the advantage that once there are no large areas are necessary for the accommodation and at the other time can be saved. Shredders, extruders and Crushers are known per se, but so far they have not been for the production of artificial stone and gravel substitutes substances used. Known for special purposes is also cheap because one is from the start high functionality is given and you with proportion moderately low costs.

For a quick cooling of the viscous mass and also for achieving brittleness it is beneficial if one applies the details of claim 8.

An economical design that is of interest to him here the purpose is specially prepared, follows from An saying 9. With such a device is on the whole Given sufficient length of the extruder, so that plastics melt even at higher temperatures at the upper end of the screw are so far kneadable that they are  Mix intimately with lower melting components. Due to the decreasing slope of the screw in the conveying direction tion results in an increased compression of the melted Plastic parts, so that a dense structure can be expected is for breaking the cooled mass and for The compressive strength of the manufactured product is remarkable seems. How the heating liquid is heated is variable, but it seems favorable if a circular and Circulation heating is used.

In order to avoid pressing or ver density of the viscous mass, it is of advantage if the Teachings of claims 10 and 11 can be used.

This means that pollutants that have become volatile are not released into the environment get air, it is appropriate to take the measure according to claim 12 to take.

It seems fine for the removal of the viscous mass stig if one proceeds according to claim 13. The moistening The conveyor belts cause the cooling mass not stuck to the conveyor belt when dumped So does not stick to the conveyor belt, of which it is only with would be a lot of effort to remove.

In the drawing, the method is based on a fiction modern device explained for example.

According to the drawing consisting of one sheet, the device 1 designed as a production line consists of a shredder 2 , an extruder 3 , conveying means 4 , 5 and a crusher 6 . The extruder 3 has a tube 7 which receives a screw conveyor 8 . The screw conveyor 8 decreases in its slope in the direction of ejection, as can be clearly seen at the break points.

The tube 7 is surrounded by a jacket 9 such that a hollow cylindrical space 10 is formed, which is closed at the top and bottom and contains a heating liquid, and which is also connected via connections 11 , 12 to a boiler, not shown.

The tube 7 opens into a mouthpiece 13 , the outlet cross section of which is tapered with respect to the cross section of the tube 7 , so that there is a compression of the viscous mass 14 , that is to say from the shredder 2 and in the tube 7 onto heated or melted plastic has an even structure.

Instead of the mouthpiece 13 , a cylinder 15 , which is capped at the front, can be attached to the tube 7 , which results from the secondary illustration of the extruder 3 . This covered cylinder 15 has a lower slot 16 which is rotated in the plane of the drawing. This slot 16 can be reduced with a slide 17 in its exit cross section, the slide can also be designed as a round slide and then the exit cross section 16 changes in width, as can be seen from the second illustration.

The mouthpiece 13 or the cylinder 15 is surrounded by a hood 18 which is connected to a suction via a nozzle 19 . The hood 18 is dimensioned so that the viscous liquid mass 14 seals the hood downwards and the suction can be fully effective. With 20 a knife-like edge is designated, which divides the viscous mass 14 , as can be seen in the drawing.

The viscous mass 14 falls on the transport means 4 formed as a conveyor belt, which brings the viscous mass 14 to the starting area of the stockpile 21 . Above the trans port 4 is a rain device 22 , which causes a faster cooling of the viscous mass 14 . In addition, the conveyor belt is thereby moistened, so that sticking of the mass 14 to the belt does not have to be feared. It goes without saying that the conveyor belt could also run ver horizontally. It is also understood that the heap 23 can be sprayed with a hose 24 .

Since the accumulation of mass 14 is only possible to a limited extent, it is spread out on the stockpile 21 using known means to form a kind of ripped carpet 25 .

After cooling, the mass 14 is fed with the conveyor 5 , which is designed as a steep conveyor belt, the Bre cher 6 , in which the cooled and hard and brittle mass 14 is processed to a gravel and gravel substitute 26 . This replacement is then removed in any way. The drawing clearly shows that this is an uncomplicated and therefore safe functioning device 1 , which also moves within a financial framework. In any case, the costs involved are practically insignificant if one thinks what advantages can be achieved with the method and the device 1 shown.

Claims (13)

1. A process for producing a building material for road construction, for lightweight elements or the like., Characterized in that valuable materials such as containers, foils or the like. Preferably made of PP (polypropylene), PE (poly ethylene), PS (polystyrene) or are first crushed from similar substances and then heated to plasticization, whereupon the viscous mass which has been mixed together is cooled and finally the cooled mass is broken. 2. The method according to claim 1, characterized in that heating in a temperature range from 280 to 350 ° is carried out.   3. The method according to claims 1 and 2, characterized records that to cool the viscous mass last tere is dumped. 4. The method according to claims 1 to 3, characterized records that the viscous mass before the shipment dumped on the stockpile or on the stockpile with cold water is frightened. 5. The method according to claims 1 to 4, characterized records that the cooled mass is broken in the way is that from the grain a kind of gravel and gravel Replacement arises in the usual way for road construction and / or use for the production of components finds. 6. The method according to claims 1 to 5, characterized records that for the manufacture of components as a bandage medium Petegrete or similar binders used become. 7. Apparatus for carrying out the method according to claims 1 to 6, characterized in that the device ( 1 ) is designed as a production line which begins with a shredder ( 2 ), followed by a heatable extruder ( 3 ), to which a crusher ( 6 ) joins with the interposition of a storage area to be sent with conventional means of transport ( 4 , 5 ) (cf. FIG. 21 ). 8. The device according to claim 7, characterized in that above or on the transport path of the mass ( 14 ) to the heap ( 21 ) at least one rain device ( 22 , cf. also 24 ) is provided. 9. The device according to claim 7, characterized in that the extruder ( 3 ) consists essentially of an elongated, slightly rising tube ( 7 ) which receives a screw conveyor ( 8 ) which decreases in the direction of ejection in their slope and the tube ( 7 ) with a from the tube ( 7 ) radially spaced jacket ( 9 ) to give, which together with the tube ( 7 ) forms a hollow cylindrical, mutually closed space ( 10 ) which is a heatable liquid, for. B. contains thermal oil. 10. Device according to claims 7 to 9, characterized in that a cross-section-reducing mouthpiece ( 13 ) is attached to the tube ( 7 ) receiving the screw conveyor ( 8 ). 11. The device according to claims 7 to 9, characterized in that on the conveyor screw ( 8 ) receiving tube ( 7 ) a front-covered cylinder ( 15 ) is attached, which has a lower elongated outlet slot ( 16 ), which with a slide ( 17 ) can be changed in its outlet cross-section. 12. Device according to claims 7 to 11, characterized in that a suction ( 18 , 19 ) is provided in the outlet region of the extruder ( 3 ). 13. Device according to claims 7 to 12, characterized in that for transporting the viscous mass ( 14 ) emerging from the extruder ( 3 ) moistened conveyor belts ( 4 ) are used.