DE102010050682A1 - Device for conditioning open-pore asphalt for road surface on specimen in water treatment plant, has holder unit and manipulator connected over guidance system that comprises guide surfaces aligned parallel to working plane - Google Patents

Abstract

The device has a manipulator (3) associated to a holder unit (1), and a working plane (4) formed between the manipulator and the holder unit. The holder unit and the manipulator are connected over a guidance system (5), where the guidance system comprises guide surfaces (6-8) aligned parallel to the working plane. The manipulator comprises a nozzle strip (14) attached to a salt water supply (13). A heat radiator e.g. infrared radiator, aligned to the working plane is associated to the holder unit, and an UV radiator (21) is aligned to the working plane.

Description

The invention relates to a device for conditioning a material suitable for a road surface, in particular an open-pored asphalt, with a holding device for receiving at least one test specimen from the material to be conditioned.

Known devices serve the time-consuming simulation of long-term aging occurring on road surfaces. The simulation is carried out on test and test rigs, where the specimens can be exposed to elevated pressures and temperatures or mechanical stresses. The previously known devices are not suitable for simulating the long-term aging of road surfaces on specimens in a sufficient manner.

The invention is therefore based on the object to show a device of the type mentioned, with which the simulation of the long-term aging of road surfaces is significantly improved on a specimen.

This object is achieved by a device with the features of claim 1. Advantageous developments of the invention are specified in the subclaims.

The device according to the invention is characterized in that at least one manipulator is associated with the holding device, that at least one working plane is formed between the manipulator and the holding device, and that the holding device and the manipulator are connected to one another via a guide system which is aligned at least parallel to the working plane Having guide surfaces. The manipulator serves to condition or treat the specimen at the working level. On the other hand, this serves, in particular, to receive a surface of the specimen to be conditioned, and in the context of this invention can also be referred to as a working plane or a working plane. The guide system allows the execution of relative movements between a recorded in the holding device specimen and the manipulator for the purpose of a comprehensive conditioning of the specimen within the given by this working plane. For a simulation of the long-term aging of road surfaces that is as natural as possible, it is of course within the scope of the invention to assign a plurality of manipulators to the holding device, in which case guide surfaces assigned to the manipulators are spaced from one another such that the manipulators can pass each other without collision. The spaced arrangement of the guide surfaces associated with the individual manipulators advantageously permits a parallel or at least timely successive execution of various conditioning processes, so that the simulation of the long-term aging of road surfaces on a test specimen is significantly improved.

According to a first development of the invention, the holding device has at least one base plate with a bearing surface aligned parallel to the working plane. Thus, the holding device is particularly suitable for receiving Marshall specimens, cores or other plate-shaped or disk-shaped specimens.

The base plate preferably has at least one perforation with which the water permeability of a substructure used under road pavements is simulated. Of course, it is within the scope of the invention to form the base plate of a water-permeable sintered material, mesh material or other equivalent materials.

According to a next development of the invention, the holding device has at least two clamping plates assigned to its base plate. These serve to secure the specimen on the base plate in a predetermined position. The jaws are designed so that forces acting on the specimen by conditioning operations can not cause a change in position of the specimen on the base plate of the holding device. The clamping forces to be applied by the clamping jaws are produced for example by means of threaded or spring structures.

According to another embodiment of the invention, at least one transverse to the working plane and transverse to the guide surfaces aligned working plane is formed with the manipulator. To form the working plane, the manipulator has an elongated shape. The manipulator preferably has a length spanning at least the contact surface of the holding device, so that guide surfaces oriented parallel to the working plane can be dispensed with.

For a particularly lifelike simulation of the long-term aging of road surfaces on a specimen is proposed that the manipulator has at least one connected to a salt water supply nozzle bar. This serves to simulate the tire profiles on the tire Road surface caused air pumping effect under precipitation and Strequeezeinwirkung.

In addition, it is provided that the manipulator has at least one connected to a fresh water supply nozzle bar. This serves to simulate the air pumping effect caused by tire treads on the road surface under pure precipitation. For this purpose, the nozzle bar is pivotally held on the manipulator and is pressurized with a pressure of about 100 bar, preferably from about 140 bar with water pressure from the fresh water supply.

According to a next development of the invention, the holding device and the holding device associated manipulator are arranged in a spray and drip water container. The spray and drip tank acts as a reservoir for salt or fresh water sprayed against a test piece of the road surface. The spray and drip water container preferably has a connection opening, via which the salt collected as process water and / or fresh water is fed to a water treatment plant. This is used, for example, desalination of the collected service water and the deposition of the solid particles excluded from the sample. In order to keep the operating costs for the device according to the invention as small as possible, it is provided to connect the water treatment device to the salt water supply and the fresh water supply. In this way, the salt or fresh water needed for a first conditioning of a specimen can be reused in subsequent conditioning operations.

According to a particularly advantageous development of the invention, the manipulator has at least one nozzle strip connected to an ozone supply. The ozone serves to speed up the simulated long-term aging of road surfaces. In particular, the ozone accelerates the oxidation processes involved in aging processes.

In order to ensure optimum utilization of the energetically only expensive to produce ozone and on the other hand to prevent uncontrolled leakage of harmful ozone into the atmosphere, the spray and drip tank on at least one hermetically sealing closure part. The opening associated with the closure part on the injection and drip water container serves in particular for equipping the holding device with specimens to be conditioned.

For a particularly lifelike simulation of the long-term aging of road surfaces on a specimen is further proposed that the holding device is assigned at least one aligned to the working plane UV radiator. The ultraviolet radiation emanating from the UV emitter serves to imitate the damage caused by the solar radiation damage of road surfaces. Preferably, the UV emitter is designed as a UVA emitter whose long-wave ultraviolet radiation on road surfaces, especially on open-pored asphaltene, initiate photochemical reaction processes that lead to superficial embrittlement, fading and cracking. Of course, it is within the scope of the invention to use also UVB radiation and UVC radiation generating UV emitters.

In order to further improve the lifelike simulation of the long-term aging of road surfaces, the holding device is assigned at least one heat radiator aligned with the working plane. The heat radiator is used to simulate the surface heating caused by solar radiation on the road surface. Due to the thermoplastic behavior of bituminous road surfaces, temperature fluctuations have a significant influence on the elastic modulus and shear modulus. The heat radiator is preferably designed as an infrared ray-generating IR radiator.

For a time-consuming simulation of temperature fluctuations is provided according to a next development of the invention that the holding device is assigned at least one arranged on the working plane heating and cooling device. Using a refrigerant, the heating and cooling device is used in particular to simulate the cooling processes caused by the weathering effects on road surfaces. Using a heating means or a Peltier element, the heating and cooling device is used in particular to simulate the heating processes caused by the weathering effects on road surfaces.

An embodiment of the invention, from which further inventive features arise, is shown in the drawing.

The figure shows a schematic and partially sectioned side view of an apparatus according to the invention for conditioning an open-pored asphalt suitable for a road surface. The device has a holding device 1 for receiving a test specimen 2 from the asphalt to be conditioned. The holding device 1 is a manipulator 3 assigned, being between the manipulator 3 and the holding device 1 a work plane 4 is trained. The manipulator 3 and the holding device 1 are about a leadership system 5 connected to each other, which is parallel to the working plane 4 aligned guide surfaces 6 . 7 . 8th having. The holding device 1 has a base plate 9 with one parallel to the work plane 4 aligned bearing surface 10 on. The base plate 9 has a perforation of a plurality of boreholes 11 on. With the manipulator 3 is one across the work plane 4 as well as across the guide surfaces 6 . 7 . 8th aligned working plane 12 educated. The manipulator 3 has one to a saltwater supply 13 connected nozzle bar 14 on. In addition, the manipulator points 3 one to a fresh water supply 15 connected nozzle bar 16 on. The holding device 1 and the holding device 1 associated manipulator 3 are in a spray and drip tank 17 arranged. Furthermore, the manipulator points 3 one to an ozone supply 18 connected nozzle bar 19 on. The spray and drip tank 17 is upper side with a closure part 20 hermetically sealed. Furthermore, the holding device 1 to the working level 4 aligned UV emitters 21 and one on the walls of the spray and drip tank 17 arranged heating and cooling device 22 assigned. The spray and drip tank 17 acts as a collection container for one on the specimen 2 running tap water 23 and has a connection opening 24 on which the collected service water 23 a water treatment plant 25 is supplied. This has a water pump 26 on, with which the hot water 23 out of the spray and drip tank, via a water treatment stage 27 pumped and electrically controlled shut-off valves 28 . 29 if necessary, the salt water supply 13 and the freshwater supply 15 can be fed. The salt water supply 13 has a shut-off valve 29 downstream salt mixer 30 on.

Claims (13)

Device for conditioning a material suitable for a road surface, in particular an open-pored asphalt, with a holding device for receiving at least one test specimen from the material to be conditioned, characterized in that the holding device ( 1 ) at least one manipulator ( 3 ) is assigned, that between the manipulator ( 3 ) and the holding device ( 1 ) at least one working level ( 4 ) is formed, and that the holding device ( 1 ) and the manipulator ( 3 ) via a guidance system ( 5 ) which are at least parallel to the working plane ( 4 ) aligned guide surfaces ( 6 . 7 . 8th ) having. Apparatus according to claim 1, characterized in that the holding device ( 1 ) at least one base plate ( 9 ) with a parallel to the working plane ( 4 ) aligned bearing surface ( 10 ) having. Apparatus according to claim 2, characterized in that the base plate ( 9 ) has at least one perforation. Apparatus according to claim 2 or 3, characterized in that the holding device ( 1 ) at least two of its base plate ( 9 ) has associated jaws. Device according to one of claims 1 to 4, characterized in that with the manipulator ( 3 ) at least one transverse to the working plane ( 4 ) and transversely to the guide surfaces ( 6 . 7 . 8th ) aligned working plane ( 12 ) is trained. Device according to one of claims 1 to 5, characterized in that the manipulator ( 3 ) at least one to a saltwater supply ( 13 ) connected nozzle bar ( 14 ) having. Device according to one of claims 1 to 6, characterized in that the manipulator ( 3 ) at least one to a fresh water supply ( 15 ) connected nozzle bar ( 16 ) having. Device according to one of claims 1 to 7, characterized in that the holding device ( 1 ) as well as the holding device ( 1 ) associated manipulator ( 3 ) in a spray and drip water container ( 17 ) are arranged. Device according to one of claims 1 to 8, characterized in that the manipulator ( 3 ) at least one to an ozone supply ( 18 ) connected nozzle bar ( 19 ) having. Device according to one of claims 1 to 9, characterized in that the spray and drip water container ( 17 ) at least one hermetically sealing closure part ( 20 ) having. Device according to one of claims 1 to 10, characterized in that the holding device ( 1 ) at least one at the working level ( 4 ) aligned UV emitter ( 21 ) assigned. Device according to one of claims 1 to 11, characterized in that the holding device ( 1 ) at least one at the working level ( 4 ) is associated with aligned heat radiator. Device according to one of claims 1 to 12, characterized in that the holding device ( 1 ) at least one arranged at the working level heating and cooling device ( 22 ) assigned.

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