DE3347370C1 - Device for heating shredded asphalt - Google Patents

Description

The invention relates to a device according to the Preamble of claim 1.

In a known device for mixing granulated asphalt (US-PS 41 36 964), which is also used for Mixing granulated old asphalt is suitable, the asphalt is placed on an inclined conveyor, which has perforated drive plates. The inclined conveyor leads through a chamber that is above the Conveyor has several burners, the flames of which heat the asphalt during mixing will. The heat from the burner flames is distributed in all directions, with the result that it is bad Energy utilization. Furthermore, those asphalt particles that come in the vicinity of a burner flame get, heated much more than the other particles. There is a risk that the asphalt with the comes into contact with open flames and the bitumen contained in it burns.

Thermal pretreatment is particularly useful when processing old asphalt from old road surfaces pending renovation or expansion are recovered and together with unused bitumen and / or mixed with minerals to form an asphalt compound used for new road surfaces and the like will.

The invention is based on the object, the device the type mentioned in the preamble of claim 1 to improve that a the old asphalt is heated evenly and gently.

The solution to this problem is in the patent claim 1 achieved.

According to the invention, a substantial part of the heat is applied by thermal radiation. Through this, that the free-flowing old asphalt is constantly being gently circulated and kept in motion by the screw conveyor

ίο is prevented that parts or individual grains be exposed to excessive local heat radiation. The heat is distributed evenly and Gently over the free-flowing, granular material that is transported by the screw conveyor and constantly re-mixed will. During the passage of the pre-shredded old asphalt through the conveyor line increases the temperature is continuous, but the material remains free-flowing until it leaves the screw conveyor, so that the screw conveyor does not clog and the process of constant circulation until it leaves the Conveyor line is maintained.

Infrared emitters have the advantage of high efficiency. A high proportion of the infrared heaters The energy supplied is directed specifically towards the old asphalt, whereby the constant circulation ensures that it is even Temperature distribution in the asphalt granulate is achieved and local overheating is avoided will. For this reason, the interaction of the infrared heater with a screw conveyor, the agitator and carries out funding processes at the same time, with particularly favorable results.

According to a preferred embodiment of the invention, the infrared radiators are in one above the screw conveyor extending, downwardly arranged to the housing essentially open channel. The case is provided with a thermal insulation layer in order to keep heat losses low. Through the infrared heater the asphalt material is primarily heated and this in turn heats the surrounding material Air. A considerable amount of heat is fed into the old asphalt through thermal radiation and only a relatively small proportion due to convection. This contributes to gentle and even heating relatively low energy consumption.

According to a preferred embodiment of the invention, air passage openings are between the infrared radiators arranged and the duct is connected to a warm air outlet. The one with the old asphalt in Contacting and warming air is released through the air passage openings and the warm air outlet discharged. The energy contained in this way can be fed back into the system in other ways will. The removal of warm air prevents the system from increasing to a temperature that is too high heated, in which the old asphalt is thermally damaged, segregates and in the important components vaporize and / or burn. In addition, gas components that escape from the asphalt mass are discharged. The hot air outlet is preferably arranged above the outlet end of the screw conveyor, because the highest air temperature is set there.

The housing can be equipped with a second heating device made of tubes in which a heat transfer medium flows, be heated. These tubes cause the housing walls to be heated, which in turn increases the heat transfer the old asphalt. This relatively sluggish second heating system can be used as basic heating or pre-heating to be used. Since the asphalt particles are only

temporarily come into contact with the housing and, on the other hand, the temperature of the housing is lower is than the intended final temperature that the asphalt should have when it leaves the housing no harmful thermal effects are caused by the second heating device.

The device according to the invention is preferably operated in that the old asphalt is in the conveying channel the screw conveyor is entered in the free-flowing state in an amount that it clears the conveyor channel only fills in the lower area of the duct cross-section. Because the conveyor channel is only partially filled with Asphalt is achieved that the infrared radiation reaches a large area of the asphalt material. aside from that ensures that the individual asphalt particles are constantly rearranged.

In the following, an embodiment of the invention is explained in more detail with reference to the drawings explained. It shows

F i g. 1 a schematic representation of a plant for processing old asphalt and

F i g. 2 shows a longitudinal section of the device for heating the old asphalt, shown here using the example a stationary system.

According to FIG. 1, the old asphalt is fed into a feeding device 11 by conveyor vehicles 10, from which a conveyor 12 leads to a shredding device 13. In the shredding device 13 the old asphalt crushed into a granular good. Another leads from the shredding device 13 Conveyor 14 to a weighing and metering device 15 located above the inlet of the heating device 16 is arranged. In the heating device 16, the old asphalt is heated to a temperature of approximately 150.degree and then fed to a mixing device 18 via a further weighing and metering device 17. In the mixing device 18 are also 19 fresh bitumen mass and from different bunkers Additions to a further weighing and metering device 20 in predetermined proportions. In the mixing device 18, which is designed, for example, as a mixing and conveying screw or as an agitator can be, all added materials are mixed together in order to be as homogeneous as possible To achieve final dimensions.

The heating device 16 shown in FIG. 2, has an elongated housing 21 in which two screw conveyors 22, of which in FIG. 2 only one is visible, are arranged parallel to one another. Every Conveyor screw 22 runs in an approximately half-cylindrical conveyor channel 23 and is on the feed side Motor 24 attached to the housing 21 is driven. The screw conveyors rotate in opposite directions and theirs Screw threads run in opposite directions, so that they convey in the same direction.

About the screw conveyor 22, the housing 21 has a longitudinal channel 25 in which numerous Infrared radiators 26 are arranged one behind the other in the longitudinal direction at mutual distances. The infrared emitters 26 can be fed with electricity, gas or heating oil, for example. Preferably gas-powered infrared heaters will be used. The infrared emitters 26 are directed downwards Radiant surfaces, so that the heat radiation emitted by them is reflected in the conveying channels 23 located asphalt mass is directed. The weighing and dosing device 15 controls the conveyor 14 so that this fills the pre-crushed asphalt only in such an amount in the conveying channels 23 that the Feed channels are only partially filled. As a result, compaction of the pourable old asphalt in the threads of the screw conveyor 22 avoided, and the asphalt material remains until it leaves the conveyor channels 23 loose and free-flowing. The temperature is controlled or regulated in such a way that the conveying channels 23 at the end of the conveying section through the outlet 27 leaving the asphalt has a temperature of about 150 ° C.

The air in the housing 21, which is heated, rises together with the escaped gases through the air passage openings 28 between the infrared radiators 26 and is discharged through the channel 25. At the discharge end of the channel 25 there is a warm air outlet 29 to which a suction fan is connected can be to extract the warm air. Some of the warm air leaving the housing can be fed back into the housing via return channels (not shown). It is also possible that discharged warm air, which may contain other gases, to cool in a heat exchanger and the To supply heat to the housing 21 again in another way.

The housing 21 is surrounded by a tubular jacket. that of thermal oil or another heating medium is flowed through. The pipe jacket, which rests against the thermally conductive inner wall of the housing, is just like the entire housing 21, surrounded by a heat-insulating jacket 31.

Each infrared radiator 26 is provided with a guide plate 30 at its end facing the warm air outlet 29 provided that the warm air rising through the air passage opening 28 in the direction of the warm air outlet 29 heads.

In the above embodiment, the processing device is stationary for the asphalt. The device can also be designed to be mobile, and with corresponding Wheels are provided. Furthermore, semi-mobile devices are possible that on another Can be used on site.

The device does not only have to be fed with old asphalt for processing, but it can additionally with the addition of unused supplementary building materials such as minerals, binders, additives or the like. be used.

For this purpose 2 sheets of drawings

- blank page -

Claims (6)

Patent claims: 1. Device for heating crushed old asphalt, with at least one in a housing rotating mixing device and at least one heating device provided on the housing, characterized in that the mixing device consists of a screw conveyor (22) and the heating device comprising a plurality of infrared radiators (26) projecting onto that of the auger recirculated asphalt material are directed. 2. Apparatus according to claim 1, characterized in that the infrared radiator (26) in one over the conveyor screw running downwards to the housing (21) essentially open channel (25) are arranged. 3. Apparatus according to claim 2, characterized in that between the infrared radiators (26) Air passage openings (28) are arranged and that the channel (25) with a warm air outlet (29) connected is. 4. Apparatus according to claim 3, characterized in that the warm air outlet (29) on the out-Iaßseiten The end of the screw conveyor (22) is arranged. 5. Device according to one of claims 1 to 4, characterized in that the housing (21) with a second heating device made of tubes, in which a heat transfer medium flows, is heated. 6. A method for operating a device according to any one of claims 1 to 5, characterized in that that the old asphalt in the conveying channel (23) of the screw conveyor (22) in the free-flowing state in a Quantity is entered so that it only fills the conveying channel in the lower area of the channel cross-section.