MOBILE PLANING MACHINE AND PLANING METHOD FOR ROADWAYS WITH REDUCTION IN DUST BY A MOBILE PLANING MACHINE

Abstract

Disclosed is a method for planing roadways by a mobile planing machine producing planings and dust, in which a rotary planing-milling tool is employed, arranged in a housing of the planing machine, the tool receiving water for cooling thereof. The method has reduced dust, in particular asbestos fibre dust, an additive being added to the water in order to form an aqueous composition for agglomerating the dust with the planings produced in order to form aggregates, the rotation of the tool causing a mixing of the planings, the dust and the water with additive, the aqueous composition being selected alone or in a chemically compatible combination with: a bitumen emulsion, a bitumen foam, an aqueous solution including mineral and/or organic fillers. The application also relates to a mobile planing machine.

Claims

1-15. (canceled)

16. A method of pavement planing by a mobile planer producing millings and dusts, in which a rotary planing-milling tool housed in a casing of the planer is implemented, the tool receiving water to allow the cooling down thereof, wherein, to perform an abatement of the dusts, it is further introduced into the casing at least one additive with the water forming or to form therein an aqueous composition intended to agglomerate the dusts with the millings produced to form bonded aggregates.

17. The method according to claim 16, wherein the water and the additive(s) are introduced into the casing in such a manner that the rotation of the tool causes a mixing of the millings, the dust and the aqueous composition.

18. The method according to claim 17, wherein the dusts contain asbestos fibers and/or silica.

19. The method according to claim 17, wherein the aqueous composition is chosen alone or in a physically/chemically compatible combination among: a bitumen emulsion, a bitumen foam, an aqueous solution with mineral and/or organic fillers.

20. The method according to claim 19, wherein at least two of the aqueous compositions chosen among: a bitumen emulsion, a bitumen foam, an aqueous solution with mineral and/or organic fillers are introduced into the casing, at different places of the casing for each one.

21. The method according to claim 20, wherein aqueous solution with mineral and/or organic fillers is introduced at the planing-milling tool and on the planer casing in order to cool them down.

22. The method according to claim 19, wherein the aqueous composition includes a bitumen emulsion, its temperature being of about 60° centigrade.

23. The method according to claim 19, wherein the aqueous composition includes a hot bitumen foam, its maximum temperature being of about 160° centigrade and its minimum temperature being of about 100° centigrade.

24. The method according to claim 19, wherein each additivated water forming the aqueous composition is stored in a tank of the planer, said aqueous composition being stored ready-made.

25. The method according to claim 19, wherein both water, as well as the additive(s), are stored separately in tanks of the planer, said additives being in concentrated form, the aqueous composition being made on demand in the planer.

26. The method according to claim 24, wherein the or at least one of the tanks of the planer is a buffer tank and wherein said buffer tank is connected by a supply line to an external transportation tank truck that follows or precedes the planer during its displacement.

27. The method according to claim 25, wherein the or at least one of the tanks of the planer is a buffer tank and wherein said buffer tank is connected by a supply line to an external transportation tank truck that follows or precedes the planer during its displacement.

28. The method according to claim 17, wherein a component is further implemented for the recovery and the evacuation out of the casing of the aggregates produced, said component including an inclined, endless conveyor belt conveying said aggregates from an upstream end, on the side of the planer casing, to a downstream end, on the side of a storing component into which said produced aggregates flow down.

29. The method according to claim 28, wherein a flow down chute for the aggregates is placed at the downstream exit of the conveyor belt component.

30. A mobile planer for pavement planing and including a rotary planing-milling tool arranged in a casing, the planing producing millings, and means for introducing cooling water on the tool, comprising dust abatement means, including means for introducing into the casing at least one additive with water forming, or to form therein, an aqueous composition intended to agglomerate the dusts with the millings, to form bonded aggregates.

31. The planer according to claim 30, wherein the aqueous composition is chosen alone or in a physically/chemically compatible composition among: a bitumen emulsion, a bitumen foam, an aqueous solution with mineral and/or organic fillers.

Description

[0051] The present invention will now be exemplified, without being limited thereby, by the following description, in relation with the following FIGURE:

[0052] FIG. 1, which shows a sectional schematic view of a planer according to the invention, in operation on a pavement.

[0053] In its principle, the invention consists in introducing water additivated with one or several types of dust stabilizing agents as a bitumen emulsion, a bitumen foam, an aqueous solution with mineral and/or organic fillers, into the casing of the planing-milling tool herein also called “mixing bell”. The bitumen foam and the bitumen emulsion are aqueous compositions within the framework of the invention because they include water. The tool is conventionally a planing drum. This additivated water may also be emitted at the external periphery of the planer and, in this case, it will preferably be the one in the form of an aqueous solution with mineral and/or organic fillers.

[0054] In particular, according to the quantities of coated material containing asbestos to be planed, the asbestos type and the quantity contained in the coated material, the planing speed of progression and/or the weather conditions, the method may use one, two or even three types of stabilizing agents. However, in case of physical/chemical incompatibility of these three types of stabilizing agents, it is provided that the respective introductions thereof are spatially separated from each other. For example, the aqueous solution with mineral and/or organic fillers may be introduced directly on the planing-milling tool, into the mixing bell.

[0055] The coated millings are hence re-agglomerated with a bitumen emulsion and/or a bitumen foam and/or an aqueous solution with mineral and/or organic fillers, allowing it to bond the asbestos and silica fibres to the materials and to eliminate the asbestos fibres free in the air or the free silica particles. Preferably, at least water additivated with bitumen, as a foam and/or as an emulsion, is implemented so obtain a still more efficient re-agglomeration. The so-processed aggregates are either evacuated on a conveyor belt or compacted at the rear of the recycling machine.

[0056] Dust abatement means may hence be implemented in different forms: essentially liquid, as an emulsion or as a foam, and that further allow the re-agglomeration of the millings and dusts, including fibres, into aggregates recoverable at the exit of the tool casing. The aggregates obtained are in the form of materials coated with the bitumen of the emulsion and/or of the foam and they hence recover a physical integrity similar to that they had in the pavement before the planing operation. Hence, during the later handling of these aggregates, in particular during the loading and unloading operations, the aggregates do no longer liberate asbestos or silica fibres/dusts.

[0057] Moreover, an atomization of the aqueous solution with mineral and/or organic fillers is implemented at the periphery of the planer fairing, out of the latter.

[0058] Due to the capture of the fibres and dusts and to the re-agglomeration thereof within the aggregates, it may be contemplated to lighten the protection devices for the workers working on such roadworks of removal of coated materials containing silica or asbestos, while respecting the legal obligations. It may also be contemplated to lighten the worksite marking and isolation arrangements thanks to the method of the invention. It may be contemplated to multiply by five the efficiency of the operations of removal of coated materials containing asbestos or silica with the method of the invention with respect to the conventional operations of removal of coated materials containing asbestos and/or silica.

[0059] An example of method and planer will now be described more precisely in relation with FIG. 1.

[0060] The schematized motorized planer 1 is provided with driving and guiding means, not shown, of the caterpillar type. It includes a casing 2 under which is transversally arranged a planing-milling tool 3 provided with teeth that tear off millings from the initial pavement 4, which generates dusts. These dusts are abated by introduction into the casing of aqueous compositions intended to agglomerate the dusts with the millings produced in order to form aggregates 5 that will thereafter be taken by a conveyor belt 10, to be recovered in a storing means 11 that is herein a transportation tank of a semi-trailer. Downstream from the planer, if considering the direction of displacement thereof schematized by an arrow in FIG. 1, the pavement is planed 4′.

[0061] In this example, a first aqueous composition is spread upstream from the tool 3 by a spraying ramp 6 and this is a bitumen emulsion or a bitumen foam. The bitumen emulsion or bitumen foam is stored ready-made in a tank, herein independent of the planer and that is an independent tank 8 that moves with the motorized planer. This solution with an independent tank 8 has for advantage that it is possible to implement a conventional motorized planer with a minimum of modification. In other variants, a specific planer may be made, with the tank 8 integrated thereto.

[0062] Still in this example, on the tool 3 itself, an aqueous solution with mineral and/or organic fillers is spread by a spraying ramp 7. Water is stored in a tank 9 of the planer 1 so and the aqueous solution with mineral and/or organic fillers is made before introduction into the casing 2 by mixing of the water with a concentrated additive that is stored in a specific tank 12 of the planer 1. In a variant that is not shown, the water and the concentrated additive are introduced separately into the casing on the tool 3 and mixed up into the casing due to the stirring produced by the tool 3.

[0063] It is understood that other aqueous compositions may further be introduced into the casing 2, either in replacement of one or of those of the example, or in addition. Likewise, the place(s) of spraying of the aqueous composition(s) may be different, for example downstream from the tool 3. Finally, the aqueous composition(s) may be introduced ready-made/realized or, then, with their various separated constituents that are mixed up in the casing due to the stirring produced by the tool.