法国专利FR3051202A1 DEVICE FOR THE IN SITU RECYCLING OF MATERIALS OF A CIRCULATION PAVEMENT AND SPECIALLY ADAPTED CRUSHE

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专利摘要:
The invention relates to a device (1) for the in situ recycling of materials constituting a roadway, said roadway (6) comprising aggregates agglomerated in a bituminous composition, said device comprising a carrying structure adapted to circulate on said roadway along the latter in a direction of travel and carrying, from upstream to downstream along the direction of travel, a transverse fabricator (2) intended to break up the roadway over a given height and width and producing mills (7), a kneader for blending the blends with a binder composition (9) and a distribution subassembly (4) of the mixed blends (8) with the binder composition across the width of the milled pavement. According to the invention, the device further comprises between the milling machine and the kneader a crusher (3) blades (31) for crushing the costs. In one embodiment, the crusher and the kneader are in one and the same organ.
公开号:FR3051202A1
申请号:FR1654159
申请日:2016-05-10
公开日:2017-11-17
发明作者:Bouchaib Safir；Claude Cazal；Roch' Thierry Le
申请人:Colas SA；
IPC主号:

专利说明:

Technical field to which the invention relates
The present invention relates generally to the field of maintenance of traffic lanes comprising roadways of vehicles. It relates more particularly to a device for the in situ recycling of materials constituting a roadway and a specially adapted crusher.
Technological background
Roads subject to the constraints of traffic and the environment, including climatic variations, eventually degrade and it is necessary to renew them. In general, these roads comprise materials of aggregates and bitumen type. It is particularly interesting to be able to reuse these materials for the repair of the roadway. Thus it has been proposed in suitable machines, to reuse these materials after removing the road by mixing them in mixing chambers with an added bituminous binder and then re-spreading them on the road from where they were torn off. In this regard, for example, the following documents may be mentioned: US4453856A, US4011023, DE112008001749T5 or WO96 / 26319. However, the pulling of pavement materials, including milling, does not control the size of the particles torn from the roadway. We have therefore proposed ways to better control this size for example in the documents US4637753A and US3843274A W091 / 02846. However, the proposed solutions are complex to implement and use in particular because of the use of closed rooms that are difficult to access.
Object of the invention
In order to overcome the aforementioned drawback of the state of the art, the present invention proposes the use of a crusher whose chamber is open downwards and the pavement and implementing simple crushing tools consisting of blades. of simple shape driven in rotation. It allows the realization of a pavement treatment machine that can carry out all the operations from the milling of the pavement until the spread on the milled pavement of the retired materials and including a crushing and possibly the addition of binder by a ramp integrated in the crushing device and a possible mixing materials directly in the crushing device.
More particularly, there is provided according to the invention a device for the in situ recycling of materials constituting a roadway, said roadway comprising aggregates agglomerated in a bituminous composition, said device comprising a carrying structure adapted to circulate on said road surface. along the latter in a direction of travel and carrying, from upstream to downstream along the direction of travel, a transverse milling machine intended to break up the roadway over a given height and width and producing mills, a kneader for blending the blends with a binder composition and a blending distribution subassembly mixed with the binder composition across the width of the milled pavement.
According to the invention, the device further comprises between the milling machine and the kneader a blade crusher for crushing the costs. This device can also include in the crusher a pallet system for mixing crushed mills, after a binder addition. Other nonlimiting and advantageous features of the device according to the invention, taken individually or in any technically possible combination, are the following: the binder composition comprises bitumen, the binder composition comprises bituminous mixes, the composition binder comprises bitumen and bituminous mixes, - the blade crusher comprises at least two longitudinal rotors parallel to each other and arranged in a housing, the rotors being substantially parallel to the roadway, said housing being closed on its two longitudinal lateral sides and its upper face, said housing being open downwards, that is to say on the side of the roadway, and at its two upstream ends, side of the milling machine, and downstream, each of the rotors comprising a set of blades arranged radially around the rotor, each blade being a flat plate of predetermined thickness and in the form of a circular sector with a diameter of said rotor blade, the blades of each rotor sweeping during their simultaneous rotation a tubular sweeping space coaxial with the rotor, the tubular sweeping spaces of adjacent rotors interpenetrating in an interpenetration zone, the blades of the adjacent rotors being configured so as to create in the interpenetration zone between pairs of two adjacent parallel blades and the closest to each other of the two adjacent rotors, and coming face to face during their rotation, a gap of difference determined between said two adjacent parallel blades of the pair, the blades are arranged in planes perpendicular to the longitudinal axes of the rotors, all the blades of the rotors being in planes parallel to each other, the blades are divided into two groups according to their orientations, the blades of a first group being arranged in planes parallel to each other and the blades of a second group being arranged in planes parallel to each other, the planes of the first and second groups being not parallel to each other and not perpendicular to the longitudinal axes of the rotors, the planes of the first and second groups are inclined symmetrically with each other with respect to the longitudinal axes of the rotors the planes of the first and second groups are parallel to an axis perpendicular to the longitudinal axis of a rotor, preferably said axis perpendicular to the longitudinal axis of the rotor being vertical while considering that the longitudinal axes of the rotors are horizontal, the planes of the first and second groups are vertical considering that the longitudinal axes of the rotors are horizontal, each of the rotors comprises a set of blade units, each blade unit comprising a determined number of blades, the blades of a blade unit being disposed on a blade unit hub, said hub mounted on the rotor being rotated by said rotor, said hubs being separated from each other along the rotor by spacers each of determined length, - the rotors have a square section, the hubs have a central orifice of complementary square section and the hubs can slide along their respective rotors when they are no longer constrained by the spacers, at least part of the spacers being interchangeable between spacers of different lengths in order to be able to select the gap between said two adjacent parallel blades of the pair, - the hub further comprises means clamping on the rotor preventing its sliding along the rotor, said clamping means to be loosened to allow sliding of the hub along the rotor, - the spacers are omitted, the positioning of the hubs along the rotors being provided by their means clamping means, preferably the clamping means being indexed in positioning along the rotor, said rotor comprising both notches or bushings receiving the clamping means. the spacers are rings that can be opened in two parts, closing the two parts of the ring around the rotor being held by at least one nut and bolt passing through said two parts at the periphery of the ring without having to pass through the rotor, the spacers are rings that can be opened in two parts, the closure of the two parts of the ring around the rotor being maintained by at least one nut and bolt passing radially through said two parts and the rotor transversely, the casing comprises between upstream end and the downstream end of the crusher at least one orifice for introducing the binder composition, the part of the crusher downstream of the at least one introduction orifice ensuring a kneading of the crushed costs with the binder composition to form the kneader , the crusher and the kneader being in a single body, the crusher having in its downstream part a kneading function or crushing + ma laxing, - the part of the crusher downstream of the at least one introduction opening ensuring the mixing of the crushed costs with the binder composition ensures only a kneading function, for example in particular because the differences determined between said two blades parallel adjacent pairs are different between upstream and downstream, said determined difference being larger downstream, - the downstream part of the crusher ensuring the mixing of crushed costs with the binder composition comprises mixing paddles rotated by the rotors, the part of the crusher downstream from said at least one introduction orifice for mixing the crushed costs with the binder composition provides a double function of crushing and kneading, the gap between said two adjacent parallel blades of the pair is constant along the rotors between the upstream end and the downstream end of the crusher, - the gap between the the two adjacent parallel blades of the pair varies along the rotors between the upstream end and the downstream end of the crusher, the difference between said two adjacent parallel blades of the pair is different between the upstream crushing end and the crusher downstream end and crusher mixing, - the blade crusher comprises two rotors rotating in the same direction, - in a variant, the blade crusher comprises two rotors rotating in opposite directions, preferably the rotations of the blades. performing upwards in the interpenetration zone, the rotations take place downwards in the zone of interpenetration between the pairs of two adjacent blades, the determined thickness of the flat plates forming the blades is between 10 mm. and 50 mm and the lateral edges of the plates are flat and perpendicular to the general plane of the flat plate, - the determined difference between the two blades adjacent parallel of a pair is chosen between 5 mm and 30 mm, - the lateral edges of the plates are curved on their height, - the lateral edges of the plates are bevelled according to the thickness of the plate, - the lateral edges of the plates are equipped with teeth, - the free radial edge, in an arc of a circle, of the plates is flat according to the thickness of the plate and perpendicular to the general plane of the flat plate, - the free radial edge, in an arc of circle, of the plates is beveled according to the thickness of the plate, - the free radial edge in an arc of the plates is provided with teeth, - the upper part of the casing matches the shapes of the tubular scan spaces. The invention also proposes a crusher for traffic floor costs, said roadway comprising aggregates agglomerated in a bituminous composition and having been milled. The crusher is specially configured for the device of the invention and comprises blades and at least two longitudinal rotors parallel to each other and arranged in a housing, the rotors being substantially parallel to the roadway, said housing being closed on its two longitudinal lateral sides. and at its upper face, said housing being open downwards, that is to say on the side of the road, and at its two ends upstream and downstream, each of the rotors comprising a set of blades arranged radially around the rotor, each blade being a flat plate of predetermined thickness and in the shape of a circular sector pointed towards the rotor, the blades of each rotor sweeping during their simultaneous rotation a tubular sweeping space coaxial with the rotor, the tubular sweeping spaces of adjacent rotors interpenetrating in a zone of interpenetration, the blades of the adjacent rotors being configured so as to create in the interpenetration zone between pairs of two adjacent parallel blades and the closest to each other of the two adjacent rotors, and coming face to face during their rotation, a determined difference between said two adjacent parallel blades of the pair. The invention also relates to a self-propelled machine for the in-situ recycling of materials constituting a roadway, said roadway comprising aggregates agglomerated in a bituminous composition, said machine comprising in the direction of travel, upstream to the longitudinally downstream, a cross-machine for breaking up the roadway over a specified height and width and producing mills, a kneader for blending the blends with a binder composition and a blending distribution sub-assembly mixed with the binder composition on the width of the milled pavement, said machine further comprising between the milling machine and the kneader a blade crusher for crushing the charges between the blades.
The machine further comprises one or more of the described hardware means of the device.
Detailed Description of an Exemplary Embodiment The following description with reference to the accompanying drawings, given by way of nonlimiting example, will make it clear what the invention consists of and how it can be achieved.
In the accompanying drawings: FIG. 1 shows an example of a crusher seen frontally, at its front / upstream end, FIG. 2 shows the same crusher seen dorsally, at its rear / downstream end, FIG. 3 represents this same crusher. FIG. 4 represents a material recycling machine and crusher, and FIGS. 5 to 8 show another example of a crusher, this time having a mixing function downstream and a crushing function. before its worm gear housing, respectively in sectional view at binder injection nozzles, in rear / down view, in bottom view and in top view.
Device
The machine 1 for treating the material recycling pavement presented by way of example in FIG. 4 comprises rolling means on the ground, a roadway 6 in the present case, typically caterpillar means, a motor and means of transport. control, in particular of direction, of adjustment of the speed of advance and of the various organs composing it. It further comprises means for storing the materials 9, 9 'which it needs for its operation and, in addition to the fuel, for example for new aggregates or coatings and possibly for bitumen / emulsion 9. In FIG. only the supply of bitumen / emulsion 9 and water 9 'has been represented, the latter serving in particular for cooling the rotor of the milling machine 2. Some of these storage means may be of the buffer type, that is to say that they are reloaded regularly during the work of the machine without it being necessary to stop the machine.
Among the machine members, in a longitudinal direction, from the front / upstream in the direction of movement of the machine moving forward, a milling machine 2 producing mills 7 followed by a crusher 3 is found. followed by a kneader and then a worm spreader 4. The milling machine makes it possible to pull the materials of the roadway over a determined height and width of this roadway, this body being transverse, that is to say perpendicular to the main longitudinal (antero-posterior) extension of the machine. The milling machine 7 can be a milling machine or other type.
The crusher 3 located downstream of the mill is used to loosen and crush the mills and produces crushed and possibly kneaded mills 8 if the mixing function has been provided in the crusher. In the latter case, the crusher and the kneader are one and the same organ.
The crusher 3 disposed under the machine consists in this example of a casing 30 open downwards and thus the milled pavement. The housing is also open at both ends before / upstream and back / down to respectively receive the raw costs produced by the milling machine (input before / upstream) and deliver the crushed costs (output back / down) once they crushed. In fact, the mills received, crushed and delivered by the milling machine rest on the ground and the machine moves on this ground so that there is a relative displacement between the ground loaders and the crusher fixed under the machine. The crusher does not have an isolated crushing chamber above the ground, the mills remaining essentially on the ground. Preferably, the width (transverse measurement on the machine) of the crusher corresponding to the width of the inlet of the housing (front / upstream end) is substantially equal to the length (transverse measurement on the machine and corresponding to the milled pavement width ) of the milling machine so that all the produced costs are directly swallowed in the crusher. If the milling machine is longer than the width of the crusher, a passive chute or an active medium, eg. rotary brushes or other, disposed at ground level allows to recover all the costs on the milling width to guide them to the input before / upstream of the crusher.
The crusher casing internally comprises two parallel rotors 32 elongate in the longitudinal direction of the machine. The two rotors 32 are substantially parallel to the longitudinal extent of the roadway and they radially comprise 31 metal blades. The rotors are rotated by a motor member 33, typically hydraulic. The drive of the rotors uses in this example a chain whose links engrain on toothed pulleys of the rotors and the drive member. The housing, the rotors and the drive member are carried by a frame (symbolized / partially represented by the amount 34 in Figures 1 to 3) to be fixed under the machine. Bearings, in particular bearings, are implemented between the moving and stationary parts of the crusher. Each rotor comprises fixed on its periphery blades which have in this example identical shapes and dimensions. The shape shown is a circular segment, that is to say a circular sector, the tip / top of which is towards the rotor. This segment / sector has a peak / peak angle of between 90 ° and 10 ° and is about 80 ° in the Figures. Lespales thus end in an arc at their free end opposite their point / vertex fixed to the rotor. The rotation of the rotor drives the blades which thus sweep a tubular sweep space when viewed along the axis of rotation of the rotors. The two rotors and the blades are arranged in the casing so that the two tubular scanning spaces interpenetrate in an interpenetration zone where blades of the two rotors arranged in parallel planes between them can come two by two, in pairs 35, vis-à-vis at a short distance from one another, a spacing / clear space determined gap then being present between the two blades 35 concerned. It will be understood that, due to the rotation of the blades, this spacing of determined spacing will be temporary and evolutive for the surfaces coming from the respective vis-à-vis of the blades and will be repeated at different times and different locations for pairs of different blades, the two blades of a pair concerned being two rotors.
The value of this difference is one of the main parameters allowing to modify the granulometry of the crushed costs. For example, with a determined difference between the two blades vis-à-vis the pair of about 15 mm can be obtained crushed costs having a homogeneous particle size, continuous, with a dmax mastered between 10 and 14 mm. These values are indicative and can be modified as needed.
It is understood that due to the rotation of the two rotors, it is different pairs of parallel blades of the two rotors that come vis-à-vis short distance / gap at different times. The costs are crushed / crushed mainly by the impact of the lateral edges of the blades, and by the small gap between the pairs of blades that come opposite with a shearing effect when the two blades of the pair begin to come in vis-à-vis. Due to this shearing effect it is possible to create bevels and / or teeth on the lateral edges of the blades in the manner of shears or scissors, but unlike the latter, the blades of the pair remaining separated from each other by the indicated distance when they come face-to-face: there is no friction between the blades of the two rotors.
In an alternative embodiment, the free edge in a circular arc of each blade has a bevelled / tapered portion and possibly the upper / adjacent portion of / the side edges. Thanks to this, it is possible to lower the crusher as low as possible, until the blades are flush with the surface of the milled pavement, or even to slightly nibble it, without this creating too much resistance to the rotation of the crushers. rotors because it is a small surface (the end of the bevel) that hits the surface of the milled pavement. Thus, in the lowest possible position of the crusher, even without nibbling, if a hump present on the surface of the milled pavement is encountered, there will be less risk of blocking the rotation. Preferably, as security, in the crusher, an overload / lock detector can be implemented on the drive member or a friction clutch or break is installed on the transmission to the rotors. As additional security, especially against metal elements that may have been covered by the pavement materials, for example key heads, a metal detector can be provided in front of the machine or crusher. In addition, it is possible to provide a minimum spacing of the blades along each rotor, apart from what happens in the zone of interpenetration where it is necessary to have the determined deviation described for each pair of blades, this minimum spacing. corresponding to the average diameter of the metal elements of one can meet in a roadway so that these elements can preferably pass between the blades once torn off. Finally, it is possible to provide cutting elements, for example on the rotors or overhanging them and which are intended to cut son, for example a detection loop on the road, which would become entangled on the rotors.
The blades can be arranged on the rotors in various ways as long as the crushing occurs, in particular thanks to the shearing effect of the two blades of the pair of the two rotors which come opposite each other in the zone of interpenetration. . This is preferably achieved with blades which are flat metal plates and which are parallel to each other for those participating pairs coming in opposite short distance determined between them in the interpenetration zone. In a simple manner, this result can be obtained with blades which are all in parallel planes and perpendicular to the rotors which, it is recalled, are parallel to each other. Considering that the machine is horizontal on a horizontal road, the rotors are horizontal and longitudinally elongated and the blades are in vertical transverse planes. Another solution corresponds to the case where the blades are divided from the point of view of their orientations into two groups. Within each group the blades are in planes parallel to each other. Each rotor has blades of the two groups and the pairs of blades coming in opposite and with the described gap belong to the same group, in a pair one of the blades being on one of the rotors and the other blade on the other rotor. The planes carrying the blades are no longer perpendicular to the axes of the rotors but inclined with respect to this axis. Preferably, the inclinations are symmetrical between the two groups. Note that in the example shown in the figures, the blades are all in vertical planes considering the horizontal rotors. It is understood that other provisions of the flat plates forming the blades are possible to obtain the same result crushing costs with creation of a determined difference between pairs of blades coming vis-à-vis in the interpenetration zone.
It is recalled that the machine advances during the treatment of the roadway and, therefore, the mills that are on the ground and that are crushed by the crusher do not need to be actively pushed back / downstream . However, it can be provided that a particular orientation of the blades, orientation not perpendicular to the rotors, can further ensure some active transport back / down crushed milling then possibly kneaded if mixing is provided in addition.
The casing of the crusher is open downwards and thus to the roadway as well as to the front / upstream and the back / the downstream for the passage of the mills in input and then exit of the crusher. On the other hand, the housing encloses the rotors and their blades laterally and on the top. On the top, the casing matches the shape of the two tubular scan spaces. This housing avoids the projections of aggregates and milling and participates in the crushing of milling and possibly mixing if it is planned.
So that the machine can carry out the complete treatment of the roadway, a kneader is also implemented within the machine. This kneader makes it possible to knead mills that have undergone crushing with a bituminous binder and / or a certain proportion of aggregates or even "new" mixes in order to regenerate certain properties of the pavement. This kneader can be independent of the crusher but, alternatively, it can be integrated into the crusher. For this purpose and as represented in FIGS. 5 to 8, the rear / downstream part of the crusher comprises at least one orifice for introducing these additional products. Preferably, the structuring of the blades is modified in this rear / downstream portion of the crusher, for example with a shape and / or a different orientation of the blades and / or a spacing / gap greater gap between the blades of the pairs coming in vis-à-vis the orientation and / or the gap in front / upstream or crushing must be predominant. In particular, as shown in FIG. 7, pallets 38 are installed in the rear / downstream portion of the crusher in order to allow efficient mixing of the crushed mills and on which a binder has been spread by a set of nozzles 39. In this way it is possible to check in this back / down part of the crusher the presence of a kneading effect in addition to a crushing effect and the importance of the crushing effect compared to the kneading or, then, obtain a kneading effect alone, that is to say without crushing effect.
An additional member can be seen in FIG. 7 at the front of the crusher 3 and outside its casing 30. This additional member is a means of active drive of the costs produced by the milling machine which is located even further in front of the crusher. 3, active drive towards the inside of the casing 30 of the crusher 3. This active drive means consists of two worms mounted on two previous extensions of the rotors 32, at the front of the casing 30. This training means active can be omitted or made removable so that it is installed only for treated pavements for which the costs might have difficulties to pass into the crusher sump despite the fact that the machine that processes the roadway is moving forward. In particular, this active drive means is particularly useful if a binder is already introduced upstream of the crushing, at the mill.
The speed of rotation of the crusher blades must be relatively high, and in any case higher than that conventionally encountered in kneading means. Typically, the speed of rotation of the rotors may be between 120 and 220 rpm and is preferably about 160 rpm.
It is then understood that it is possible to provide a different structure of the crusher in its rear / downstream mixing part with respect to its front part of pure crushing. As we have seen, this different structure may concern the shape of the blades or especially their gap when they are facing each other and close in the interpenetration zone or even predict that there is more or almost no interpenetration zone in this back / down part. At the rear of the machine, a subassembly of distribution 4 blended costs 8 by the kneader additional products 9 can spread over the width of the milled pavement. This distribution subassembly is typically of the type of transverse worm. In addition, a set-up and precompacting table 5 may be included in the distribution subassembly. In an implementation mode, this distribution subassembly is connected to the machine on site, this distribution subassembly being disassembled for transport between sites. In a variant, the distribution subassembly is an integral part of the machine. As an example of the possible dimensions of a crusher according to the invention, the width of the crusher (transverse measurement on the crankcase) can be about 1.16 m with a spacing of the two rotors of about 0.43 m and the length of the crusher (longitudinal measurement between its inlet upstream / front and its outlet downstream / rear) of about 1.5 m and the height of the crusher (maximum vertical measurement on the crankcase) can be about 0.5 m .
We have just presented a machine incorporating the crusher and the mixer. However, the invention can be implemented with a machine which performs a simple milling and is attached at the rear a towed equipment comprising the crusher and possibly the kneader and, preferably, the subset of distribution and possibly the table setting up and precompacting. Equivalently, the equipment towed by the simple milling machine is only the crusher and, on the other hand, the mixer and other downstream equipment is another stand-alone machine with a table for setting up and pre- compaction that flows autonomously from the single milling machine that is upstream. In another equivalent manner, the equipment towed by the simple milling machine is only the crusher with its integrated mixer and, on the other hand, the other downstream equipment is another stand-alone machine with a set-up table and pre-compacting which flows autonomously from the single milling machine which is upstream. It is understood that many other equivalent arrangements are possible to implement the crusher of the invention and its eventual integrated mixer.
Process
The method of the invention follows from the description made so far with the implementation of a machine with which one practices a milling of the roadway then a crushing of the costs then a mixing of the crushed costs with additional products then one distributed materials obtained on the roadway, crushing and mixing taking place in the same body of the machine. These additional products are typically an asphalt binder and / or aggregates or even asphalt.

权利要求:
Claims (10)
[1" id="c-fr-0001]
1. Device (1) for the in situ recycling of materials constituting a traffic pavement, said pavement (6) comprising aggregates agglomerated in a bituminous composition, said device comprising a load-bearing structure adapted to circulate on said pavement along the latter in a direction of advancement and carrying, from upstream to downstream along the direction of travel, a transverse fabricator (2) intended to break up the roadway over a given height and width and producing mills (7). ), a kneader for mixing the blends with a binder composition (9) and a distribution subassembly (4) mixed blends (8) with the binder composition over the width of the milled pavement, characterized in that further comprises between the milling machine and the kneader a crusher (3) with blades (31) for crushing the charges.
[2" id="c-fr-0002]
2. Device according to claim 1, characterized in that the crusher (3) with blades (31) comprises at least two rotors (32) parallel to each other and arranged in a housing (30), the rotors (32) being substantially parallel to the roadway (6), said housing (30) being closed on its two longitudinal lateral sides and at its upper face, said housing being open downwards, that is to say on the side of the roadway, and its two upstream ends, next to the milling machine, and downstream, each of the rotors (32) comprising a set of blades (31) arranged radially around the rotor (32), each blade (31) being a flat plate of determined thickness and in the form of a circular sector pointed towards the rotor, the blades of each rotor sweeping during their simultaneous rotation a tubular sweeping space coaxial with the rotor, the tubular sweeping spaces of adjacent rotors interpenetrating in an interpenetration zone, the blades adjacent rotors being configured so as to create in the zone of interpenetration between pairs of two adjacent parallel blades and the closest to each other of the two adjacent rotors, and coming face to face during their rotation, a gap of determined difference between said two adjacent parallel blades of the pair.
[3" id="c-fr-0003]
3. Device according to claim 2, characterized in that the blades (31) are arranged in planes perpendicular to the longitudinal axes of the rotors (32), all the blades of the rotors being in planes parallel to each other.
[4" id="c-fr-0004]
4. Device according to claim 2, characterized in that the blades (31) are divided into two groups according to their orientations, the blades of a first group being arranged in planes parallel to each other and the blades of a second group being disposed in planes parallel to each other, the planes of the first and second groups not being parallel to each other and not perpendicular to the longitudinal axes of the rotors (32).
[5" id="c-fr-0005]
5. Device according to any one of claims 2 to 4, characterized in that each of the rotors (32) comprises a set of blade units (31), each blade unit having a predetermined number of blades (31), the blades (31) of a blade unit being disposed on a blade unit hub, said hub mounted on the rotor being rotated by said rotor, said hubs being separated from each other along the rotor by spacers each of determined length.
[6" id="c-fr-0006]
6. Device according to claim 5, characterized in that the rotors (32) have a square section, the hubs have a central orifice of complementary square section and that the hubs can slide along their respective rotors when they do not. are more constrained by the spacers, at least a portion of the spacers being interchangeable between spacers of different lengths in order to select the gap between said two adjacent parallel blades of the pair.
[7" id="c-fr-0007]
7. Device according to any one of claims 2 to 6, characterized in that the housing (30) comprises between the upstream end and the downstream end of the crusher at least one opening of the binder composition (9) , the part of the crusher downstream of the at least one introduction orifice ensuring kneading of the costs with the binder composition (9) to form the kneader, the crusher and the kneader being in one and the same organ.
[8" id="c-fr-0008]
8. Device according to any one of claims 2 to 7, characterized in that the crusher (3) with blades (31) comprises two rotors (32) rotating in opposite directions, preferably the rotations of the blades being effected towards the top in the interpenetration zone, and in that the determined thickness of the flat plates forming the blades is between 10 mm and 50 mm and the lateral edges of the plates are flat and perpendicular to the general plane of the flat plate, and in that the determined difference between the two parallel adjacent blades of a pair is chosen between 5 mm and 30 mm.
[9" id="c-fr-0009]
9. Device according to any one of claims 2 to 8, characterized in that the upper part of the housing (30) matches the shapes of the tubular scan spaces.
[10" id="c-fr-0010]
10. Crusher (3) for charges (7) of roadway (6) of traffic, said roadway comprising aggregates agglomerated in a bituminous composition, characterized in that it is specially configured for the device (1) of any one of the preceding claims and comprises blades (31) and at least two longitudinal rotors (32) parallel to each other and arranged in a housing (30), the rotors (32) being substantially parallel to the roadway, said housing (30) being closed on its two longitudinal lateral sides and on its upper face, said housing (30) being open downwards, that is to say on the side of the roadway (6), and at its two ends upstream and downstream, each of rotors (32) comprising a set of blades (31) arranged radially around the rotor, each blade being a plane plate of predetermined thickness and in the form of a circular sector pointed towards the rotor, the blades of each rotor sweeping in their rotat simultaneous ion a tubular sweep space coaxial with the rotor, the tubular sweeping spaces of adjacent rotors interpenetrating in an interpenetration zone, the blades of the adjacent rotors being configured to create in the interpenetration zone between pairs of two adjacent parallel blades and the closest to each other of the two adjacent rotors, and coming face to face during their rotation, a determined difference between said two adjacent parallel blades of the pair.

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EP1816262A1|2007-08-08|Apparatus for filling and /or treating artificial grass

CA2746697C|2018-01-23|Small mill having a rotor inclined relative to the axis of the feed chute

EP0274947A2|1988-07-20|Method and apparatus for depositing on a surface a reinforced floor composed of particulate matter and a binder

FR3025971A1|2016-03-25|MILLING AND / OR PICKING MACHINE

FR2939702A1|2010-06-18|PROCESS AND DEVICE FOR PROCESSING PRODUCTS FOR ROTATING

EP2669013B1|2018-11-14|Improvement to plant mills

EP1072370B1|2002-10-02|Method and apparatus for treating material comprising in majority wet clay, in particular excavated earth of embankments

EP1175942A1|2002-01-30|Mobile shredder for shredding refuse spread on the ground

EP0474523A1|1992-03-11|Process for the in situ hot regeneration of a porous road layer

FR2677051A1|1992-12-04|Method and machine for snow clearance of a traffic lane

FR2949086A1|2011-02-18|DEVICE FOR SHEARING PRODUCTS FOR GROWING AND COMBINED INSTALLATION COMPRISING SUCH A DEVICE

DE10111305A1|2002-06-13|Apparatus for processing mineral materials comprises feed device having opening for feeding material, parallel rotating shafts connected with drive device, and wedge elements for producing chamfering effect

CA3061659A1|2020-05-14|Worm screw rotor system, snowblower that includes such a system, kit for assembling it, and related manufacturing, assembly and operating methods

WO2021213794A1|2021-10-28|Refiner, installation and method for treating composite products

FR2780237A1|1999-12-31|Stone comminuting method for road metaling

同族专利:

公开号 | 公开日

FR3051202B1|2019-03-22|

EP3455411A1|2019-03-20|

EP3455411B1|2020-08-05|

US20190145065A1|2019-05-16|

US10619314B2|2020-04-14|

WO2017194873A1|2017-11-16|

DK3455411T3|2020-10-19|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

EP0158560A1|1984-03-30|1985-10-16|ENTREPRISE RAZEL FRERES, Société anonyme dite:|Method for renovating roadways|

EP0324491A1|1988-01-15|1989-07-19|WIRTGEN MACCHINE S.r.l.|Method and machine for renewing a road surface of bituminous mix, with cold application of the recycled covering material|

WO1990010752A1|1989-03-16|1990-09-20|Bp Australia Limited|Road surface recycler|

WO2010017283A2|2008-08-05|2010-02-11|Alm Holding Co.|Process for cold-in-place recycling using foamed asphalt and lubrication additive|

US3596577A|1968-12-02|1971-08-03|Donald A Chennells|Apparatus for soil stabilization|

US3843274A|1972-09-25|1974-10-22|Caterpillar Tractor Co|Asphalt reclaimer|

US4011023A|1975-12-15|1977-03-08|Cutler Repaving, Inc.|Asphalt pavement recycling apparatus|

US4072735A|1976-06-03|1978-02-07|Eastman Kodak Company|Hot melt pressure sensitive adhesives|

DE2850344C2|1978-11-20|1987-12-23|Reinhard 5461 Windhagen De Wirtgen|

US4272212A|1979-06-15|1981-06-09|Andrew J. Bauer, Jr.|Method and apparatus for rejuvenating and recycling asphalt|

US4453856A|1981-06-05|1984-06-12|Autostrade-Concessioni E Costruzioni Autostrade S.P.A.|Self-propelled operating apparatus for the regeneration pavement|

US4708294A|1981-09-21|1987-11-24|Endom Edward F|Method and apparatus for conditioning the floor of a poultry rearing area|

FR2566020B1|1984-05-10|1987-06-12|Razel Freres Sa|AUTONOMOUS MOBILE CRUSHING STATION|

US4637753A|1984-11-19|1987-01-20|Cmi Corporation|Road planar having particle reducing means|

US4946307A|1989-08-15|1990-08-07|Astec Industries, Inc.|Asphalt pavement recycling apparatus|

WO1996026319A1|1995-02-24|1996-08-29|Gfb Gesellschaft Für Bauwerksabdichtungen Mbh|Process for repairing the top layer of roads and a device for carrying out the said process|

US7004675B2|2003-03-06|2006-02-28|Carolina P&P, Llc|Pavement recycling machine and method of recycling pavement|

US7108450B2|2003-10-17|2006-09-19|Semmaterials, L.P.|Portable drag box with automated shearing device|

CN101392495B|2008-09-28|2010-06-23|长沙中联重工科技发展股份有限公司|Asphalt pavement on-site heat recoveryremixer|CN109569407B|2019-01-02|2021-08-06|安徽得赢新材料科技有限公司|Old and useless lithium cell agitating unit|

FR3109535A1|2020-04-22|2021-10-29|Soprema|Heated mixer for composite product|

CN112138814B|2020-09-19|2021-11-05|威海金海市政工程有限公司|Synthesis preparation process of modified asphalt modifier|

法律状态:
2017-03-02| PLFP| Fee payment|Year of fee payment: 2 |

2017-11-17| EXTE| Extension to a french territory|Extension state: PF |

2017-11-17| PLSC| Search report ready|Effective date: 20171117 |

2018-03-07| PLFP| Fee payment|Year of fee payment: 3 |

2020-03-03| PLFP| Fee payment|Year of fee payment: 5 |

2021-03-02| PLFP| Fee payment|Year of fee payment: 6 |

优先权:

申请号 | 申请日 | 专利标题

FR1654159A|FR3051202B1|2016-05-10|2016-05-10|DEVICE FOR THE IN SITU RECYCLING OF MATERIALS OF A CIRCULATION PAVEMENT AND SPECIALLY ADAPTED CRUSHER|

FR1654159|2016-05-10|FR1654159A| FR3051202B1|2016-05-10|2016-05-10|DEVICE FOR THE IN SITU RECYCLING OF MATERIALS OF A CIRCULATION PAVEMENT AND SPECIALLY ADAPTED CRUSHER|

EP17727285.3A| EP3455411B1|2016-05-10|2017-05-09|Apparatus for in-place recycling of materials forming part of a roadway pavement|

PCT/FR2017/051106| WO2017194873A1|2016-05-10|2017-05-09|Apparatus for in-place recycling of materials forming part of a roadway pavement, and crusher for milling debris from a roadway pavement|

US16/300,252| US10619314B2|2016-05-10|2017-05-09|Apparatus for in-place recycling of materials forming part of a roadway pavement, and crusher for milling debris from a roadway pavement|

DK17727285.3T| DK3455411T3|2016-05-10|2017-05-09|Apparatus for on-site recycling of materials from a road surface|

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