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    • 专利摘要:
    The invention relates to a rotary sorting machine (1) for sorting a waste mixture (2), said sorting machine (1) being characterized in that it comprises at least: a first trommel section (3), provided with a first partition wall (5) extending over a first length (L1) for separating the waste mixture (2) into a first waste fraction (13) passing through said first partition wall (5) and in a second residual fraction of waste (14), and - a second trommel section (4), provided with a second partition wall (6) extending on a second length (L2) smaller than the first length (L1). ), and for separating the second residual fraction of waste (14) into a sub-fraction of small waste (15) crossing said second partition wall (6) and a residual waste sub-fraction (16) residual. Sorting of waste.
    公开号:FR3021235A1
    申请号:FR1454709
    申请日:2014-05-23
    公开日:2015-11-27
    发明作者:Fabien Michel Alain Charreyre
    申请人:FINANCE DEV ENVIRONNEMENT CHARREYRE FIDEC;
    IPC主号:
    专利说明:

    [0001] The present invention relates to the field of sorting, and in particular to the automation of the sorting using a rotary machine, in particular for performing the sorting of a sorting machine. waste, with a view to their treatment, in particular their recycling or recovery.
    [0002] More specifically, the invention relates to a rotary sorting machine for sorting a waste mixture, the latter being of heterogeneous sizes, shapes and consistencies, the waste mixture comprising at least biodegradable waste and non-biodegradable recyclable waste. The invention also relates to a sorting process for sorting a waste mixture of heterogeneous sizes, shapes and consistencies, comprising at least biodegradable waste and non-biodegradable recyclable waste, a significant portion of the mass of the waste mixture being formed by biodegradable waste, for example at least 10% of the mass, and a non-negligible portion of the mass of the mixture being formed by non-biodegradable recyclable waste, for example at least 10% of the mass. To sort a mixture of messy objects, sticky, or having a strong tendency to seal, or a mixture of heavy objects of the type rubble, can be used a rotating trommel. Known rotary trommels are generally formed by a rotating screening chamber about its longitudinal axis, which is slightly inclined relative to the horizontal, the wall of the screening chamber being provided with calibrated through-separation orifices. Thanks to these orifices, the wall of the enclosure makes it possible to segregate the objects by size, making it possible to separate on the one hand pass-by objects, the size of which is smaller than the size of the separation orifices, and on the other hand rejected objects whose size is greater than the mesh size of the separation holes. Thus, when objects are introduced to be sorted inside the enclosure, for example at a first end thereof, a flow of objects is formed passing through the partition wall, and a flow of rejected objects, which are generally intended to exit via the second end of said enclosure. The objects to be sorted generally circulate in the enclosure under the effect of gravity, the first end being placed higher than the second end. While this type of rotary trommel is generally satisfactory for certain types of objects, it seems that it could be improved to allow better separation of objects, in particular for waste-type objects, including segregation by type (biodegradable waste non-biodegradable recyclable waste, non-recyclable waste) is often made difficult because of their great heterogeneity in size, shape, consistency, and density, as well as their generally tacky or greasy nature.
    [0003] The objects assigned to the present invention therefore aim to remedy the various disadvantages listed above and to propose a new sorting machine and a new sorting method for efficiently sorting a particularly heterogeneous waste mixture. Another object of the invention is to propose a new sorting machine and a new sorting process for sorting in household waste, resulting from economic or industrial activities in an efficient manner. Another object of the invention is to propose a new sorting machine and a new sorting process for ensuring good quality sorting. Another object of the invention is to propose a new sorting machine and a new sorting process particularly versatile and universal. Another object of the invention is to propose a new sorting machine and a new sorting process inexpensive and easy to implement. Another object of the invention is to propose a new sorting machine whose maintenance is particularly easy.
    [0004] Another object of the invention is to propose a new sorting machine and a new sorting method for which the risk of clogging is particularly low.
    [0005] The objects assigned to the invention are achieved by means of a rotary sorting machine for sorting a waste mixture, the latter being of heterogeneous sizes, shapes and consistencies, the waste mixture comprising at least biodegradable waste. and non-biodegradable recyclable waste, said sorting machine being characterized in that it comprises at least: a first trommel section, provided with a first partition wall extending over a first axial length and being provided with a first series of through-separation openings for separating the waste mixture into a first waste fraction passing through said first partition wall through the first series of separation ports and into a second residual fraction of waste, the waste mixture being intended to circulate along said first wall so as to be separated, and - a second trommel section, provided with a second partition wall extending over a second axial length less than the first length, said second partition wall being provided with a second series of through-separation openings for separating the second fraction residual waste into a sub-fraction of small waste passing through said second partition wall through said second set of separation orifices and into a residual large waste subfraction, the sub-waste fraction being formed by waste whose size is greater than the sub-fraction of small waste, the second residual waste fraction being intended to circulate along said second wall to be so separated. The objects of the invention are also achieved by means of a sorting process for sorting a waste mixture of heterogeneous sizes, shapes and consistencies, comprising at least biodegradable waste and non-biodegradable recyclable waste, a portion not negligible of the mass of the waste mixture being formed by biodegradable waste, for example at least 10% of the mass, and a non-negligible portion of the mass of the mixture being formed by non-biodegradable recyclable waste, for example at least 10 % of the mass, said sorting process being characterized in that, successively: the waste mixture is introduced into a first trommel section, provided with a first partition wall extending over a first axial length and being provided with a first series of through separation orifices, the waste mixture is separated into a first fraction of waste passing through said first first partition wall through the first set of separation orifices and into a second residual residual waste fraction, the waste mixture circulating along said first wall to be separated thereby, passing the second residual fraction of waste from the first trommel section to a second trommel section, provided with a second partition wall extending over a second axial length less than the first length, said second partition wall being provided with a second series of separating orifices, separating the second residual fraction of waste into a sub-fraction of small waste passing through said second partition wall through said second series of separation orifices and a sub-fraction of large waste residual, the sub-fraction of large waste being formed by waste whose size is known greater than the sub-fraction of small waste, the second residual fraction of waste being intended to circulate along said second wall to be so separated. Other features and advantages of the invention will appear and will appear in more detail on reading the description given below, with reference to the accompanying drawings, given solely by way of illustrative and non-limiting example, in which: FIG. 1 represents, in a schematic perspective view, a longitudinal section of the sorting machine according to the invention, leaving in particular the interior of a first and a second trommel section of said sorting machine, respectively comprising a first partition wall and a second partition wall. FIG. 2 represents, in a diagrammatic front view, a detail of the first partition wall of FIG. 1. FIG. 3 is a diagrammatic front view of a detail of the second wall of FIG. FIG. 4 illustrates a waste treatment process in which the sorting machine of FIGS. 1 to 3 can advantageously be used. The invention relates, as such, to a rotary sorting machine 1 for sorting a waste mixture 2. The purpose of this sorting machine 1 of the invention is to organize the waste of said waste mixture 2, by classifying and separating the wastes it contains into categories according to their nature or specific characteristics. The waste thus sorted by the sorting machine 1 may in this way advantageously be the subject of subsequent treatments, for example treatments that could not be performed when said waste is in the state of initial mixture of waste 2, such as recycling, composting, or conversion to solid recovery fuel. An exemplary non-exhaustive and non-limiting embodiment of a sorting machine 1 according to the invention is illustrated in FIG. 1. Such a sorting machine 1 is advantageously used in an industrial waste treatment process.
    [0006] The waste mixture 2 is preferably formed by household waste, but can also be formed by waste from economic or industrial activities, or both. This mixture of waste 2 is thus advantageously formed of waste generated by households, during consumption and the daily life of the latter. Preferably, the waste mixture 2 has not undergone any treatment and forms a mixture of raw waste 2. In particular, no pre-sorting was carried out to segregate one type of waste with respect to another, and in particular to separate biodegradable waste and non-biodegradable recyclable waste. Preferably, the waste mixture 2 has been collected, for example by means of garbage trucks, from households and / or economic activities without said households and / or said economic activities having carried out a sorting or preliminary selection of the waste. collected. In particular, the collection of the waste mixture 2 has not been selective.
    [0007] Of course, without departing from the scope of the invention, the mixture of waste 2 may instead have been stripped of a portion of the recyclable waste it contains, for example by households during a pre-sorting , or have been pre-sorted, for example by households. The wastes of the mixture of waste 2 are advantageously collected in a raw and undifferentiated manner, mixed in bags, of the kind plastic bin bags closed by households, the process comprising a preliminary step of opening said bags to release the waste they contain individually to form the waste mixture 2 according to the invention, which is a grouping of waste initially contained in said bags. The opening of the bags of waste can be carried out for example by means of a device for opening bags, to allow the release of the waste out of said bags, preferably without damaging or altering said waste. In particular, because of the absence of prior sorting before the entry of the waste mixture 2 into the treatment process of the invention, the waste is of heterogeneous sizes, shapes and consistencies, preferably of nature and origin. varied. The waste mixture 2 thus considered may include, in particular, soft, hard, sharp, liquid, powdery, solid, flat, hollow, solid, sticky, slippery, greasy, brittle, flexible, compressible, incompressible, combustible, incombustible waste. , or cumulating many of these characteristics. The waste mixture 2 contains mostly used and undesirable elements, for example food waste, newspapers, paper, cardboard, glass, plastic, metal, textiles, various fuels and incombustibles, complex materials , household hazardous waste, inert waste, bulky waste.
    [0008] According to the invention, the waste mixture 2 comprises at least biodegradable waste and non-biodegradable waste, the biodegradable waste advantageously forming a non-negligible portion of the waste mixture 2, for example at least 10% of the mass of the latter.
    [0009] Advantageously, at least 10%, preferably at least 20%, of the mass of the waste mixture 2 is formed by biodegradable waste, and at least 10%, preferably at least 20%, of the mass of the mixture is formed by non-biodegradable recyclable waste. For the purposes of the invention, the term "biodegradable waste" means a waste which, under the action of a natural medium, comprising, for example, living organisms and / or air and / or water, may naturally and spontaneously decompose into various elements liable to damage to the natural environment (high oxygen demand, leachate emissions) unless stabilized for example by composting. Living organisms can in particular be formed by micro-organisms such as bacteria, fungi or algae, which are likely to degrade biodegradable waste by means of biochemical reactions. The term "biodegradable waste" is preferably understood to mean waste which can be degraded in this manner on the time scale of a human life, of a decade, or more preferably of a year or a few months, in a preferred manner. a few weeks. The term "biodegradable waste" is preferably intended to include waste likely to be used in the manufacture and composting of composting of the latter. "Non-biodegradable" waste, within the meaning of the invention, forms other wastes, which do not spontaneously and naturally undergo such degradation, or which undergo it too slowly. "Non-biodegradable" waste is particularly unsuitable for compost composting. A "recyclable" waste, within the meaning of the invention, forms a waste which can easily be converted, for example chemically or mechanically, to form a recycled material similar to a raw material, which can enter, for example, into 3 0 2 1 2 3 5 8 the manufacture of an object. The term "recyclable waste" preferably excludes biodegradable waste, even if their transformation into compost makes it practically recyclable. For the purposes of the invention, the recyclable waste may comprise, for example: non-metallic waste, in particular polymers, glass, paper, cardboard, newspapers, rubble, wood, textiles, electronics, etc. metal scrap, formed by any type of metal. For the purposes of the invention, the term "non-recyclable waste" refers to any waste that does not fall into the categories described above of "recyclable waste" and "biodegradable waste". In particular, non-recyclable waste includes, in particular, waste with a calorific value that makes it capable of being transformed into solid recovered fuels, and other end-of-life waste (complex waste, etc.) intended for example for landfilling. or incineration. According to the invention, the sorting machine 1 comprises at least a first trommel section 3, provided with a first partition wall 5 extending on a first axial length L1 and being provided with a first series of orifices. 7 through 8 separating means for separating the waste mixture 2 into a first waste fraction 13 passing through said first partition wall 5 via the first series of separation orifices 7, 8 and a second fraction residual waste 14, the waste mixture 2 being intended to circulate along said first wall to be so separated. The first section of trommel 3 is designed to receive within it the mixture of waste 2 to perform a first sort of the latter. Said first trommel section 3 of the invention is provided for bringing the waste mixture 2 into contact with the first partition wall 5. In contact with the latter, the waste mixture 2 is sieved, and / or filtered, said first partition wall 5 being porous, so as to allow the passage through itself of the first waste fraction 13, and to prohibit the passage through itself of the second residual fraction of waste 14. Preferably, the first waste fraction 13 is formed by waste whose size is less, on average, than that of the second residual fraction of waste 14. The separation orifices 7, 8 of the first series of separation orifices 7, 8 are formed through the first partition wall 5, so as to make it porous, and are calibrated to pass through themselves exclusively the first waste fraction 13, which el The elements are thinner than those of the second residual fraction of waste 14, in the manner of a sieve. The waste mixture 2 is intended to progress, for example by gravity, along the first partition wall 5 over the entire first length L1. The latter 10 advantageously represents the porous length of the first partition wall 5, that is to say the useful length pierced by the first series of separation orifices 7, 8. The first fraction of waste 13 is removed from the first trommel section 3 using for example gravity, in a first hopper 12 placed below the first trommel section 3. The second residual fraction of waste 14 remains 15 advantageously channeled within the first section of trommel 3, and is passed through the second trommel section 4. Insofar as the waste mixture 2 passes firstly into the first trommel section 3, the latter preferably makes it possible to separate the waste whose density is the highest, whose dynamic inertia is the most important, the most sticky, greasy, messy and wet waste of the waste mixture 2. The first fraction of waste and 13 is thus advantageously mainly formed by waste having such properties. In the present case, the first waste fraction 13 thus concentrates mainly organic and / or biodegradable waste, which most of the time has the aforementioned properties. Thus, preferably, a non-negligible portion of the mass of the first waste fraction 13 is formed by biodegradable waste, for example at least 50% of the mass of the first waste fraction 13, or even at least 60%, preferably at least 80%. Also, a significant portion of the mass of the second residual fraction of waste 14 is advantageously formed by non-biodegradable recyclable waste, for example at least 10% of the mass, which may optionally be separated and recovered later. The first fraction of waste 13 may advantageously be the subject of a composting process comprising in particular the following successive steps: Step A: a first composting cycle is subjected to the first fraction of waste 13 so as to compost at least the biodegradable waste from said first waste fraction 13, and to obtain a pre-composted waste mixture, Step B: the pre-composted waste mixture is dried to obtain a mixture of dried waste, Step C : the dried waste mixture is separated into at least a portion of heavy waste and a portion of light waste, the portion of heavy waste being formed by waste of higher density than the waste of the light waste portion, the waste to be recycled, Step D: a second cycle of composting is done to the light waste portion re compost at least partly the biodegradable waste it contains, and obtain a mixture of refined waste. The refined waste mixture advantageously forms compost, preferably satisfying the NF U 44-051 standard. The standard NF U 44-051 of 2006, called "Organic amendments - Denominations, specifications and marking", is a French standard. Of course, without departing from the scope of the invention, the first waste fraction 13 may be treated differently.
    [0010] Preferably, as illustrated in FIGS. 1 and 2, the first series of separation orifices 7, 8 comprises at least primary orifices 7 making it possible at least to help separate the waste mixture 2 according to the first waste fraction 13 and according to the second residual fraction of waste 14 by passing the first waste fraction 13 through said primary orifices 7, the latter being of a size adapted to prohibit the passage of waste larger than 80 mm. In this preferred case, it is thus possible to pass through the primary orifices 7 only sufficiently small waste to form the first waste fraction 13. The size of the primary orifices 7 thus chosen makes it possible, preferably, to make a selection of good quality biodegradable waste, that is to say, it allows to obtain a high concentration of biodegradable waste in the first waste fraction 13. For this purpose, the primary orifices 7 are preferably of circular section, and a diameter of between 85 mm and 95 mm, preferably about 90 mm. It should be considered that, in particular to adapt to the composition of the waste mixture 2, other sizes and shapes of primary orifices 7 may be envisaged without departing from the scope of the invention, for example polygonal, oblong, smaller size, or larger size. The primary orifices 7 are advantageously regularly distributed, so as to form a mesh, on the majority of the surface of the first partition wall 5. Advantageously, and as illustrated in FIG. separating orifices 7, 8 also comprises secondary orifices 8 making it possible to contribute to separating the waste mixture 2 according to the first waste fraction 13 and according to the second residual fraction of waste 14 by passing the first fraction of waste 13 through said secondary orifices 8, the latter being of a size adapted to allow the passage of waste whose size is between 1 and 1.5 times the size of the waste whose passage is authorized by the primary orifices 7, the secondary orifices; 8 being arranged upstream of the primary orifices 7, in consideration of the direction of the circulation of the waste mixture 2. Unlike the usual trommels 1s, the first partition wall 5 advantageously has a decreasing porosity along its first length L1, so that the mixture of waste 2 is first brought into contact with the secondary orifices 8, then with the primary orifices 7, the size of the secondary orifices 8 being greater than the size of the primary orifices 7. The secondary orifices 8 are preferably of circular section, and of a diameter of between 105 mm and 115 mm, preferably about 110 mm. It should be considered that, in particular to adapt to the composition of the waste mixture 2, other sizes and shapes of secondary orifices 8 may be envisaged without departing from the scope of the invention, for example polygonal, oblong, smaller size, or larger size. The secondary orifices 8 are preferably regularly distributed, so as to form a mesh, on a minority portion of the surface of the first partition wall 5 which is unoccupied by the primary orifices 7. The secondary orifices 8 are advantageously distributed over approximately one eighth of the first length L1, the secondary orifices occupying substantially the entire remaining length. Distributed over such a short length, the secondary orifices 8 make it possible to include in the first waste fraction 13 only a portion of waste larger than that authorized by the primary orifices 7 and contained in the waste mixture 2. Advantageously, such a design makes it possible to ensure that the second residual fraction of waste 14 contains a lesser amount, or even substantially nothing, of biodegradable waste, even if a larger portion of non-biodegradable waste is likely to be introduced into the first fraction. Therefore, preferably, a significant portion of the mass of the second residual fraction of waste 14 is formed by recyclable waste, for example at least 50% of the mass of the second residual fraction of waste 14, at least 60%, or even preferably at least 80%. Also, a non-negligible portion, but as small as possible, of the mass of the first waste fraction 13 is advantageously formed by biodegradable waste, which may optionally be separated and recovered later. Preferably, less than 40% of the mass of the second residual waste fraction 14 is formed at this stage of biodegradable waste, preferably less than 25% or even less than 10%. According to the invention, the sorting machine 1 also comprises a second trommel section 4, provided with a second partition wall 6 extending over a second axial length L 2, said second partition wall 6 being provided with a second a series of through-9 separating orifices for separating the second residual fraction of waste 14 into a sub-fraction of small waste material 15 passing through said second partition wall 6 via said second series of separation orifices 9 and a residual sub-fraction 16 waste, the sub-fraction of large waste 16 being formed by waste whose size is greater than the subfraction of small waste 15, the second residual fraction of waste 14 being intended to circulate along said second wall to be so separated. The second section of trommel 4 is designed to receive within it the second residual fraction of waste 14, coming from the first section of trommel 3, to perform a second sorting of said second residual fraction of waste 14. The second section of trommel 4 of the invention is provided for bringing the second residual fraction of waste 14 into contact with the second partition wall 6. In contact with the latter, the second residual fraction of waste 14 is sieved, and / or filtered, said second wall 6 being porous, so as to allow the passage through itself of the sub-fraction of small waste 15, and 15 to prohibit the passage through itself of the sub-fraction of large waste 16. separating holes 9 of the second series of separation orifices 9 are formed through the second partition wall 6, so as to make it porous, and are calibrated to passing through itself exclusively the sub-fraction of small waste 15, the elements of which are finer than those of the sub-fraction of large waste 16, in the manner of a sieve. The second residual fraction of waste 14 is intended to progress, for example by gravity, along the second partition wall 6 over the entire second length L2. The latter advantageously represents the porous length of the second partition wall 6, that is to say the useful length pierced by the second series of separation orifices 9. As illustrated in FIG. 1, the subfraction small waste 15 is evacuated from the second trommel section 4 using, for example, gravity, in a second hopper 17 placed below the second section of trommel 4. The sub-fraction of large waste 16 remains preferentially channeled within the second section of trommel 4 and evacuated from the latter. Preferably, the second trommel section 4 has for this purpose a refusal output via which the sub-fraction of large waste 16 is intended to exit said second trommel section 4. The refusal output 21 advantageously leads to an evacuation hopper 18 connected to the end of the second section of trommel 4, and wherein the subfraction of large waste 16 falls by gravity. Insofar as the second residual fraction of waste 14 is preferably substantially free of biodegradable, messy, sticky and / or high density waste, which has been removed by the first trommel section 3, the second section of trommel 4 preferably allows to sort the waste, including in particular recyclable waste, present in the second residual fraction of waste 14. It allows in particular, preferably, to isolate relatively large size waste contained in the subsection of wholesale waste 16, which may for example be subject to biodegradable manual sorting, recyclable waste and non-recyclable waste. The smaller waste advantageously contained in the small waste sub-section 15 may for example be the subject of an automated sorting to separate biodegradable waste, recyclable waste and non-recyclable waste. In any event, the subsequent sorting performed on the small waste sub-section 15 and on the large waste sub-section 16 are advantageously facilitated, insofar as the waste is, at this stage, substantially cleaned of the organic waste. and / or biodegradable, sticky, messy and nauseating. Preferably, the second series of separation orifices 9 comprises at least tertiary orifices 9 allowing at least to help separate the second residual fraction of waste 14 according to the sub-fraction of small waste 15 and the sub-fraction of large waste 16 by passing the sub-fraction of small waste 15 through said tertiary orifices 9, the latter being of a size adapted to prohibit the passage of waste of a size greater than at least 200 mm or 300 mm. Thus, it is permissible to pass through tertiary orifices 9, in this preferential case, only sufficiently small waste, to form the sub-fraction of small waste 15. The size of the tertiary orifices 9 thus chosen makes it possible, preferably, to carry out a selecting a predetermined type of recyclable waste, that is to say, it makes it possible to obtain a high concentration of this particular type of waste 3 0 2 1 2 3 5 15 recyclable the sub-fraction of small waste 15 To this end, the tertiary orifices 9 are advantageously of oblong section, and said oblong section has a small diameter Dp and a large diameter Dg, as illustrated in particular in FIG. 3. The expression "oblong section" preferably includes a rectangular or elliptical cross-sectional shape, or a shape combining the features thereof. Advantageously, the large diameter Dg and the small diameter Dp are chosen so that they correspond to types of waste that it is desired to include, in particular, in the sub-fraction of small waste. For example, the waste mixture 2 being likely to contain plastic or glass bottles, whose standard size is generally about thirty centimeters, we can choose a large diameter Dg of a size slightly greater than the size of said bottles, that is, to say slightly more than thirty centimeters. Similarly, for example, the mixture of waste 2 being likely to contain used newspapers, whose standard size is generally about twenty centimeters, we can choose a small diameter Dp of a size slightly greater than the size of said newspapers, that is to say slightly more than twenty centimeters. Therefore, preferably, for each tertiary orifice, the small diameter Dp is between 200 and 240 mm, preferably about 220 mm, the large diameter Dg being between 300 and 400 mm, preferably about 330 mm, the small diameter 20 Dp being substantially perpendicular to the large diameter Dg, as illustrated in particular in Figure 3. Of course, in particular to adapt to the composition of the original waste mixture 2, other sizes and forms of tertiary orifices 9 may be envisaged without departing from the scope of the invention, for example polygonal, circular, smaller size, or larger size. Advantageously, as illustrated in FIG. 3, the tertiary orifices 9 are distributed in successive rows along the second length L2, alternating at least: a longitudinal row 19 of tertiary orifices 9, in which the large diameter Dg of the tertiary orifices 9 of the right row is aligned in the direction of the second length L2, and - a transverse row 20 of tertiary orifices 9, in which the small diameter Dp of the tertiary orifices 9 of the transverse row 20 is aligned in the direction of the second length L2. Preferably, the large diameter Dg of the tertiary orifices 9 is parallel to a second longitudinal axis Y-Y 'of the second trommel 4, as described below. Preferably, on the contrary, the large diameter Dg of the tertiary orifices 9 is perpendicular to the second longitudinal axis YY '. From one row to another, the tertiary orifices 9 are thus preferably substantially perpendicular to each other, so as to anticipate the orientation of the waste to be included in the sub-fraction of small waste 15, and to improve the the second sorting section of the trommel section 4. Preferably, the second series of separation orifices 9 will be formed by an alternation of longitudinal rows 19 and transverse rows 20 of tertiary orifices 9. Of course, Other arrangements of tertiary orifices may be envisaged without departing from the scope of the invention. Advantageously, the first series of separation orifices 7, 8 is distributed substantially over the entire first length L1 of the first trommel section 3, the second series of separation orifices 9 is distributed substantially over the entire second length L2 of the second trommel section 4, so as to be distributed over at least the majority of, or even over all, the surface formed by the first partition wall 5 and by the second partition wall 6. Such a design makes it possible to increase the useful proportion of said partition walls, and thus improve the compactness of the sorting machine 1 in general. According to a particularly important characteristic of the invention, the second length L2 is smaller than the first length L1. Thus, the first trommel section 3, and in particular the first partition wall 5 is of greater length than the second trommel section 4, and in particular the second partition wall 5 6. Such a design allows the first section of trommel 3 to effectively ensure the separation of a majority or all of the biodegradable waste initially contained in the waste mixture 2. Indeed, the first length L1 is advantageously chosen to to be sufficiently long so that all waste from the waste mixture 2 that can pass through the first separation wall 5 is effectively included in the first fraction of waste 13. Preferably, the first length LI is at least 1.05 times the second length L2, preferably at least 1.10 times, still more preferably at least 1.12 times. The sum of the first length L1 and the second length L2 is advantageously between 10 and 20 m. The sorting machine 1 is preferably designed to sort between 10 and 50 T / h of waste mixture (2). Advantageously: the first waste fraction 13 represents between 35 and 60% of the mass of the initial waste mixture 2, preferably about 42%, the small waste sub-fraction represents between 20 and 40% of the mass. of the initial waste mixture 2, preferably about 28%, the large waste sub-fraction 16 represents between 20 and 40% of the mass of the initial waste mixture 2, preferably about 30%.
    [0011] Preferably, as represented for example in FIG. 1, the first separation wall 5 has the general shape of a prism, cylinder or truncated cone, whose height forms a first longitudinal axis XX 'of the first wall of separation 5, the latter being rotated about the first longitudinal axis X-X '.
    [0012] Advantageously, the second partition wall 6 has a general shape of prism, cylinder or truncated cone, whose height forms a second longitudinal axis YY 'of the second partition wall 6, the latter being rotated around of the second longitudinal axis Y-Y '.
    [0013] The first longitudinal axis XX 'and / or the second longitudinal axis YY' are preferably slightly inclined relative to the horizontal, so as to allow, by gravity, a progression of the waste in the trommel sections in a predetermined direction of circulation, advantageously from the intake inlet 10, towards the second trommel section 4, to the discharge hopper 18 at the refusal outlet of the second trommel section 4. The rotation of the first trommel section 3 and / or the second section of trommel 4 allows the waste to be brewed and turned over, so that at least a majority of them, if not all, have the opportunity to come into contact with the first partition wall 5 and / or the second partition wall 6 to be sorted. To allow a better mixing of the waste and to improve the sorting efficiency of the sorting machine 1, the first trommel section 3 and / or the second trommel section 4 are each designed to be rotated, the rotation taking place preferably alternately in one direction and the other according to a desired frequency around their respective longitudinal axes. It is advantageous to choose a cylindrical shape, which allows the waste, during the rotation of the trommel sections, to rub against each other so as to clean each other sticky waste. Alternatively one can for example choose an octagonal base prismatic shape to cause a rebound of waste on the walls, to allow better separation of waste from each other. The diameter of the first trommel section 3 and the second trommel section 4 is advantageously between 2 and 3 m. Therefore, as shown in FIG. 1, the first set of separating orifices 7, 8 is distributed preferably over the entire circumference of the first partition wall 5, the second set of separation orifices 9 being distributed throughout the circumference of the second partition wall 6. Preferably, and as shown in the figures, the separation orifices 7, 8 of the first series of separation orifices 7, 8 are distributed on the first partition wall 5 according to a first staggered mesh, the separation orifices 9 of the second series of separation orifices 9 being distributed on the second separation wall 6 in a second staggered mesh. In this way, the separation orifices 7, 8, 9 are arranged both in a first helix and a second crossed helix, which improves the efficiency of the sorting during the circulation of the waste in the first section of trommel 3 and in the second trommel section 4, irrespective of the direction of rotation of said trommel sections 3, 4. Preferably, the first partition wall 5 and / or the second partition wall 6 is provided with lifting fins 22 waste circulating in the first trommel section 3 and / or in the second trommel section 4, respectively. The lifting fins 22 are preferably each disposed in the longitudinal direction of the trommel sections 3, 4, so as to cause, lift up and stir the waste during the rotation of said trommel sections 3, 4. raising 22 are advantageously arranged in staggered rows. As illustrated in FIG. 1, the first trommel section 3 and the second trommel section 4 form a single trommel 3, 4 rotatable in one piece around a single longitudinal axis X-X'-Y-Y ', the output end of the first trommel section 3 being directly connected to the input end of the second trommel section 4. In this preferred case, the trommel sections 3, 4 are integral and form a drum. unique. In this preferential case shown in FIG. 1, the sorting machine 1 comprises three times of effort 23 making it possible to support and / or drive in rotation the single trommel, two of the stress repeats 23 being placed at the ends of the trommel. the only trommel, the last being placed substantially median to the other two. The stress resumption 23 correspond for example to bearings, and / or drive means of the gear type gear or drive pulley. The median stress recovery 23 advantageously avoids any risk of bending the single trommel 3, 4, especially in the case where its total length is important and where the amount of waste in it is particularly massive. Alternatively, according to another preferred variant of the invention not shown in the figures, it is possible to envisage that the first trommel section 3 and the second trommel section 4 form two independent trommels. sort 1 including means for transferring the second residual fraction of waste 14 from the first trommel section 3 to the second trommel section 4. The first trommel section 3 preferably comprises a transfer output of the second fraction residual waste 14, the second trommel section 4 comprising a secondary inlet of the second residual waste fraction 14. The secondary inlet is advantageously connected to the transfer outlet, so that waste can circulate from the first trommel section. 3 to the second section of trommel 4. Preferably, the sorting machine 1 is designed so that the second fraction Residual waste 14 falls by gravity from the first trommel section 3 into the second trommel section 4. For the sake of illustration only, the variant of the invention shown in the figures can operate as described hereinafter. The single trommel 3, 4 being rotated alternately in one direction and the other around its longitudinal axis, is introduced through the inlet inlet 10 the waste mixture 2 to sort. The waste mixture 2 first flows into the first trommel section 3 so as to be separated: on the one hand into a first waste fraction 13, which passes through the first partition wall 5 to fall into the first hopper 12, and secondly a second residual fraction of waste 14 which remains inside the single trommel 3, 4 and progresses towards the second section of trommel 4. By reaching the second section of trommel 4, the second residual fraction of waste 14 is again sorted, and in this case separated: 302 1 2 3 5 21 on the one hand into a sub-fraction of small waste 15, which passes through the second wall 6 to fall into the second hopper 17, and - secondly into a sub-fraction of large waste 16, which is discharged from the second trommel section 4 by the refusal outlet 21, so as to fall into the evacuation hopper 18. Fractions and so The waste fractions 13, 15, 18 recovered separately in the hoppers 12, 17, 18 can thus be treated separately, in spite of the very large heterogeneity of the initial waste mixture 2. Preferably, the sorting machine 1 described above may be integrated into a more comprehensive waste treatment process, in particular to perform a step E1 of the latter, as illustrated in FIG. 2. The treatment method preferably comprises step E1 during which the waste mixture 2 is separated into a first waste fraction 13 whose size is less than about 180 mm, preferably less than 140 mm, and a second residual fraction of waste 14 Step E1 is advantageously carried out using a sorting machine I described above. By "size" is generally meant a dimension of the waste space along its largest length, or a characteristic dimension. The term "size" of a waste, a geometric dimension characteristic of the individual waste, which allows it for example to pass through a mesh size corresponding if the size of the waste is smaller than the size of the mesh, or on the contrary not to pass if the size of said waste is greater than the size of said mesh. The term "second residual portion of waste" means the remaining portion of 25 waste, which did not correspond to the separation characteristics of the first portion of waste 13, in this case the size criterion. However, there is nothing to preclude that, within the meaning of the invention, waste which could have satisfied the criterion of separation, in this case of size, of the first portion of waste 13 may also exist 302 1 2 3 5 22 in the second residual portion of waste 14. For example, the second residual portion of waste 14 may contain waste whose size is less than 50 mm. In this way, the first fraction of waste 13 is advantageously formed by waste having on average a higher volume volume than the waste 5 of the second residual fraction of waste 14, insofar as, in practice, the waste of density the highest are preferably less than 180 mm in size. Preferably, step E1 of the method thus includes a separation of waste whose size is sufficiently small, the density of which is the highest, the density of which is the highest, the dynamic inertia of which is the most important. , the most sticky, greasy, messy and wet waste from the waste mixture 2 to form the first waste fraction. The latter is thus advantageously formed at least a majority of waste having such properties. Preferably, in the present case, the first waste fraction 13 thus mainly contains organic and / or biodegradable waste, which most of the time has the aforementioned properties. At the end of this first separation thus carried out during step E1, the first waste fraction 13 and the second residual fraction of waste 14 can be treated more easily in the following steps of the process, especially insofar as the Waste from the second residual fraction of waste 14 is, at this stage, cleaned of most organic waste and / or biodegradable, sticky, messy and nauseating. Preferably, the waste of the first waste fraction 13 is smaller than about 110 mm, and is separated using the sorting machine 1 described above. Advantageously, the process comprises, at the end of step E1 or simultaneously with the latter, a step E4 of separating the second residual fraction of waste 14 into a sub-fraction of large waste and a subfraction of small waste 15, the sub-fraction of large waste being formed by waste whose size is greater than the sub-fraction of small waste 15. The sub-fraction of large waste is preferably formed by waste whose size is greater than about 330 mm, the sub-fraction of small waste being formed by waste whose size is less than about 330 mm. Step E4 may also be performed by means of the sorting machine 1 described above. The treatment method preferably comprises a step E5 of manual sorting of the sub-fraction of large waste 16, to separate on the one hand the recyclable waste 26 that it contains, and on the other hand the non-recyclable waste 27 that it contains. Manual sorting is advantageously made possible at this stage, insofar as the waste is of sufficiently large size, free of small waste and most fines. In addition, the waste is advantageously free of most of the tacky and nauseating material formed by the biodegradable material, which makes manual sorting possible. Manual sorting makes it possible in particular to separate from the sub-fraction of large waste 16 metal waste 26A, plastic waste, large electronic waste, cardboard packaging, etc. Waste recognized as recyclable waste during manual sorting will advantageously be sent to a recycling step W, as described below. Residual waste that is not separated for recycling will advantageously be sent to a step X of solid fuel recovery, whether actually recyclable or non-recyclable. Preferably, the treatment method comprises a step E6 of automated sorting of the sub-fraction of small waste 15, to separate on the one hand the recyclable 26 it contains, and secondly non-recyclable waste 27 that it contains. The small waste subfraction 15 is preferably adapted for automatic sorting, the small waste being lighter for example to be handled by sorting devices. Step E6 preferably comprises a first substep E61 for separating metal scrap 26A contained in the sub-fraction of small scrap 15, for example using an electromagnetic separator and / or a separator. the eddy current, so as to separate at least the majority of the metal waste 26A contained in said sub-fraction of small waste 15, the metal waste 26A forming at least the majority of recyclable waste 26. The waste Metals 26A can thus advantageously be extracted from the sub-fraction of small waste 15, 5 insofar as said sub-fraction of small waste 15 is preferably substantially free of sticky biodegradable waste. Preferably, step E6 comprises a second substep E62, for separating the sub-fraction of small waste 15 into a substantially flat waste stream and a substantially volume waste stream. In this way, the two waste streams 10 can be directed to sorting machines adapted to the morphology of the waste they contain. The term "substantially flat waste", the waste extending mainly in a surface, such as newspapers, papers, plastic plates various. The term "substantially flat waste" advantageously also includes volume waste sufficiently soft, or of sufficiently low mechanical strength to be easily flattened or compacted, for example certain cardboard boxes. "Substantially volumetric waste" is defined as waste which extends along three dimensions of space, which may be hollow, and which is more resistant than waste substantially flat to compaction, which is more rigid, or stronger. . For example, the substantially volume waste may include plastic or glass bottles, plastic boxes, bottles and various containers. This substep E62 is preferably carried out using a ballistic carpet separator (not shown). The ballistic carpet preferably has an inclination to the horizontal so as to form a slope, the tread being designed to provide advance movement in the direction of the rise of the slope. Advantageously, the substantially volume wastes are intended to roll and bounce on the ballistic carpet by gravity so as to hurtle down the slope towards a low recovery means of the tray or conveyor type, optionally incorporating a glass trap. The substantially flat waste is in turn preferentially driven up the slope by the advance movement of the carpet to a high recovery means, for example another conveyor, so that the substantially flat waste and substantially volume waste are separated.
    [0014] The fine particles that may be contained in the sub-fraction of small waste 15 advantageously adhere to the ballistic carpet (the latter may optionally be moistened to amplify this effect), and may advantageously be scraped and recovered using, for example, a tungsten belt scraper mounted on said carpet. The tread of the ballistic carpet may advantageously have elastic properties likely to allow the rebound of substantially volume waste. The ballistic mat is preferably combined with an accelerator mat mounted upstream, to accelerate the subfraction of small waste 15 so that they reach the ballistic carpet of the ballistic carpet separator with a predetermined speed. Preferably, the step E6 comprises a third substep E63 of robotized sorting on the one hand of the substantially flat waste stream and on the other hand of the substantially volumic waste stream, to separate from each of said streams of the recyclable waste 26 and non-recyclable waste, the third substep E63 being performed at the end of the second substep E62. It will be advantageous to choose separate sorting robots adapted respectively for sorting on the one hand substantially flat waste and on the other hand substantially volumic waste. The sorting robots are preferably designed to separate the recyclable waste substantially flat waste and substantially volume waste by recognizing the latter, in particular by optical signature recognition, allowing in particular the sorting robot to detect the waste material to sort. The recyclable waste recognized by the sorting robots will advantageously be sent to a recycling stage W. Unrecognized waste, preferably including a small proportion of recyclable waste and a majority of non-recyclable waste, will be advantageously sent to a recovery solid fuel manufacturing step X.
    [0015] 3 0 2 12 3 5 26 After sorting by the sorting robots, before the recycling stage W, the recyclable waste can advantageously be subjected to a stage T of the treatment process, during which waste is separated. non-ferrous metals from recyclable waste, for example using an eddy-current separator. At this stage of the process, the nonferrous metal scrap is for example formed by aluminum scrap, or flexible food packaging containing an aluminum foil. Advantageously, the distinct flows of substantially volume waste and substantially flat waste are conveyed using a belt conveyor set 10 to the sorting robots, the set of conveyor belts being designed to spread and distribute the waste so that substantially no waste is superimposed on another at the arrival of said waste at the sorting robots. The efficiency of the sorting by the robots is thus advantageously improved. The substeps E61, E62 and E63 are preferably carried out successively in this order. The treatment method preferably also comprises a step E2, carried out successively in step E1 during which a composting process is subjected to the first fraction of waste 13 so as to compost at least part of the biodegradable waste it contains.
    [0016] Step E2 is thus preferably aimed at upgrading the first waste fraction 13, and in particular at converting the biodegradable waste it contains into a mixture of refined waste 28, so that, preferably, the waste mixture refined form of compost complying with standard NF U 44-051. The standard NF U 44-051 of 2006, called "Organic Amendments - Denominations, 25 specifications and marking", is a French standard. The composting process of step E2 advantageously comprises the following successive steps: Step A: a first composting cycle is subjected to the first waste fraction 13 so as to compost at least part of the waste material. 3 Biodiversity of said first waste fraction 13, and to obtain a mixture of pre-composted waste 2, Step B: the pre-composted waste mixture 2 is dried to obtain a mixture of dried waste 2, Step C: The dried waste mixture 2 is separated into at least a portion of heavy waste and a light waste portion, the heavy waste portion being formed by higher density waste than the waste of the waste portion. light waste, Step D: a second composting cycle is performed on the light waste portion so as to compost at least part of the biodegradable waste therein, and to obtain a mixture of refined waste 28, in particular compost. Step E2 advantageously includes the treatment of the first waste fraction 13 by two successive composting cycles separated by a drying step of the first waste fraction 13 at the end of the first composting cycle to facilitate separation and Thus, even if the first fraction of waste 13 is particularly heterogeneous and has many undesirable substances which are not likely to be treated by composting, it is possible to refine the latter fraction of the waste fraction 13. Step E2 help to obtain refined waste 28 which is greater in value than the original waste mixture. For the purposes of the invention, "composting" is understood to mean a biological process for converting and recovering organic waste, and in particular for the biodegradable waste contained in the first waste fraction 13, by promoting and / or accelerating the natural process of biodegradation. The composting cycles of step E2 preferably convert at least a portion of the first waste fraction 13 into a stabilized, hygienic product rich in humic compounds, preferably in compost. "Composting" is understood to mean composting, for example traditional or industrial, including the action of micro-organisms to degrade and putrefy waste from the first fraction of waste 13, these micro-organisms being naturally present in the first fraction. waste 13 and / or added to the first fraction of waste 13, and / or made to multiply in the first waste fraction 13. The present composting in particular implements aeration of the first fraction of waste 13, and / or or regulating the humidity of the first fraction of waste 13 (for example by adding water, and / or reintroduction into the first waste fraction 13 of composting juice 11 emitted by the latter), and / or a micro addition -organisms to the first waste fraction 13 and / or an addition of structuring agents to stimulate the composting process, and / or a light input, for example solar. Preferentially, step A corresponds to, or includes, a waste degradation phase, in particular a biodegradable phase, whereas step C corresponds to, or includes, a phase of maturation of the waste, in particular biodegradable waste, to obtain the waste mixture. refined 28, the latter advantageously forming compost. The degradation phase advantageously results in a proliferation of microorganisms in the first waste fraction 13, whereas the maturation phase preferably results in the gradual decrease in the quantity of microorganisms that have proliferated during the degradation phase. , and the conservation of beneficial microorganisms for soils. Degradation and maturation phases may overlap or even be confused. The invention also relates as such to a sorting process for sorting a waste mixture 2 of heterogeneous sizes, shapes and consistencies, comprising at least biodegradable waste and non-biodegradable recyclable waste, a significant portion of the mass. the waste mixture being formed by biodegradable waste, for example at least 10% of the mass, and a substantial portion of the mass of the mixture being formed by non-biodegradable recyclable waste, for example at least 10% of the mass, said sorting process being characterized in that, successively: the waste mixture 2 is introduced into a first trommel section 3, provided with a first partition wall 5 extending over a first axial length L1 and being provided with a first series of separation orifices 7, 8-through, the waste mixture 2 is separated into a first waste fraction 13 passing through the said first separation wall 5 through the first series of separation orifices 7, 8 and a second residual fraction of waste 14, the waste mixture 2 flowing along said first wall to be so separated, passing the second residual fraction of waste 14 from the first section of trommel 3 to a second section of trommel 4, provided with a second partition wall 6 extending over a second length L2 axial bottom at the first length L1, said second partition wall 6 being provided with a second series of through-9 separation orifices, the second residual fraction of waste 14 is separated into a sub-fraction of small waste passing through said second wall 6 by means of said second series of separation orifices 9 and a residual subfraction 16 waste, the sub-fraction of large waste 16 being formed by waste whose size is greater than 15 subfraction of small waste 15, the second residual waste fraction 14 being adapted to move along said second wall to be thus separated. The method of the invention may advantageously be carried out using the sorting machine 1 described above.
    权利要求:
    Claims (6)
    [0001]
    CLAIMS1 - Rotary sorting machine (1) for sorting a waste mixture (2), the latter being of heterogeneous sizes, shapes and consistencies, the waste mixture (2) comprising at least biodegradable waste and non-recyclable waste. biodegradable, said sorting machine (1) being characterized in that it comprises at least: a first trommel section (3), provided with a first partition wall (5) extending on a first length (L1) axial and being provided with a first series of through-holes (7, 8) for separating the waste mixture (2) into a first waste fraction (13) passing through said first partition wall (5) by way of intermediate of the first series of separation openings (7, 8) and a second residual fraction of waste (14), the waste mixture (2) being intended to circulate along said first wall to be separated thereby, and a second trommel section (4), provided with a second partition wall (6) extending over a second axial length (L2) less than the first length (L1), said second partition wall (6) being provided a second series of through-holes (9) for separating the second residual waste fraction (14) into a sub-fraction of small waste (15) passing through said second partition wall (6) via of said second series of separation orifices (9) and a residual sub-fraction of large waste (16), the sub-fraction of large waste (16) being formed by waste whose size is greater than the sub-fraction of small waste fraction (15), the second residual waste fraction (14) being intended to circulate along said second wall to thereby be separated,
    [0002]
    2 - Sorting machine (1) of a mixture of waste (2) according to the preceding claim, characterized in that the first series of separation orifices (7, 8) comprises at least primary orifices (7) allowing the less to help separate the .3 () waste mixture (2) according to the first waste fraction (13) and the second residual waste fraction (14) by passage of the first waste fraction (14). waste (13) through said primary orifices (7), the latter being of a size adapted to prohibit the passage of waste larger than 80 mm.
    [0003]
    3 - Sorting machine (1) of a mixture of waste (2) according to any one of the preceding claims, characterized in that the primary orifices (7) are of circular section, and a diameter of between 85 mm and 95 mm, preferably about 90 mm.
    [0004]
    4 - Sorting machine (1) of a mixture of waste (2) according to any one of claims 2 or 3, characterized in that the first series of separation orifices (7, 8) also comprises orifices secondary means (8) for helping to separate the waste mixture (2) according to the first waste fraction (13) and the second residual waste fraction (14) by passing the first waste fraction (13) through said waste fraction (13); secondary ports (8), the latter being of a size adapted to allow the passage of waste whose size is between 1 and 1.5 times the size of waste whose passage is authorized by the primary orifices (7) , the secondary orifices (8) being arranged upstream of the primary orifices (7), in consideration of the direction of circulation of the waste mixture (2).
    [0005]
    5 - Machine for sorting (1) a mixture of waste (2) according to the preceding claim, 20 characterized in that the secondary orifices (8) are of circular section, and a diameter of between 105 mm and 115 mm preferably about 110 mm.
    [0006]
    6 - Sorting machine (1) of a waste mixture (2) according to any one of the preceding claims, characterized in that the second series of separation orifices (9) comprises at least tertiary orifices (9) at least to contribute to separating the second residual fraction of waste (14) according to the sub-fraction of small waste (15) and the sub-fraction of large waste (16) by passage of the sub-fraction of small waste ( 15) through said tertiary ports (9), the latter being of a size adapted to prohibit the passage of waste of a size greater than at least 200 mm.7 Sorting machine (1) according to the preceding claim, characterized in that the tertiary orifices (9) are of oblong section, and said oblong section has a small diameter (Dp) and a large diameter (Dg). 8 - sorting machine (1) according to the preceding claim, characterized in that, for each tertiary orifice, the small diameter (Dp) is between 200 and 240 mm, preferably about 220 mm, the large diameter (Dg) being between 300 and 400 mm, preferably about 330 mm, the small diameter (Dp) being substantially perpendicular to the large diameter (Dg). 9 - sorting machine (1) according to any one of claims 7 or 8, characterized in that the tertiary orifices (9) are distributed in successive rows along the second length (L2), alternating at least: a longitudinal row (19) of tertiary orifices (9), wherein the large diameter (Dg) of the tertiary orifices (9) of the right row is aligned in the direction of the second length (L2), and a transverse row (20) of tertiary orifices (9), wherein the small diameter (Dp) of the tertiary orifices (9) of the transverse row (20) is aligned in the direction of the second length (L2). Sorting machine (1) according to one of the preceding claims, characterized in that the first series of separating orifices (7, 8) is distributed substantially over the entire first length (L1) of the first section of trommel (3), the second series of separation orifices (9) is distributed substantially over the entire second length (L2) of the second trommel section (4). 11-sorting machine (1) according to any one of the preceding claims, characterized in that the first partition wall (5) has a general shape of prism, cylinder or truncated cone, whose height forms a first longitudinal axis (X-X ') of the first partition wall (5), the latter being rotated about the first longitudinal axis (X-X'), the second partition wall (6) has a general shape of prism, cylinder or truncated cone, whose height forms a second longitudinal axis (Y-Y ') of the second partition wall (6), the latter being rotated about the second longitudinal axis (Y-Y' ). Sorting machine (1) according to one of the preceding claims, characterized in that the first series of separating openings (7, 8) is distributed over the entire circumference of the first partition wall (5), the second a series of separation holes (9) being distributed over the entire circumference of the second partition wall (6). 13 - sorting machine (1) according to any one of the preceding claims, characterized in that the separation orifices (7,8) of the first series of separation orifices (7, 8) are distributed on the first wall separation member (5) according to a first staggered mesh, the separation apertures (9) of the second series of separation orifices (9) being distributed on the second partition wall (6) in a second staggered mesh. 14-sorting machine (1) according to any one of the preceding claims, characterized in that the first trommel section (3) and the second trommel section (4) are each designed to be rotated, the rotation s performing alternately in one direction and the other according to a desired frequency. 15-sorting machine (1) according to any one of the preceding claims, characterized in that the second trommel section (4) has a refusal outlet through which the sub-fraction of large waste (16) is intended to exit said second trommel section (4). 16-sorting machine (1) according to any one of the preceding claims, characterized in that the first partition wall (5) and / or the second partition wall (6) is provided with lifting fins (22) waste circulating in the first trommel section (3) and / or in the second trommel section (4), respectively. A sorting machine (1) according to any one of the preceding claims, characterized in that the first length (L1) is at least 1.05 times the second length (L2), preferably at least 1.10 times, still more preferably at least 1.12 times. 18-sorting machine (1) according to any one of the preceding claims, characterized in that the sum of the first length (L1) and the second length (L2) is between 10 and 20 m, and that the machine sorting machine (1) is designed to sort between 10 and 50 T / h of waste mixture (2). 19 - Sorting machine (1) according to any one of the preceding claims, characterized in that the first trommel section (3) and the second trommel section (4) form a single trommel (3, 4). Sorting machine (1) according to the preceding claim, characterized in that it comprises three times of effort (23) for supporting and / or driving in rotation the single trommel, two times of effort ( 23) being placed at the ends of the single trommel (3, 4), the last being placed substantially median to the other two. 21 - Sorting machine (1) according to any one of claims 1 to 18, characterized in that the first trommel section (3) and the second trommel section (4) form two independent trommels, the sorting machine ( 1) including means for transferring the second residual waste fraction (14) from the first trommel section (3) to the second trommel section (4). 22-sorting machine (1) according to any one of claims 1 to 21, characterized in that at least 10%, preferably at least 20%, of the mass of the mixture is formed by biodegradable waste, and at At least 10%, preferably at least 20%, of the mass of the mixture is formed by non-biodegradable recyclable waste (26). 23-Sorting method for sorting a mixture of waste (2) of heterogeneous sizes, shapes and consistencies, comprising at least biodegradable waste and non-biodegradable recyclable waste, a significant portion of the waste mass of the waste mixture being formed by biodegradable waste, for example at least 10% of the mass, and a substantial portion of the mass of the mixture being formed by non-biodegradable recyclable waste, for example at least 10% .de the mass, said sorting process being characterized in that, successively: introducing the waste mixture (2) into a first trommel section (3), provided with a first partition wall (5) extending over a first length (L1) axial and being provided with a first series of orifices 10 separating (7, 8) through, the waste mixture (2) is separated into a first waste fraction (13) crossing said first separating wall (5) via the first series of separating openings (7, 8) and a second residual fraction of waste (14), the waste mixture (2) circulating along said first wall to be so separated, passing the second residual waste fraction (14) from the first trommel section (3) to a second trommel section (4), provided with a second partition wall (6); extending over a second axial length (L2) less than the first length (IL1), said second partition wall (6) being provided with a second series of separation orifices (9) therethrough, the second fraction is separated. residual waste (14) into a sub-fraction of small waste (15) passing through said second partition wall (6) via said second set of separation holes (9) and a sub-fraction of residual large waste (16), the sub-fract large waste (16) being formed by waste larger than the sub-fraction of small waste (15), the second residual waste fraction (14) being intended to flow along said second wall to be thus separated.
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    同族专利:
    公开号 | 公开日
    WO2015197928A1|2015-12-30|
    NZ727154A|2021-03-26|
    AU2015279024A1|2017-01-05|
    AU2015279024B2|2020-01-30|
    CU24469B1|2020-02-04|
    PH12016502326B1|2017-02-06|
    EP3145644A1|2017-03-29|
    RU2016148697A3|2018-12-21|
    RU2721672C2|2020-05-21|
    MY179823A|2020-11-17|
    MA39546B2|2021-01-29|
    DOP2016000305A|2017-02-15|
    SG11201609833QA|2016-12-29|
    RU2016148697A|2018-06-26|
    FR3021235B1|2020-07-03|
    KR20170008305A|2017-01-23|
    CA2949919A1|2015-12-30|
    US20170151585A1|2017-06-01|
    MX2016015320A|2017-05-09|
    MA39546A1|2018-03-30|
    ZA201608481B|2021-07-28|
    US10086406B2|2018-10-02|
    PH12016502326A1|2017-02-06|
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    法律状态:
    2015-05-28| PLFP| Fee payment|Year of fee payment: 2 |
    2015-11-27| PLSC| Publication of the preliminary search report|Effective date: 20151127 |
    2016-05-26| PLFP| Fee payment|Year of fee payment: 3 |
    2017-05-23| PLFP| Fee payment|Year of fee payment: 4 |
    2018-05-25| PLFP| Fee payment|Year of fee payment: 5 |
    2019-05-24| PLFP| Fee payment|Year of fee payment: 6 |
    2020-05-28| PLFP| Fee payment|Year of fee payment: 7 |
    2021-05-26| PLFP| Fee payment|Year of fee payment: 8 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1454709A|FR3021235B1|2014-05-23|2014-05-23|MACHINE FOR SORTING A MIXTURE OF WASTE, AND ASSOCIATED SORTING METHOD|
    FR1454709|2014-05-23|FR1454709A| FR3021235B1|2014-05-23|2014-05-23|MACHINE FOR SORTING A MIXTURE OF WASTE, AND ASSOCIATED SORTING METHOD|
    CU2016000177A| CU24469B1|2014-05-23|2015-05-22|ROTARY MACHINE FOR THE CLASSIFICATION OF A WASTE MIXTURE AND ASSOCIATED CLASSIFICATION METHOD|
    RU2016148697A| RU2721672C2|2014-05-23|2015-05-22|Machine for sorting waste mixture and corresponding sorting method|
    US15/313,459| US10086406B2|2014-05-23|2015-05-22|Machine for sorting a mixture of waste, and associated sorting method|
    NZ727154A| NZ727154A|2014-05-23|2015-05-22|Machine for sorting a mixture of waste, and associated sorting method|
    MA39546A| MA39546B2|2014-05-23|2015-05-22|Machine for sorting a mixture of waste, and associated sorting method|
    MX2016015320A| MX2016015320A|2014-05-23|2015-05-22|Machine for sorting a mixture of waste, and associated sorting method.|
    PCT/FR2015/051372| WO2015197928A1|2014-05-23|2015-05-22|Machine for sorting a mixture of waste, and associated sorting method|
    EP15734425.0A| EP3145644A1|2014-05-23|2015-05-22|Machine for sorting a mixture of waste, and associated sorting method|
    AU2015279024A| AU2015279024B2|2014-05-23|2015-05-22|Machine for sorting a mixture of waste, and associated sorting method|
    KR1020167036154A| KR20170008305A|2014-05-23|2015-05-22|Machine for sorting a mixture of waste, and associated sorting method|
    SG11201609833QA| SG11201609833QA|2014-05-23|2015-05-22|Machine for sorting a mixture of wastes, and associated sorting method|
    MYPI2016704305A| MY179823A|2014-05-23|2015-05-22|Machine for sorting a mixture of waste, and associated sorting method|
    CA2949919A| CA2949919A1|2014-05-23|2015-05-22|Machine for sorting a mixture of wastes, and associated sorting method|
    DO2016000305A| DOP2016000305A|2014-05-23|2016-11-22|MACHINE FOR CLASSIFICATION OF A MIXTURE OF WASTE AND ASSOCIATED CLASSIFICATION METHOD|
    PH12016502326A| PH12016502326A1|2014-05-23|2016-11-22|Machine for sorting a mixture of waste, and associated sorting method|
    ZA2016/08481A| ZA201608481B|2014-05-23|2016-12-08|Machine for sorting a mixture of wastes, and associated sorting method|
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