This application claims benefit under 35 U.S.C. § 371 to international application no. PCT/IB20201057137, filed on Jul. 29, 2020, which claims priority to Italian application no. 102019000013347, filed Jul. 30, 2019, the contents of which are incorporated by reference in their entireties.
The present invention relates to a waste sorting system. In particular, the present invention relates to a waste sorting system arranged to separate substances upstream of a recycling station. More in detail, the present invention refers to a waste sorting system arranged to separate substances upstream of a recycling station for inert materials and plastics.
In the waste recycling sector, sorting waste into macro-groups based on its nature has been known for some time. With reference to industrial waste, paper, cardboard, plastics, metals are easily separated, but it should be considered that for effective recycling, simple separation into macro-groups is not enough. By way of non-limiting example, considering plastic materials, each material has its own physical-chemical properties, which makes it particularly suitable for specific applications and requires companies specialised in its recycling. Therefore, although the problem of sorting plastics and materials of other kinds into chemically and physically homogeneous families is determining, as of the date of this document there are no known industrial sorting systems that carry out the sorting of materials of given types operating on masses of waste that have not already been separated, where sorting is carried out with limited costs and times and with minimum human intervention.
In view of above situation, it would be desirable to have a waste sorting system that, besides limiting and possibly solving the problems typical of the condition illustrated above, defines a new standard in the sector.
The present invention relates to a waste sorting system. In particular, the present invention refers to a waste sorting system designed to separate substances upstream of a recycling station. More in detail, the present invention refers to a waste sorting system designed to separate substances upstream of a recycling station for inert materials and plastics.
The problems set forth above are solved by the present invention according to at least one of the appended claims. According to a preferred non-limiting embodiment of the present invention, there is provided a waste sorting system comprising a tank for collecting recyclable material and a sorting unit comprising a first sorting station connected to said tank through a transport device of said recyclable material and a first sorting basin containing a first liquid solution of given density to separate, according to Archimedes' principle, said recyclable material into a first material phase of first selection and a second material phase of first submersion; said first sorting basin is delimited at the bottom by a first lower collection portion; said sorting unit comprises first scraper means associated with said first sorting basin for collecting said first phase from a free surface of said first liquid solution and first wash means of said first phase; said first lower collection portion being passed through by a first conveyor.
Further features and advantages of the sorting system according to the present invention will be more apparent from the following description, set forth with reference to the accompanying figures illustrating some non-limiting examples of embodiment thereof, in which identical or corresponding parts of the device are identified by the same reference numbers. In particular:
In
This first conveyor 11 comprises a first tubular transport channel 110 provided with respective first transport branches RT and at least one discharge outlet BS through which a first flexible member 112 that engages the first channel 110 passes and comprises a plurality of discs 114. As can be seen in
The first station 10 further comprises a first drying device 10E and/or a first packaging device 10P located downstream and connected to the first wash means 18 by a second conveyor 182 similar to the first. To simplify the drawing, the first drying device 10E and the first packaging device 10P have been illustrated as coincident, even if, as one might imagine, in actual fact these are two physically distinct devices.
The sorting unit U further comprises a second sorting station 20, which in turn comprises a second sorting basin 24 connected to the first lower portion 140 through the first conveyor 11. This second sorting basin 24 contains a second liquid solution L2, the density of which is given and greater than the density of the first liquid solution L1 in order to separate the first phase F1 into a third material phase F3 of second selection and a fourth material phase F4 of second submersion, according to Archimedes' principle. The sorting unit U further comprises second scraper members 26 associated with the second sorting basin 24 to transfer the third phase F3 from a free surface of the second liquid solution L1 to a second wash device 28 through a transfer channel 27, in which the third phase F3 is purified by the second liquid solution L2.
The second station 20 further comprises a second drying device 20E and/or a second packaging device 20P positioned downstream and connected to the second wash means 28. Also in this case, for the sake of simplicity in the drawing the second drying device 20E and the second packaging device 20P are illustrated as coincident even if, as one might imagine, in actual fact these are two physically distinct devices.
Again with reference to
Moreover, the second wash device 28 comprises a second wash basin 280 containing water or a wash liquid and connected to the second drying device 20E and/or to the second packaging device 20P through a fourth conveyor 282 of the same type as the second conveyor 182.
It may be useful to specify that the first conveyor 11, the second conveyor 182, the third conveyor 21 and the fourth conveyor 282 are of the same type described above. Use of the system illustrated above is easily understood from the foregoing description and does not required further explanation. Moreover, it may be of use to specify that the aforesaid process for sorting submerged material phases of different and increasing specific mass from recyclable material MR can be carried out with any number of sorting stations, where each sorting station will comprise a sorting basin containing a liquid solution of given and gradually increasing density for each further sorting station. Therefore, the decision to describe and illustrate the system 1 with only two sorting stations has the sole purpose of schematically describing a simplified modular system in which the recyclable material MR can be separated into a plurality of phases F1 . . . Fn of different density, the number “n” of which can be defined based on specific needs, as can the number “n” of phases contained in the recyclable material MR fed to the sorting basins from the tank S.
Moreover, it may be of use to specify that in order to facilitate the wettability of the bodies submerged in the sorting basins 14 and 24 of the system 1, hence to improve the tendency to sink of the materials to be sorted in the liquid solutions (indicated as L1 and L2 in the embodiment described above) under the action of gravity and without the interference of gas microbubbles, typically air, adhering to these bodies, surfactants can be added thereto. Moreover, antifouling products can be used to prevent the development of phenomena of fermentation and the consequent formation of gases and unpleasant odours.
In actual fact, these products (surfactants and antifouling agents) can also be added to the water or to the wash liquids contained in the first wash basin 180 and in the second wash basin 280. In the case in which running water is used for washing, the addition of these products is superfluous.
Finally, it is clear that the system described and illustrated herein can undergo modifications and variants without departing from the scope of protection of the present invention.
Based on the description above, it is easily understood that the system 1 is suitable to solve the problems of the state of the art illustrated above.
Number | Date | Country | Kind |
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102019000013347 | Jul 2019 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IB2020/057137 | 7/29/2020 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2021/019451 | 2/4/2021 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2734629 | Menzies | Feb 1956 | A |
4073661 | Buzga | Feb 1978 | A |
6644572 | Cases | Nov 2003 | B1 |
20020153285 | Arakane | Oct 2002 | A1 |
20030141225 | Liddle | Jul 2003 | A1 |
20050274651 | Daniels | Dec 2005 | A1 |
20150251191 | Flores | Sep 2015 | A1 |
20190321831 | Previero | Oct 2019 | A1 |
Number | Date | Country |
---|---|---|
105728173 | Jul 2016 | CN |
106273070 | Feb 2019 | CN |
106273070 | Feb 2019 | CN |
4023434 | Jan 1992 | DE |
4130645 | Mar 1993 | DE |
4217464 | Dec 1993 | DE |
102014220330 | Apr 2016 | DE |
0980712 | Feb 2000 | EP |
2619025 | Feb 1989 | FR |
MI20101870 | Apr 2012 | IT |
101459345 | Nov 2014 | KR |
20160056152 | May 2016 | KR |
101638182 | Jul 2016 | KR |
20190074706 | Jun 2019 | KR |
WO-9407671 | Apr 1994 | WO |
WO-2011007837 | Jan 2011 | WO |
Entry |
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International Search Report and Written Opinion Received for the PCT Application No. PCT/IB2020/057137, dated Nov. 23, 2020, 10 pages. |
Number | Date | Country | |
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20220258175 A1 | Aug 2022 | US |