The present invention generally relates to material sorters, and more particularly relates to an apparatus for sorting mixed-density materials.
In pursuit of a green economy, progressively more intensive recycling efforts are being undertaken. In separating construction debris to obtain cardboard from a debris mixture including wood and cardboard, for example, hand-sorting operations are required that can consume four hours per truckload of mixed-density material. The sorting is required because the machinery used to recycle cardboard is susceptible to damage from wood. Similar sorting problems arise with other types of mixed-density materials.
The present inventor, who has significant experience in material sorting, began work on developing a solution for speeding up the sorting process in February of 2009. What follows is the result of his efforts.
Accordingly, it is desirable to speed up the separation of mixed density materials. In addition, it is desirable to speed up any separation operation that involves separating a denser material from a less dense material. In addition, it is desirable to provide an apparatus for those purposes. In addition, it is desirable to have the apparatus be of economical design and easy to operate. Furthermore, other desirable features and characteristics of the present invention will become apparent from the subsequent detailed description, taken in conjunction with the accompanying drawings and the foregoing technical field and background.
The present invention has been tested and shown to reduce sorting time to about twenty minutes per truckload of mixed-density material. This reduction by a factor of more than ten is worth tens of millions of dollars annually to large processors of mixed-density material. The cost of applicant's invention is trivial compared to the cost of conveyor sorters. The floor space taken up by applicant's invention is trivial compared to the floor space taken up by conveyor sorters.
An apparatus is provided for assisting in sorting of dry mixed-density material into more dense and less dense piles. One of embodiment of the apparatus comprises a inclined panel having converging and diverging guide rail pairs in which mixed-density material is deposited at the top to the incline and then slides down the incline, impacting the guide rails during descent. The less dense material is slowed and directed in its descent by contact with the guide rails to a greater extent than the more dense material, resulting in separation of the more and less dense materials. In an embodiment in which the top guide rails are converging and the lower guide rails are diverging, the more dense material tends to be dropped at the bottom of the incline directly below the point at which the debris was deposited, and the lighter material, being more susceptible to the force of the diverging guide rails is dropped to the sides. The apparatus has specific applicability to sorting cardboard from wood in construction debris and general applicability to sorting other combinations of materials of significantly different densities.
A method is provided for sorting mixed-density material including the steps of providing the apparatus, depositing the mixed-density material at the top of the incline, and collecting the at least partially separated materials at the bottom of the incline.
A material sorter including: a rigid inclined panel having a top surface, a top portion of the top surface, and an inclined centerline; a guide rail abutting the top surface and coupled to the rigid inclined panel at an angle to the center line that is not parallel to the center line; and where a load of mixed-density material dumped on the top portion of the inclined plane will move downward to at least partially impact the guide rail, thereby changing a first downward path of lower density material of such mixed-density material differently than a second downward path of higher-density material of such mixed-density material, to assist in sorting the load of mixed-density material. The material sorter, where the guide rail includes a rotationally coupled guide rail, able to rotate slidingly on the top surface of the rigid inclined panel. The material sorter, further including a first actuator able to rotate the rotationally coupled guide rail. The material sorter, where the rotationally coupled guide rail and the rigid inclined panel are configured to support the rotationally coupled guide rail at two or more discrete rotational angles. The material sorter, where the guide rail includes first and second guide rails coupled together at respective first and second first ends to form an angled pair having an angle between the first and second guide rails and an apex pointing towards the top portion of the top surface of the rigid inclined panel. The material sorter, further including a second actuator able to rotate the first and second rotationally coupled guide rails to change the angle. The material sorter, where the guide rail includes third and fourth guide rails coupled near opposing sides of the rigid inclined panel and angled with first and second lower ends of such third and fourth guide rails, respectively, closer to the centerline than first and second upper ends of such third and forth guide rails, respectively. The material sorter, where the third and fourth guide rails comprise third and fourth guide rails rotationally coupled to the rigid inclined panel, able to rotate slidingly on the top surface of the rigid inclined panel. The material sorter, further including a third actuator able to rotate the third and fourth rotationally coupled guide rails. The material sorter, where the guide rail includes: a set of first and second guide rails coupled together at respective first and second first ends to form an angled pair having an angle between the first and second guide rails and an apex pointing towards the top portion of the rigid inclined panel, where the apex is near the centerline; a set of third and fourth guide rails coupled to the rigid inclined panel near opposing sides of the rigid inclined panel and angled with first and second lower ends of such third and fourth guide rails, respectively, closer to the centerline than first and second upper ends of such third and fourth guide rails, respectively. The material sorter, where the set of first and second guide rails coupled together includes a set of first and second guide rails rotationally coupled together. The material sorter, further including a third actuator able to rotate the first and second rotationally coupled guide rails to change the angle. The material sorter, where the set of third and fourth guide rails includes third and fourth rotationally coupled guide rails, able to rotate slidingly on the top surface of the rigid inclined panel. The material sorter, further including a first actuator able to rotate the third and fourth rotationally coupled guide rails.
A material sorter including: a rigid inclined panel having, a top surface, a top portion of the top surface, and an inclined centerline; one or more first guide rails abutting the top surface and coupled to the rigid inclined panel at a first angle to the center line that is not parallel to the center line; one or more second guide rails abutting the top surface and coupled to the rigid inclined panel at a second angle to the center line that is not parallel to the center line; and where a load of a mixed-density material dumped on the top portion of the inclined plane will move downward to at least partially impact the guide rail, thereby changing a first downward path of lower density material of such a mixed-density material differently than a second downward path of higher-density material of such a mixed-density material, to assist in sorting the load of mixed-density material. The material sorter, including a plurality of material sorters each having a corresponding plurality of different and distinct configurations of the first guide rail and the second guide rail, where each distinct configuration is adapted for assisting in sorting a correspondingly distinct mixed-density material. The material sorter, where the one or more first guide rails and/or the one or more second guide rails includes a rotational coupling to the rigid inclined plane; and further including an actuator for rotating each first guide rail and/or each second guide rail. The material sorter, where the first guide rail and/or the second guide rail includes a rotational coupling to the rigid inclined plane. The material sorter, further including one or more actuators for rotating one or more first guide rails and/or one or more second guide rails.
A material sorter including: a rigid inclined panel having, a top surface, a top portion of the top surface, and an inclined centerline; a first guide rail abutting the top surface and coupled to the rigid inclined panel at a first angle to the center line that is not parallel to the center line; a second guide rail abutting the top surface and coupled to the rigid inclined panel at a second angle to the center line that is not parallel to the center line; one or more actuators coupled to the rigid inclined panel and to one or more first guide rails and/or one or more second guide rail; and where a load of a mixed-density material dumped on the top portion of the inclined plane will move downward to at least partially impact the guide rail, thereby changing a first downward path of lower density material of such a mixed-density material differently than a second downward path of higher-density material of such a mixed-density material, to assist in sorting the load of the mixed-density material.
The present invention will hereinafter be described in conjunction with the following drawing figures, wherein like numerals denote like elements, and
The following detailed description is merely exemplary in nature and is not intended to limit the invention or the application and uses of the invention. Furthermore, there is no intention to be bound by any expressed or implied theory presented in the preceding technical field, background, brief summary or the following detailed description.
Converging guide rail 304 is attached, or coupled, to rigid panel 302. Diverging guide rail 306 is also attached, or coupled, to rigid panel 302. Guide rails 304 and 306 are preferably one to three feet high, and should be shorter than the height dimension of the higher density material in the mixed-density material to be sorted. In a particular embodiment, guide rails 304 and 306 may be outside the preferred range. Material sorter 300 is shown at an incline angle α of forty-five degrees, but angles α between thirty and seventy five degrees are in the preferred range, depending on the materials to be sorted. For sorting cardboard from construction debris, for example, an incline angle α of thirty-two degrees has produced the best results in testing. In a particular embodiment, the incline angle α may be variable and actuated by manual, mechanical, motorized, or hydraulic means. Preferably, the entire apparatus is less than twelve feet high.
Diverging guide rails 306 and 406 are covered by rigid panel 402 and form an apex 410 which points toward the top portion 414 and is on or near the inclined centerline 408. In a particular embodiment, rigid panel 402 may be omitted. Converging guide rails 304 and 404 direct the mixed-density material to be sorted in its gravity-powered travel down the inclined rigid panel 302 into diverging guide rails 306 and 406, slowing low density materials more than high density ones, and causing the light weight (low density) materials to move along a more outward path while the heavy (high density) materials hill more directly, thereby separating the materials on the floor in front of the material sorter 300. Guide rails 304, 306, 404, and 406 are shown as straight, but may, in various embodiments, be curved or angular. The height of guide rails 304, 306, 404, and 406 is not limited to constant heights. Converging guide rails 404 and 304 are positioned at a first angle to centerline 408. (See
Diverging guide rails 806 and 807 rotate slidingly on the top surface 412 of inclined rigid panel 302. Diverging guide rails 806 and 807 are coupled together by pivot 810 to form an angled pair having angle β. Diverging guide rails 806 and 807 may be covered with a two-piece cover, where one piece slides over another (not shown). In a particular embodiment, diverging guide rails 806 and 807 can be rotated separately by individual actuators. Guide rails 806 and 807 may be releasably fixed at two or more discrete rotational angles by releasable mechanical connection to the inclined rigid panel 302. For example, captive pins (not shown) on the guiderails 806 and 807 may be received in aligned holes (not shown) in the inclined rigid panel 302.
While at least one exemplary embodiment has been presented in the foregoing detailed description, it should be appreciated that a vast number of variations exist. It should also be appreciated that the exemplary embodiment or exemplary embodiments are only examples, and are not intended to limit the scope, applicability, or configuration of the invention in any way. Rather, the foregoing detailed description will provide those skilled in the art with a convenient road map for implementing the exemplary embodiment or exemplary embodiments. It should be understood that various changes can be made in the function and arrangement of elements without departing from the scope of the invention.
This application claims the benefit of U.S. provisional patent application Ser. No. 61/526,261 filed Aug. 22, 2011 by the same inventor.
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Number | Date | Country | |
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20130048544 A1 | Feb 2013 | US |
Number | Date | Country | |
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61526261 | Aug 2011 | US |