A multiple point separation apparatus for the removal of magnetic particles from gold bearing sands provides one or more magnetic separator assemblies along a sluice channel to remove the magnetic particles using a spinning strong magnet within a channel platform, removing the magnetic particle where they are scraped from the platform and directed to an evacuation slot where they are disposed of as waste, while the non-magnetic particles are left within the sluice for further separation and processing to remove the precious metal particles contained therein. The apparatus may be used as a wet or dry sluice.
A preliminary review of prior art patents was conducted by the applicant which reveal prior art patents in a similar field or having similar use. However, the prior art inventions do not disclose the same or similar elements as the present magnetic separator, nor do they present the material components in a manner contemplated or anticipated in the prior art.
Magnetic separation of ore has been used for ore suspended is liquids or for the application to dry ores materials. In U.S. Pat. No. 954,015 to Bent, an auger compels a stream of liquid bearing ore through a horizontal tube with a magnet drawing the magnetic particles laterally where the magnetic particles are evacuated in a descent while the tailings in the suspension are carried upward by an upward flowing stream. A vertical separator sifts ore through a mesh screen where the particles fall into an upper cylinder into a liquid within the tube pushed by an eddy current within the tube influenced by a DC biased current and forces the particles into lateral multiple ore extractors which gather the metallic ores and extract them based upon their distinct permeability and ohmic resistance. See U.S. Pat. No. 4,416,771 to Henriquez. The cores are charged with an alternating current of variable frequencies. “Influenced particles” are moved aside while “uninfluenced particles” continue downward into the bottom of the vertical tube. A similar liquid suspension separator is shown in U.S. Pat. No. 8,684,185 to Ries which uses a magnetic coil to influence magnetic particles away from non-magnetic particle within a mixture of magnetic and non-magnetic particles within the liquid suspension.
U.S. Pat. No. 4,743,364 to Kyrazis runs a mixed power by means of a belt drive through a magnetic field, wherein the magnetic particles are lifted into an upper passage while a lower passage evacuates the non-magnetic particle not influenced by the magnetic field.
Rotation has also been used in the separation of metallic ores. In U.S. Pat. No. 6,138,833 to Matsufuji, a method is defined which utilizes centrifugal force provided by an air jet pump to move placer gold sand particles through a pipe and removing the particles through the specific gravity distinctions of the particles and separating the placer gold from the other particles through a magnetized cylinder with a high magnetic field, between 5000 and 200,00 gauss, against an inner wall of the magnetized cylinder. A much more simple rotating cylinder is shown in U.S. Pat. No. 4,512,881 to Shumway, which is a simple rotating drum cylinder with an inner spiral auger with large particles sent down the rotating drum while the smaller gold containing black sands are released through a plurality of small openings in the drum allowing the black sand to be separated from the more course materials in the materials run through the drum. A vibrating cradle is also employed within the machine.
A rotating magnetic wand is demonstrated in an unrelated massage device to Kleitz, U.S. Pat. No. 5,632,720, which discloses a wand with an inner rotating magnet which emits an series of magnetic waves which allegedly enhance vascular circulation when held over a body part between 18 and 24 inches away from the body part. Although used in a wholly unrelated field of art, it does include a wand with a rotating magnet within the wand.
Black sand gold mining has grown in popularity due to the recent increase in the price of gold and the development of less expensive technology for the part time prospector and enthusiast. Black sands are found in several geographic locales across the globe, primarily in places containing placer deposits or on beaches near prior volcanic activity. The black sands are known to contain precious metals including gold, thorium, titanium, tungsten, and zirconium, and gemstones including garnet, topaz, ruby, sapphire, and diamonds. Due to the increase in the occasional prospectors, large scale placer mining has been restricted, commonly requiring a license or permit near lakes, rivers and streams and especially on public beaches. Small scale or hobby scale mining has also been recently restricted or limited to small quantity mining and often away from the water where the black sands are know to deposit.
As seen in the prior art, using a magnet for primary separation of magnetic deposits from non-magnetic materials has been known in the field of placer mining of black sands. However, none of the prior art provides a magnetic separator using the simple components and mechanical features of the present magnetic separator apparatus.
The primary objective of the invention is to provide a simple device attaching to a local power supply which attracts magnetic materials comprising black sands passing through a wet or dry sluice and, by use of a spinning motion, causes the magnetic particles to be forcibly removed from the non-magnetic material by inertia and/or centrifugal force and further evacuated from the mixtures. A second objective is to provide the apparatus to withdraw the magnetic material and to adapt for a wet or dry mixture of materials, allowing the non-magnetic materials to pass through the sluice for further classification and separation. Unlike the previously patented device by the same inventor, which was a hand held version of the same type concept, the present invention is provided for an industrial and commercially applied apparatus using a local drive means and incorporated as a component in industrial sized applications and machinery where separation of magnetic particles is desire and useful.
The following drawings are informal drawings submitted with this provisional patent application.
A magnetic separator apparatus 10 for the removal of magnetic particulate materials A from gold bearing sands B and passing valuable non-magnetic gold bearing materials C along the apparatus without removal, applied to wet or dry use, provides a section of sluice box 20 defining a lower flat tray 22 and a pair of lateral sides 24 between which is installed at least one magnetic separator assembly 30. In
Each magnetic separator assembly 30,
Each magnetic cylinder chamber 52 receives and encloses a respective rotating magnetic rod assembly 60,
When installed within the magnetic cylinder chamber 52 of the magnetic cylinder tube 50, an outer portion 66 of each bearing 65 engages a respective open end 54 of the magnetic cylinder chamber 52 either by insertion within the open end 54,
As the central rod 62 is turned by the common drive X that engages each drive pulley 69, a moving rotational magnetic field is created applied to an outer surface 55 around the magnetic cylinder chamber 52, which first uplifts magnetic particles A contained in the gold bearing sands B and moves them around the non-magnetic formed plate 35 passing them along the upper surface 38 towards the evacuation cylinder 40 where the vacuum occurring within the evacuation cylinder 40 sucks the magnetic particles A through the lower break 45 and passes them off for waste disposal through the evacuation hose 46. This separation and movement is demonstrated in
Operation of the apparatus 10 occurs by selecting the angle and pitch of the sluice box 20 desired by the user based upon the particulate materials being separated and whether the application will use a wet or dry material process. The common drive X is then activated turning each of the at least one drive pulleys 69 to commence rotation and operation of each magnetic separator assembly 30, the drive pulleys 69 attaching a common drive belt W connected to the vertical axis common drive X. The gold bearing sands B are passed down the flat tray 22 of the sluice box 20, with each magnetic separator assembly 30 withdrawing a subsequent quantity of magnetic particles A from the passing gold bearing sands B, allowing the valuable non-magnetic gold bearing material C to pass below each magnetic separator assembly 30 unaffected by the magnetic fields. The materials A-C may be passed through the sluice box 20 as many times as desired by the user or until the user is satisfied that he has gained complete separation and evacuation of the majority of the magnetic particles, leaving behind a purified quantity of valuable non-magnetic gold bearing materials C.
As indicated in the specification above, the magnetic particles A of the gold bearing sands B is of little or no value. There are no precious metals that are magnetic. The valuable non-magnetic gold bearing materials C, including gold, thorium, titanium, tungsten, and zirconium, and gemstones including garnet, topaz, ruby, sapphire, and diamonds, are not removed by this present apparatus. These potentially valuable materials flow through the sluice box and are not eliminated by the magnetic separator assemblies 30 as they are passed below the lower surface 37 of the non-magnetic formed plate 35 where they are collected for further processing and classification.
An irrigation system 70 is further provided for optional “wet” application,
The breakers 90 may be glued to the lower surface 86 of the upper plate 82, which would preferable provide contemporaneous breakdown of large clumps of the magnetic particles A by the breakers 90 during removal of the upper plate 82 for cleaning. It would also assure proper alignment of the breakers 90 upon reattachment of the upper plate 82 above the middle planer portion 36 subsequent to cleaning and prior to resumed processing. The breakers 90 are intended to disrupt the magnetic particles passed between the upper plate 82 and the middle planar portion 36 on its way to the lower break 45 of the evacuation cylinder 40, caused by particulate adhesion and surface tension of the moisture of the particulate material or due to the attraction of the particles while involved in the rotating magnetic field over the magnetic cylinder tube 50. They also function to reduce the area between the upper plate 82 and middle planar portion 36 to increase the effect of the vacuum force between the upper plate 82 and middle planar portion 36 towards the lower break 45. The diamond shaped breakers 90 and the illustrated placement in
Applicant claims the benefit of Provisional Patent No. 62/496,083, filed by the same inventor on Oct. 4, 2016.
Number | Date | Country | |
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62496083 | Oct 2016 | US |