The present invention relates to magnetic separation devices that separate ferrous and other magnetic contaminants from a stream of material passing through the device.
Disclosed in Australian Innovation Patent No. 2007100714 is a variable aperture screen. The screen has a base with a plurality of magnetic bars that are spaced by apertures. Steel items, in the material passing through the screen, are removed by being attracted to the bars: The bars consist of two sets, with relative movement between the sets adjusting the apertures between the bars. Each set of bars is mounted on a base so that the bars of each set are moved in unison.
A disadvantage of the above described screen is that it is generally complex and therefore expensive to manufacture. A further disadvantage is that frequently a set of bars that is being adjusted may be difficult to move.
Many situations exist in the Food industry where, because of increased regulation and standards, it becomes necessary to upgrade existing older style grate type magnets. A number of problems exist in respect of carrying out the upgrade, those problems include:
Due to varying product characteristics and lump sizes it is difficult for manufacturers of grate magnets to initially propose an ideal gap between magnet bars which both minimizes blockage and maximizes magnetic separation efficiency. Prior devices provide long horizontal slot/s or numbers of holes into which bars can be added to adjust the gap or removed to increase the gap between the bars. Uncovered holes or portion of slots is also not suitable for hygienic applications. Because modern magnet bars are extremely powerful and forcefully attracted to each other, it is unsafe and impractical to completely remove or unscrew such bars in order to effect gap adjustment.
In a column of falling material, there may be different densities of material. The centre of the column may be denser than the extremities.
Issues calling for replacement of grate magnets include:
In the following description a screen is also intended to mean a grate.
Magnetic separation devices are known in which a substance (such as a gas, liquid or powder) is passed through the device for the purposes of removing ferrous and other magnetic materials. These previous devices have a number of magnetic fingers that extend transverse of the material flowing through the device.
A first disadvantage of known liquid or powder magnetic separation devices is that they are difficult to clean. A further disadvantage is that it is often necessary to support the magnetic bars at both ends, that is the bars are attached to an end plate as well to a door or lid. A still further disadvantage is that in the use of high powered magnets, when they are being placed in a machined outer housing of the device, the magnets are attracted and hold tightly to the sides of the device. This causes difficulties in respect of sealing and centrally placing the lid. The effect is a problem when the housing is a machined casting and becomes work hardened and therefore magnetically susceptible even though it is an austenitic stainless steel.
It is the object of the present invention to overcome or substantially ameliorate at least one of the above disadvantages or problems.
There is disclosed herein a screen including:
Preferably, each of the first set of bars and/or each of the second set of bars is mounted on the base each for independent movement relative to the bars.
Preferably, the screen is adapted for flow of a substance through the screen in a predetermined direction generally normal to the bars, with movement of the first and/or second set of bars being in said direction.
Preferred, said base is a single support member, with each of the bars supported by the support member.
Preferably, the support member is a plate.
Preferably, the base has a plurality of slots that provide for movement of the first and/or second set of bars relative to the base.
Preferably, said slots are elongated in said direction.
There is further disclosed herein a magnetic screen assembly to be mounted in a duct along which a flowable substance is to pass so as to pass through the screen, the assembly including:
Preferably, said base includes an end wall to which the bars are attached and extend from, and a pair of side members extending from and fixed to the base, the side members extending from the base in a direction generally parallel to the bars.
Preferably, each of the bars extends from the end wall in a cantilevered manner so as to be solely supported thereby.
Preferably, each of the side members terminates at a position remote from the end wall in an end extremity, with the bars being exposed adjacent the end extremities for cleaning purposes.
There is further disclosed herein in combination a duct, through which a substance is to flow in a predetermined direction, and said assembly, said duct providing a housing within which the assembly is located so as to be movable relative thereto between the screening position and the cleaning position, with said bars extending generally transverse relative to said direction.
Preferably, the base is movable between the screening position and the cleaning position in a direction generally parallel to the bars.
Preferably, said housing has a support to support the base in the cleaning position.
Preferably, said housing includes guides to aid in movement of the base between the screening and cleaning positions.
Preferably, a tray is attached to the housing and is located below the bars when the base is in the cleaning position.
Preferably, said housing has an opening through which the bars move when the base moves from the screening position to the cleaning position, with the base spaced inwardly of the housing from the opening when the base is in the cleaning position.
There is also disclosed herein a magnetic separation device including:
Preferably, said device has an opening opposite said end wall via which said assembly is moved to be located in said chamber or removed for cleaning.
Preferably, said separator includes a lid to close said opening.
Preferably, said plate has a plurality of apertures through which threaded fasteners pass to secure the magnets to the base.
A preferred form of the present invention will now be described by way of example with reference to the accompanying drawings wherein:
In
The assembly 13 includes a base 14 that is supported by the housing 12 for movement in a direction 15 that is generally perpendicular to the direction 11. The base 14 has an end wall 16 to which there is attached a plurality of magnetic bars 17 that extend in a cantilevered manner from the end wall 16. Fixed to the end wall 16 are two side members 18 that are generally parallel and transversely spaced and are joined by the base 16. The side members 18 extend longitudinally generally perpendicular to the direction 11, that is parallel to the direction 15. Preferably, the housing 12 has supports and/or guides in the form of rollers 19 that support the assembly 13 for movement between its two positions.
Preferably, there is fixed to the housing 12 a mounting 20 that supports a tray 21 and a pair of support members 22 upon which the base 14 and therefore the assembly 13 rests when in the cleaning position. Preferably, one or more threaded members 23 are attached to the members 22 and are moved into engagement with the supports 18 to retain the assembly 13 in the cleaning position.
Preferably, the tray and/or support members -22 are removably attached to the housing 12 by means of the mounting 20.
In the embodiment of
The end wall 16 includes a plurality of slots 27 that extend in the direction 11 through which the threaded shaft 28 of the threaded fastener 26 passes to engage the end portion 24. By being elongated in the direction 11, the slots 27 provide for independent relative movement between each of the bars 17 and the end wall 16. However it should be appreciated that the end portion 24 and threaded fastener 26 are shaped so that when the bars 17 are located in their uppermost and lowermost positions, the slots 24 are still covered. This prevents the substance passing along the duct 10 becoming lodged and retained in the slots 27. It should be appreciated that in the embodiment of
By being able to adjust the distance between adjacent bars 17 and therefore the aperture between adjacent bars 17, the assembly 13 can be adjusted to suit the substance passing through the duct 10.
In the embodiment of
In the above described preferred embodiments, the base 14 is an open ended drawer, that is the end wall 16 and side members 18 provide a draw which is opened between the end extremities 32 of the members 18. This enables the use of a tubular cleaning tool that is to pass along each of the bars 17 (when in the cleaning position) to remove material attracted to the bars 17. The removed material is then collected in the tray 21.
In
Mounted in the chamber 113 is a magnetic assembly 118 that includes a base 119 from which there extends a plurality of elongated magnets 120, each of the magnets 120 terminating with a free end extremity spaced from the base 119. In this embodiment the base 119 is generally flat, together with the end wall 114 so that the base 119 may sit flush against the end wall 114. More particularly if the device 110 is oriented so that the magnets 120 extend vertically, then the end wall .114 and base 119 are generally horizontally oriented.
The magnets 120 are secured to the base 119 by means of threaded fasteners 121 that pass through passages in the base 119 to threadably engage in threaded passages in an end extremity of the magnets 120. Preferably, the magnets 120 are each flared at their end adjacent the base 119 to aid in securing the magnets 120 securely fixed to the base 119.
Preferably, the central magnet 120 is provided with an eyelet 122 that is engagable with a hook tool to aid for insertion and removal of the assembly 118 with respect to the chamber 113.
The body 111 has an upper opening 129 (surrounded by the upper lip of the cylindrical wall 112) that is closed by means of a lid 124. The assembly 118 is movable through the opening 129 for insertion and removal.
The magnets 120 extend away from the base .119 in a predetermined direction 123, while material passes through the chamber 113 in a predetermined flow direction 125. The direction 125 is generally transverse (and more preferably normal) to the direction 123. Accordingly the magnets 120 extend transverse the direction 125 of flow of material through the chamber 113.
Each of the magnets 120 is cleanable by means of a cleaning tool 126. The cleaning tool 126 is of a hollow cylindrical shape so that it may pass along and clean the external surface 127 of each magnet 120. After removal of the assembly 118 from the chamber 113 the tool 126 passes down each magnet 120 to move collected material towards the base 119.
Preferably, the base 119 has apertures 128 that allows liquid to drain past the base 119 when it moves through the chamber 113.
Number | Date | Country | Kind |
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2010902197 | May 2010 | AU | national |
2011900789 | Mar 2011 | AU | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/AU11/00507 | 5/2/2011 | WO | 00 | 2/5/2013 |