Abstract
Screening media is arranged to screen oversized material, the media having a main body and a plurality of openings extending through the main body between an upward facing contact face and a downward facing bottom face. A textured pattern is provided at the contact face to provide a roughened surface for the partial entrapment of material fines. Such a configuration protects the screen media from aggressive contact with the material to be screened and provides a bedding layer that is maintained by material-on-material attrition during bulk material flow over the media.
Claims
1. A screening media arranged to screen material, the media comprising: a main body having a contact face arranged to be upward facing to contact material to be screened and a bottom face arranged to be downward facing, the main body having a thickness defined between the contact and bottom faces; a plurality of openings extending through the thickness of the main body between the contact and bottom faces; and a repeating textured pattern provided along the entire contact face in between the plurality of openings, wherein the pattern is formed by peaks and troughs at the contact face to form a plurality of cavities or pockets, a depth of the cavities or pockets of the pattern being defined as a separation distance between the peaks and troughs in a plane extending parallel to the thickness of the media, the peaks of the textured pattern being formed by crests and the valleys and the troughs being formed by generally smooth, curved or rounded valleys extending between the crests and square or rectangular shaped peaks.
2. The media as claimed in claim 1, wherein the main body is a single piece of material.
3. The media as claimed in claim 1, wherein the main body includes at least a first layer and a second layer, the first and second layers being bonded or attached together to form a composite structure, the first layer defining the contact face and the second layer defining the bottom face.
4. The media as claimed in claim 3, wherein the first layer includes a first material and the second layer includes a second material, a hardness of the first material being less than a hardness of the second material.
5. The media as claimed in claim 3, wherein a thickness of the first layer is greater than a thickness of the second layer.
6. The media as claimed in claim 1, wherein the depth of the pattern is in a range of 0.05 mm to 10 mm.
7. The media as claimed in claim 6, wherein the range of the depth is 0.1 mm to 8 mm.
8. The media as claimed in claim 1, wherein the thickness of the media between an uppermost part of the contact face and the bottom face is in the range of 1 mm to 20 mm.
9. The media as claimed in claim 8, wherein the range is 1 mm to 10 mm.
10. The media as claimed in claim 1, wherein a width, length or diameter of each of the openings in a plane perpendicular to the thickness of the media is in a range 1 mm to 50 mm.
11. The media as claimed in claim 1, wherein a cross-sectional area of the openings in a plane perpendicular to the thickness of the media is generally uniform or increases through the thickness of the main body between the contact and bottom faces.
12. The media as claimed in claim 1, wherein at least first regions of the contact face are generally planar, said first regions representing peaks of the pattern that are raised relative to second regions representing troughs of the pattern.
13. The media as claimed in claim 1, wherein the pattern extends over all or a majority of the contact face.
14. The media as claimed in claim 1, wherein a depth of the pattern represented by a separation distance between peaks and troughs of the pattern at the contact face is in a range of 5% to 70% of a total thickness of the media between the bottom face and the peaks of the contact face.
15. A screening apparatus arranged to screen bulk material, the apparatus comprising: a plurality of support beams; at least a pair of sidewalls; and the screening media as claimed in claim 1 mounted upon the support beams and extending between the sidewalls.
Description
BRIEF DESCRIPTION OF DRAWINGS
(1) A specific implementation of the present invention will now be described, by way of example only, and with reference to the accompanying drawings in which:
(2) FIG. 1 is a perspective view of part of a screen deck having lengthwise and widthwise extending support beams to seat screening media between respective sidewalls according to a specific implementation of the present invention;
(3) FIG. 2 is a perspective view of the screening media forming part of the screen deck of FIG. 1;
(4) FIG. 3 is a magnified section view through part of the screening media of FIG. 2;
(5) FIG. 4 is a perspective magnified view of a part of the screening media of FIG. 2;
(6) FIG. 5 is a further magnified view of a region of the contact face of the screening media of FIG. 2 having a textured pattern formed by peaks and troughs according to a specific implementation of the present invention;
(7) FIG. 6 is a side elevation end view of the textured pattern at the contact face of FIG. 5.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENT OF THE INVENTION
(8) FIG. 1 illustrates a part of a screening apparatus (or screen deck) 10 in which a mat-like screen media 11 is pre-tensioned to extend lengthwise and widthwise between a pair of respective sidewalls 12. Media 11 is supported at its underside by a plurality of lengthwise extending beams 13 that are in turn mounted on a lower support frame 14 formed from one or a plurality of cross beams extending between sidewalls 12. Media 11 may be pre-tensioned in the widthwise direction between sidewalls 12 and/or in the lengthwise direction between a first end and a second end (not shown) where the length of the media 11 corresponds to a flow direction of the material to be screened indicated generally by arrow 15.
(9) Referring to FIGS. 2 and 3, media 11 comprises a generally planar overall shape profile having a generally planar contact face 16 and a generally planar opposed downward facing bottom face 17. In use, contact face 16 is intended for contact with the material flow 15 whilst bottom face 17 is intended for contact with the support beams 13 either directly or indirectly via intermediate mounting shoes or attachment braces. Both the contact and bottom faces 16, 17 are generally planar. However a textured pattern is provided at contact face 16 that accordingly comprises a surface roughness relative to bottom face 17 that may be considered to be relatively smooth or non-profiled in comparison. A plurality of openings 18 extend completely through a thickness of media 11 so as to extend between the contact and bottom faces 16, 17. Accordingly, and in use, as the bulk material to be screened flows in a lengthwise direction along media 11 (between sidewalls 12), appropriately sized (relatively smaller) particles or pieces fall through openings 18 whilst oversized pieces are retained at contact face 16.
(10) Referring to FIGS. 3 to 6, screen media 11 according to the specific implementation is formed as a two-piece composite having an uppermost first layer 19 and a lowermost second layer 20. First layer 19 is formed from a rubber material whilst second layer 20 is formed from a polyester material having a hardness greater than that of first layer 19. First layer 19 comprises an opposed downward facing surface 21 that is bonded to an upward facing surface 22 of second layer 20. According to the specific implementation, bonding between surfaces 21 and 22 is achieved by vulcanisation of first layer 19 on second layer 20. A thickness B in a plane perpendicular to the contact and bottom faces 16, 17 of the first layer 19 is greater than a corresponding thickness C of the second layer 20 such that a total thickness A of the media 11 (represented by layers 19 and 20) is defined between contact face 16 and bottom face 17. According to one specific implementation, a thickness of first layer 19 is in a range 1 mm to 6 mm and the thickness C of second layer 20 is in a range 0.4 mm to 1.0 mm. According to further specific implementations, screen media 11 may comprise a plurality of second layers 20 attached or bonded together to form a composite second layer 20. The function of second layer 20 is to provide rigidity and support to the relatively softer first layer 19. Accordingly, enhanced stiffness and strength may be achieved by increasing the number of second layers 20 with the affect that the total thickness A of the screen media 11 is increased. According to one specific implementation, a thickness A of the screen media 11 may be in a range 2 mm to 4 mm, 4 mm to 6 mm or 6 mm to 8 mm where the second (reinforcement) layer 20 comprises a thickness C of 0.5 mm to 1.0 mm; 1.0 mm to 2.0 mm or 1.5 mm to 2.5 mm. As will be appreciated, the size of the openings 18 within the media 11 may vary depending upon the size or grade of the media 11. According to the specific implementation, openings 18 comprise a generally rectangular cross sectional profile (in the plane of the contact face 16) and comprise a width D and a corresponding length in a range 1 mm to 50 mm, typically 10 mm to 20 mm. Accordingly, the contact face 16 is defined in part by what may be regarded as cross beams 27 that extend between and at least partially define the openings 18. A relative width of the cross beams 27 (in a plane of contact face 16) is in a range 30% to 60% of the width (diameter or length) D of the openings 18. The cross sectional shape profile of the openings 18 is uniform through the thickness of a media 11 between the contact face 16 and the bottom face 17. That is, the width (length or diameter) D of the openings 18 is the same and uniform at the contact face 16 and at the bottom face 17. As illustrated in FIG. 4, openings 18 are defined by sidewalls 25 and 26 that also define, in part, cross beams 27. Accordingly, the contact face 16 and the bottom face 17 at the cross beams 27 are defined between respective exit ends 28 of openings 18 extending through media 11, with the exit ends 28 provided at both the contact and bottom face 16, 17. According to further embodiments, the width (length or diameter) D of the openings 18 increases through the media 11 in a direction from the contact face 16 to the bottom face 17 such that a corresponding cross sectional area of the openings 18 increases from the contact face 16 to the bottom face 17. Such an arrangement may be beneficial to reduce the likelihood of blinding of the openings 18 by the flow of material.
(11) According to the specific implementation, the textured pattern provided at contact face 16 extends over the entire contact face 16 including the cross beams 27 defined between the exit ends 28 of the openings 18. The textured pattern is formed from peaks 23 and respective troughs 24 that collectively define a repeating pattern at contact face 16. Referring to FIGS. 5 and 6, the textured pattern may be created conveniently by pressing a woven mesh (or other substrate) into the first layer 19 (when formed from a rubber material) as part of the vulcanisation process. Once the mesh is removed, an imprinted pattern is formed corresponding to the shape profile of the woven mesh so as to define the peaks 23 and troughs 24. As will be appreciated, the shape of the textured pattern at the contact face 16 may be achieved by selecting the appropriate dimensions and cross sectional shape profile of the warps and wefts of the imprinting mesh. According to the specific implementation, the textured pattern at contact face 16 is formed by troughs 24 that are continuously curved which are in turn formed by the wefts and warps having a generally circular cross sectional profile.
(12) As illustrated in FIGS. 3 and 6, a relative depth E of the textured pattern at the contact face 16 (defined as the separation distance between the peaks 23 and troughs 24 in a plane perpendicular to the plane of the media 11) is much less than the total thickness A of the media 11 and the thickness B of the first layer 19. In particular, the distance E may be in a range 0.5 mm to 5 mm depending upon the thickness B of the first layer 19. Such a configuration provides a surface roughness at contact face 16 whilst ensuring first layer 19 comprises a sufficient thickness to achieve the desired structural strength of the media 11 capable of being pre-tensioned between sidewalls 12. In particular, depth E may extend in a range 5% to 50% of thickness B of first layer 19.
(13) In use, as material to be screened flows across the media 11 in direction 15, relatively small particulates of the material are deposited and at least partially entrapped by the textured pattern defined by peaks and troughs 23, 24. The material particles or fines accumulate at the textured pattern so as to build a protective bed or layer of material coating and protecting the contact face 16. Accordingly, frictional contact resultant from the conveyed material is not translated directly to first layer 19 but instead involves material-on-material contact between the primary flow of material and the built material bed. Providing a generally uniform textured pattern a contact face 16 (i.e., formed by peaks and troughs 23, 24 of generally the same height and depth over the entire contact surface 16) ensures a generally uniform wear protection for the media 11 and in particular first layer 19. As will be appreciated, a depth of the protective bed may be varied according to variation of distance E corresponding to a depth of the textured pattern between peaks and troughs 23, 24.
