AU601052B2 - Screening arrangement - Google Patents

Description

COMMONWEALTH OF AUSTRALIA Patents Act 1952-1969 COMPLETE SPECIFICATION

(ORIGINAL)

Formn Application Number Lodged: Complete Arplication No.

Specification Lodged Published Priority: FOR OFFICE USE: Class 1a It en, l~lt M

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Int. Class Related art: Name of Applicant: Address of Applicant: Actual Inventor; TO BE COMPLETED BY APPLICANT POLYDECK SCREEN CORPORATION Compark 1-85 Davis Chapel Spartanburg, United States MANFRED FRANZ xit 79, Road, S.C. 29304, of America AXEL FREISSLE Address for Service: COLLISON CO, Potent Attorneys, 117 King William Street, Adelaide, South Australia, 5000.

Compilete Specification for the Invention entitled: SCREENING ARRANGEMENT The following statement is a full desc 'iption of this invention, Including the best method o' performing it known to mp us A0000oooo96 PATENT, TRAD MAf, <S DLSIGN SUO-O:I:C.

23 JU? 14 SOUTH AUSTiRALIA I Ir ;i 1; 2 THIS INVENTION relates to a screening arrangement. The invention relates in particular to a screening arrangement for screening particulate materials such as mineral ores. More particularly the invention relates to screening panels and to screen decks.

The applicant is aware of screening arrangements which are of a modular configuration comprising a plurality of panels which are releasably secured in a side-by-side relationship on a a support frame to thereby form a screen decl- It is also known to f0.°0 the applicant that more than one such screen deck can be provided 0 0 the one above the other so that material to be screened which S passes through the upper screen deck can fall onto the lower o 0 screen deck to be screened further so that thereby progressively o finer particles can be removed from the material being screened.

It is an object of the invention to provide a screening arrangement which includes more than one screen deck above each 0e'. other, which is compact and which has as few components as possible.

O f S° According to the invention there is provided a screening panel predominantly of a synthetic plastice material and having a rectangular periphery including a plurality of straight edges and o°0 further having a screening surface in which screening apertures are provided and having securing means adapted to secure the panel releasably in a side-by-side relationship with similar panels, the panel includng at least one spacer element along one peripheral edge of the panel and extending in a direction transverse to the screening surface of the panel and being integral and unitary with the panel so that in side view the panel is substantially L-shaped, the spacer element being adapted to space the screening surface of the panel from a second screening surface substantially parallel to the screening surface of the panel so that screened material passing through one of the screening surfaces can fall -3onto the other screening surface to be screened further by that screening surface.

The spacer element may be adapted to support the second screening surface above the screening surface of the panel so that the screening surface of the panel is spaced below the second screening surface. In this arrangement the securing means on the screening panel may comprise a plurality of deformable spigot-like protrusions spaced from each other along the peripheral region of the panel. The protrusions may adapted to fit in pairs with the protrusions of an adjacent simi] panel in complementary spaced apertures in a support frame. The protrusions may be solid. Alternatively, the protrusions may be half-tubular so that when such protrusions are fitted in pairs in o..oo the apertures of a support frame the protrusions form tubular bores into which securing pins may be fitted to spread the protrusions to engage a 15. the support frame.

Further securing means may be provided at the free end Jf thc spacer element adapted to releasably secure further screen.ig panels o, -,,form.ng the second screening surface to the screening panel so that the o, second screening surface is positioned above the screening surface of 2b. the panel. The securing means at the free end of the spacer element may S.o, include a plurality of spaced blind bores.

A sloping ridge may be provided at the side of the screening panel' remote from and parallel to the spacer element.

0 0 0° In an alternative arrangement, the spacer element may be adapted to space the screening surface of the screening panel above the second screening surface. In this arrangement the securing means on the screening panel may comprise spaced apertures along an edge of the panel and complementary apertures in the spacer element adapted to be aligned with the apertures of the panel, and securing pins adapted to be removably inserted into the aligned apertures to secure the panel to the spacer element.

Further securing means may be provided at the free end of the spacer element adapted to releasably secure the spacer element and thus the panel to a support frame. The securing means on the. space; element may be protrusions adapted to releasably engage complementary apertures in the support frame.

The securing means on the spacer element may be adapted to secure a further set of screening panels forming the second screening surface to the support frame.

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0001 I "1St 0 f 0 I 040 An aperture may be provided in a oideways direction through the spacer element to permit mater'~,l on the screening surface of the screening panel to flow in a sideways direction through the spacer element.

The invention further extends to a screen deck including at least two decks and a support frame supporting both decks, one deck comprising a plurality of screening panels in accordance with the invention arranged side-by-side, and the other deck comprising a plurality of further screening panels arranged side-by-side, the Lucks being vertically spaced from each other.

The screening panels in adjacent longitudinal rows of panels in at least one of the decks may be staggered from each other in a transverse direction.

The screening panels may have screening surfaces of synthetic plastics material, the screening panel then being substantially entirely of synthetic plastics material. Alternatively, the screening surface of the screening panel may be of metal in. the form of a metal sieve embedded in a surround of synthetic plastics material.

The invention is now described with reference to the accompanying drawings, in which: Figure 1 shows a plan view of a screening panel in accordance with the invention having a spacer element along one peripheral edge of the panel; Figure 2 shcws a side view of the screening panel shown in Figure 1; 4 4 0 t 0.

it Figure 3 shows on a enlarged scale a fragmentary section along III-Ill of Figure 1; Figure 4 shows an end view of the screening panel shown in Figure 2; Figure 5 shows a screening panel sixilar to the screening panel shown in Figure 1, but without a spacer element; Figure 6 shows a side view of the screening panel shown in Figure Figure 7 shows a fragmentary plan view of a screen deck comprising one screen panel as in Figure 1 in position on a support frame; Figure 8 shows a fragmentary plan view of a screen deck similar to that shown in Figure 7 but with three screening panels of Figure 1 in position on a support frame; Figure 9 shows a side view of the screen deck shown in Figure 8; Figure 10 shows on an enlarged scale a fragmentary section along line X-X of Figure 8; Figure 11 shows a fragmentary plan view of a double screen deck compri sing two screening panels of Figure 1 positioned over the screen deck of Figure 8; 2 C. Figure 12 shows a side view,, of the screen deck of- Figure 11; 4Figure 13 shows, on an enlarged scale, a fragmentary section along line XIII-XIII of Figure 11; Figure 14 shows a view similar to Figure 13 but with an alternative securing arrangement for the panels; Figure 15 shows a view similar to Figure 2 but with a ridge on the panel; Figure 16 shows an oblique fragmentary plan view of a double screen deck in accordance with the arrangement shown in Figure 12; Figure 17 shows a fragmentary diagraimmatic plan view of the top deck of the double screen deck shown in Figure 16; Fure 18shows diagrammatically a fragmentary side view of a double screen deck, including altern'.tive screening panels to those included in the double screen deck shown in Figure 1.2; Figure 19 shows diagrammatically a fragmentary side view of the lower deck of the double screen deck shown in Figure 18; Figure 20 shows a fragmentary plan view of the lower screen deck shown in Figure 19; P_ -6- Figure 21 shows a front end view of one of the screen panels forming the upper deck of the double screen deck shown in Figure 18; and Figure 22 shows on an enlarged scale a fragmentary sectional view of the double screen deck shown in Figure 18.

Referring to Figures 1 to 4 of the drawings, reference numeral indicates in general a screening panel which is of L-shape in side view and which is of a hard-wearing synthetic plastics material, for example polyurethane having a Shore hardness of 70 to 90, depending on the type of particulate material to be screened. The panel has a screening surface 22 including a plurality of screening apertures 24.

S"°o The panel has a plurality of protrusions 25 provided along the entire peripheral edge of the panel 20 as shown, or it may be provided along *o only some of the peripheral edges of the panel. The protrusions 26 are oBgq spigot-like of tapering configuration and with shoulders 28 which can S" abut a support frame in which the protrusions are fitted as shown in oa Figure 7. The protrusions 26 are of the same macerial as the panel and are integral with the panel and are resiliently deformable to permit o a the protrusions to be inserted into and to be' removed from apertures in 9- a support frame as shown in Figure The screening panel 20 further includes a spacer element which is integral and unitary with the panel and of the same material as the panel and projects above the screening surface 22. In the top go*o. surface 32 of the spacer element 30 there are provided three spaced socket's 34. Each socket 34 is lined with a metal sleeve 36 having an S" annular ridge 38 whose function is described with reference to Figure 13.

Referring to Figure 4, it is shown that the spacer element is of a frame-like configuration through which an aperture 31 is provided. The aperture 31 not only saves material but also pe:Utits material to be screened to flow through the aperture from one panel to the next, over the screen deck formed by the panels.

Referring to Figures 5 and 6, reference numeral 40 indicates a further screening panel similar to the screening panel 20 shown in Ma l i w Ii I- ur- t 4r, A AA A r\ -7- Figure 1 except that it does not have a spacer element 30. It has protrusions 42 similar to the protrusions 26 of screening panel 20. It further has a screening surface 44 in which are defined screening apertures 46 which are of a larger mesh size than the screening apertures 22 of the panel 20. The screening panel 40 is of the same or of a similar material to that of screening panel The screen panels 20 and 40 may be entirely or predominantly of synthetic plastics material, in which case the screening surfaces 22 and 44 may also be of synthetic plastics material. Alternatively, if desired, the screening surfaces 22 and/or 44 may be formed by metal sieves (not shown) embedded in the panels 20 and Referring to Figure 7, there is shown a screen deck comprising a support frame 48 with a screening panel 20 of Figure 1 positioned thereon. The support frame 48 is a latticework of steel sections of Lor U-cross-section. A plurality of apertures 50 are provided in the support frame 48, the spacing between the apertures 50 coiresponding to the spacing of the protrusions 26 of the panel 20 from each other, the protrusions 26 being shown in Figure 2. The panel) 2.0 i fitted, onto the support frame 48 by inserting the protrusions 26 into the apertures Figures 8 and 9 show a screen deck similar to that shown in Figure 7 except that three screening panels 20 are fitted adjacent each other in a side-by-side abutting relationship on the support frame 48.

The protrusions 26 on adjacent screening panels 20 are fitted in pairs into the apertures 50 in the support frame 48 as shown in Figure 10. As shown, the shoulders 28 on the tapering protrusions 26 abut the rim 52 of the frame 48 defining the aperture 50. Since the protrusions 26 are of a deformable synthetic plastics material they can be withdrawn from the apertures 50 to release the panels 20. It is also shown in Figure that the screening apertures 24 taper slightly downwardly in order to prevent blocking of the apertures by particles lodging therein.

Referring to Figures 11, 1.2 and 13, there is shown a double screen deck comprising two screening panels 40 of Figure 5 positioned on top of the screening panels 20 of the screen deck shown in Figures 7 and 8. The screening panels 40 are secured above and onto the screening -8- Spanels 20 along the top surfaces 32 of the spacer elements 30. The securing arrangement is shown in greater detail in Figure 13. The protrusions 42 on the screening panels 40 are secured in pairs in the sockets 34 provided in the top surfaces 32 of the spacer elements Ridges 43 on the tapering protrusions 42 engage the annular shoulder 38 provided in the metal sleeve 36 which lines each socket 34. By being of a deformable synthetic plastics material the protrusions 42 can be deformed to be withdrawn from the sockets 34 and thereby the screening panels 40 can be removed from the spacer elements 30 of the lower screening panels Referring further to Figure 12, it can be seen that the double screen deck there illustrated comprises the support frame 48, the first o deck of screening panels 20 on top of the support frame 48, and the 0" "t second deck of screening panels 40 secured on top of the screeniing OI, 3. panels 20. Thus, material to be screened is first deposited on the 0 4screening surface 44 of the uppermost screening panels 40 which have larger screen aperture sizes. Material which passes through the screen apertures 46 of the screening surface 44 drop onto the screening surfaces 22 of the lower screening panels 20 and are subjected to further screening. The screening surfaces 22 screen out material having a particle size smaller than the aperture size of the screening St. apertures 44 but larger than the aperture size of the screening apertures 24 of the screening surface 22. Material having a particle siz.e smaller than the aperture size of the apertures 24 passes through ,2r. the apertures 24. Thus the effect is that the material is screened progressively finer through the double screen deck formed by the S' screening panels 40 and In a further arrangement (not shown) a screen deck with more than two decks may be formed., This may be achieved, with reference to Figure 12, by fitting in the place of the upper deck of panels 40, a second deck of screening panels 20, and then fitting on top of the second screen of screening panels 20 the deck of screening panels Thereby a triple screen deck is formed.

Referring to Figure 14, there is shown an alternative securing arrangement to that shown in Figure 13 for securing the panels 40 to the -9spacer element 30. In this arrangement half-tubular protrusions 54 are provided on the panels 40 instead of the solid protrusions 42 shown in Figure 13. The half-tubular protrusions 54 are also fitted in pairs in the socket 34 provided in the top surface 32 of the spacer element When the protrusions are thus fitted, a loose pin 56 also of a synthetic plastics material is inserted into the bore formed by the two half-tubular protrusions 54. The pin 56 has a head 58, a stem 60; and a thickened portion 62 on the stem 60. When the pin 58 is thus insertod, the thickened portion 62 on the stem 60 forces the half-tubular protrusions 54 apart, the protrusions being of a deformable synthetic plastics material. Ridges 64 on the protrusions are thereby forced to engage the annular shoulder 38 on the metal sleeve 36 and thereby the 1 panels 40 are secured to the spacer element 30 via the shoulder 38 on the sleeve 36.

Referring to Figure 15, there is shown a screening panel identical to the screening panel 20 shown in Figure 2 except that it is provided with a ridge 23 on the screening surface 22 of the panel along an edge of the panel parallel to and remote from the spacer element The function of the ridge 23 is to prevent material to accumulate in the corner where the screening panel 20 abuts an adjacent screening panel as shown in Figure 10. As can be seen from Figure 10, no screening apertures can be provided in the corner region since the fixing protrusions 22 are provided in this region. The sloping ridge 23 deflects the material into the screening apertures 24 shown in Figure Referring to Figure 16, there is shown an oblique plan view of a double screen deck 66 formed in the manner described with reference to Figures 11 and 12. The double screen deck 66 includes a lower deck Ii consisting of screening panels 20 having scrsening surfaces 22 and 30. spacer elements 30, and an upper screen deck formed from screening panels 40 having screening surfaces 44. The support frame 48 shown in Figures 11 and 12 is not shown in Figure 16.

Referring to Figure 17, there is shown diagrammatically a fragmentary plan view of the double screen deck 66 shown in Figure 16, but with an alternative arrangement of the panels 40 in the top deck of the double screen deck. In this arrangement the panels 40 in adjacent j longitudinal rows are staggered from each other. The amount of staggering depends on how many fixing protrusions are provided on the i top panels 40. In this case, as shown in Figures 5 and 6, the panels S 5 have three protrusions 42 on each side. Thus, by staggering the panels Sby one protrusion, the amount of staggering is about one third of a I panel length i.e. the distance 68 is about one third of a panel length, and the distance 70 is about two thirds of the panel length. The effect of staggering the ptanels as indicated is that transverse joining lines are prevented from being formed across the screen deck, and thereby the panels 40 of the top deck are interconnected more securely.

Referring to Figures 18 to 22 there is shown an alternative double screen deck 72 formed from another configuration of L-shaped screening panels 74 and further screening panels 76. It will be appreciated that the L-shape can be variations of an L-shape such as an inverted L-shape. reversed L-shape, or a mirror image L-shape. Each L-shaped panel 74 has a screening surface 78 in which screening apertures 79 are provided, and a spacer element 80. A recess 82 is provided in the panel above the spacer element 80 in which to receive the screening surface section 78 of an adjacent panel. Fixing protrusions 84 are provided on the spacer elements 80 for fixing the panels to a support frame 48. This fixing arrangement, and the fixing of the panel sections 78 to the spacer elements 80 by means of pins 86, are described in more detail with reference to Figure 22.

Referring further to Figure 18 and to Figures 19 and 20, the further screening panels 76 forming the lower deck of the double screen deck 72 have screening surfaces 88 provided with screening apertures It will be understood that the screening apertures 90 are smaller than 1 the screening apertures provided in the screening surfaces 78 of the upper screening panels 74. The screening panels 76 have linear recesses 92 along two opposed sides, and further have half-circular spaced recesses 94 along the edges of the p:.els in which the linear recesses 92 are provided. The panels 76 are also of a synthetic plastics material.

-l0a- Referring more specifically to Figure 22, the securing of the panels 74 and 76 to the support frame 48 is shown. The support frame 48 as shown in Figure 7 has spaced apertures 50. In order to form the

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i 'f 5, i screen deck 72 shown in Figure 18, the panels 76 are first arranged side-by-side on the support frame 48 as shown in Figures 20 and 22 so that the linear recesses 92 and the hal recesses 94 on adjacent panels oppose each other. The defo ,rotrusions 84 on the spacer element 80 are then inserted through the circular apertures formed by the half-circular apertures 94 on adjacent panels, and through the apertures 50 in the support frame 48. The enlarged shoulder 96 on the protrusion 84 resists withdrawal of the protrusion from the aperture and, thereby secures the spacer element 80 in the recess formed by the opposing recesses 92 in the panels 76. Since the panels 76 are interposed between the spacer element 80 and the support frame 48, the panels 76 are thereby secured on the support frame 48.

Referring further to Figure 22, the securing of adjacent panels 74 to each other is also shown. The screening surface section 78 of one panel 74 fits into the recess 82 provided on top of the space.s element 80 of an adjacent panel 74. The panels are secured together by means of synthetic plastic pins 100 passing through spaced apertures 102 provided in the screening section 78 of each panel 74 and engaging with the rim 104 of a metal sleeve 106 recessed into the spacer element An enlarged shovlder 108 on the pin 100 resists withdrawal of the pin from the metal sleeve 106 and thereby secures the screen panel section 78 to the spacer element 80. However, since the pin 100 is deformable it may be withdrawn from the metal sleeve 106 in order to release the panel section 78 from the spacer element If desired, the screen panels 76 may be pyv,.'i with half-tubular protrusions similar to the half-tubular protrusions 54 shown in Figure 14 to be spread apart by the protrusions 84 on the spacer element 80 to secure the panels 76 to the support frame 48.

It is an advantage of screening panels in accordance with the invention that by providing spacer elements on the panels integral and unitary with the screening section of the panel so that the panel is substantially L-shaped, a compact panel is provided. Thereby a double screen deck can be formed easily from a minimum number of components.

This has the advantage of providing a robust double deck. It has the further advantage that the mass of the double deck can thereby be kept -12to a minimum, and thereby energy savings may be effected in driving The double deck.

Claims (12)

1. A screening panel predominantly of a synthetic plastics material and having a rectangular periphery including a plurality of straight edges and further having a screer"' surface in which screening apertures are provided and having securing means adapted to secure the panel releasably in a side-by-side relationship with similar panels, the panel including at least one s pcae element along one peripheral edge of the panel and extending in a direction transverse to the screening surf.ace of the panel and being integral and unitary with the panel so that in side view the panel is substantially L-shaped, the spacer element being adapted to space the screening surface of the panel from a second screening surface substantially parallel to the screening surface of the panel so that screened material passing through one of the screening surfaces can fall onto the other screening surface to be screened further by that screening suriface.

2. A screening panel as claimed in Claim 1, in which the spacer element is adapted to support the second screening surface above the screening surface of the panel so that the screening surface of the panel is spaced below the second screening surface.

3. A screening panel as claimed in Claim 2, in which the securing means oi: ihe screening panel comprises a plurality of deformable spigot-like protrusions spaced from each other along the peripheral region of the panel and being adapted to fit in pairs with the protrusions of an adjacent similar panel in complementary spaced apertures in a support frame,

4. A screening panel as claimed in Claim 3, in which the protrusions are solid. Aih i I L--I~LIILIIII -14- A screening panel as claimed in any one of Claims 2 to 4, which inclLdes securing means at the free end of the spacer element adapted to releasably secure further screening panels forming the second screening surface to the screening panel so that the second screening surface to the screening panels so that the second screening surface is positioned above the screening surface of the panel.

6. A screening panel as claimed Claim 5, in which the securing means at the free end of the spacer element includes a plurality of spaced sockets. 1 ,om 7. A screening panel as claimed in any one of Claims 2 to 6, which In 15 includes a sloping ridge at the peripheral edge of the screening panel I remote from and parallel to the spacer element. e8. A screening panel as claimed in Claim 1, in which the spacer element is adapted to space the ,nreening surface of the screening panel above the second screening surface.

9. A screening panel as claimed in Claim 8, in which the securing o means on the screening panel comprises spaced apertures near an edge of the panel and complementary apertures in the spacer element :t 25 adapted to be aligned with the apertures on the panel, and pins adapted to be removably insertable into the aligned apertures to secure the panel to the spacer element. So<. 10. A screening panel as claimed in Claim 8 or Claim 9, which includes securing means at the free end of the spacer element adapted to releasably secure the spacer element and thus the panel to a suppoir Sframe.

11. A screening panel as claimed in Claim 10, in which the securing means on the spacer element are protrusions adapted to releasably engage complementary apertures in the support frame. a/ j 3<

12. A screening panel as claimed in Claim 10 or Claim 11, in which the securing means on the spacer element are adapted to secure a further set of screening panels forming the second screening surface to the support frame.

13. A screening panel as claimed in any one of Claims 1 to 12, in which an aperture is provided in a sideways direction through the spacer element to permit material on the screening surface of the screening panel to flow in a sideways direction through the spacer element.

14. A new screening panel sub.stntially as described with I reference to and as illustrated in Figures 1, 4. 9, 10, 11, 12, 13, 14, 15 15, 16, 18, and 22 of the accompanying drawings. screen deck including at least two decks and a support frame supporting both decks, one deck comprising a plurality of screening panels as claimed in any one of Claims 1 to 14 arranged sido-by-side, the decks being vertically spaced from each other.

16. A screen deck as claimed in Claim 15, in which the screening panels in adjacent longitudinal rows of panels in at least one of the decks are staggered from each other in a transverse direction.

17. A new screen deck substantially as described with reference to and as illustrated in the accompanying drawings. Dated this 18th day of May 1990 POLYDECK SCREEN CORPORATION By their Patent Attorneys COLLISON CO. i: