The present invention is an insert for covering a selected surface of a discharge end assembly including a discharge end wall of a mill shell in a grinding mill.
As is well known in the art, various elements of a grinding mill typically are subjected to wear in characteristic patterns, in which certain surfaces of certain elements are subjected to greater wear than other surfaces.
As can be seen in
As is well known in the art, the vanes or pulp lifters 22, the outer perimeter wall 26, and the discharge end wall 27, at least partially define the pulp chambers 28 therebetween. Typically, discharge grates “DG” (
It will be understood that the majority of the solid particles in the pulp (i.e., primarily ore that has been ground), which exit the pulp chambers via the central hole 24, are omitted from
As is well known in the art, the mill shell 23 of the grinding mill 21 defines a mill shell chamber 25 upstream from the pulp chambers, and the mill shell 23 is rotatable about an axis of rotation “AX” (
As each of the pulp chambers is immersed in the charge in turn, the slurry flows into each pulp chamber successively. As can be seen in
The vanes or pulp lifters also support the pulp that is positioned on them respectively, and direct the pulp toward the central hole, when the vanes are rotated through positions above the charge. The movement of the pulp from the pulp chambers and into the central hole 24 is schematically represented by arrow “EX” in
As is also well known in the art, due to the concentration of wear on certain surfaces of certain elements, the elements may need to be replaced, even though other parts of the elements have been subjected to relatively little wear. The result is that significant costs may be incurred due to excessive wear that is concentrated in a relatively small area of a surface of an element. First, costs are incurred in connection with purchasing a new element, e.g., all or part of a vane or pulp lifter. Second, costs are also incurred in connection with the replaced element, e.g., although the replaced element may be worn in only a small portion thereof, it is prematurely replaced, as other portions of the elements may not be worn out. Third, significant costs are incurred due to the downtime required to replace an element that is prematurely worn.
For example, the characteristic movements of certain of the ore particles in the pulp in the pulp chambers are illustrated in
It will be understood that the top surface of the charge (identified as “A” in
“Carryover” of pulp in grinding mills (i.e., the incomplete discharge of pulp in pulp chambers within one revolution of a mill shell) is a serious problem. The extent of carryover may be as high as 50% or more, depending on the circumstances. Carryover imposes many costs on the operator. In particular, it appears that some of the wear to which the elements mounted on the discharge end wall are subjected is due to carryover.
As is well known in the art, ideally, all the pulp in a particular pulp chamber should empty out of that pulp chamber 28 in the time that such pulp chamber 28 is moved from approximately the nine o'clock position to approximately the three o'clock position. That is, ideally, the pulp chamber should be fully emptied before it is next re-immersed in the charge. However, in practice, it often happens that a significant portion of the pulp does not exit the pulp chamber by the time that the pulp chamber has reached the three o'clock position. The pulp remaining in the pulp chamber, at a point when it ideally all should have been discharged via the central hole, is typically referred to as “carryover”.
The movement of the pulp that is carried over is schematically illustrated in
The reasons for carryover are well-known in the art. The relatively high mill shell rotation speed, e.g., about 10 rpm, is an important factor. This relatively fast rotation speed means that the discharge wall 27 completes one rotation every six seconds. Accordingly, the pulp in a particular pulp chamber has only approximately three seconds, at most, to exit the pulp chamber 28, i.e., to be moved to the central hole 24 and to exit therethrough. In addition, due to the rotation of the mill shell, the pulp in each pulp chamber is urged outwardly by centrifugal force, i.e., away from the central hole 24, effectively slowing the exit of the pulp from the pulp chamber as the pulp chamber moves from approximately the nine o'clock position to approximately the three o'clock position.
It has been determined that the movement of the pulp that is carried over, inside the pulp chamber, is distinctive to the specific grinding mill, and generally consistent. Because of this, the elements of the discharge wall assembly 20 in a particular mill are generally subjected to wear in substantially consistent patterns over time. However, the wear is not necessarily uniform over different pulp chambers in a particular mill, for reasons that are unclear. For example, one pulp chamber may be subject to excessive wear in the outer region thereof (i.e., proximal to the outer perimeter), and the pulp chambers adjacent thereto may not be subjected to excessive wear, or may be subjected to excessive wear in other areas thereof.
For example, in
In pulp chamber 28B, partially defined between a pair of the vanes identified in
In
As can be seen in
It can be seen in
The particles 30 that are destined to become carryover in the illustrated example are, at one point while the mill shell rotates, generally located in the middle area 35 of the pulp lifter, i.e., they are temporarily located a relatively short distance from the central hole. From
It will also be appreciated that the carried-over solid particles 30 move to the outer wall 26 when the pulp chamber(s) in which they are located is next re-immersed in the charge, as illustrated in
In
It can also be seen in
As can be seen in
In
There is a need for a discharge wall insert that overcomes or mitigates one or more of the defects or disadvantages of the prior art. Such disadvantages or defects are not necessarily included in those listed above.
In its broad aspect, the invention provides a discharge end wall system mounted on a discharge end wall of a mill shell in a grinding mill, the mill shell being rotatable about an axis of rotation thereof in a direction of rotation to produce a pulp including ore particles and water. The discharge end wall is partially defined by an outer perimeter wall of the mill shell and includes a central hole through which the pulp exits the mill shell. The discharge wall system includes a discharge end assembly having the discharge end wall and the outer perimeter wall, and a number of pulp lifters radially arranged on the discharge end wall relative to the axis of rotation. Pairs of adjacent ones of the pulp lifters each respectively include a leading one of the pulp lifters in the pair and a trailing one of the pulp lifters in the pair relative to the direction of rotation. The pairs partially defining respective pulp chambers therebetween through which the pulp is at least partially directed to the central hole. The discharge wall system also includes one or more at inserts for covering at least one selected surface of the discharge end assembly, to mitigate the extent to which the selected surface is subjected to wear due to movement of the pulp in the pulp chambers.
In another of its aspects, the invention provides a grinding mill including a mill shell having a mill shell chamber therein and having an outer perimeter wall partially defining a discharge end wall of the mill shell, rotatable in a direction of rotation to produce a pulp including ore particles and water. The discharge end wall has a central hole therein through which the pulp exits the mill shell. The grinding mill also includes a discharge wall assembly having the discharge end wall and the outer perimeter wall, and a number of pulp lifters mounted on the discharge end wall. Pairs of adjacent ones of the pulp lifters respectively include a leading one of the pulp lifters in the pair and a trailing one of the pulp lifters in the pair relative to the direction of rotation, the pairs partially defining respective pulp chambers therebetween through which the pulp is at least partially directed to the central hole. In addition, the grinding mill includes one or more inserts for covering one or more selected surfaces of the discharge wall assembly, to mitigate wear to which the selected surface is subjected by movement of the pulp in the pulp chambers.
In yet another of its aspects, the invention provides a method of installing one or more inserts in a discharge end assembly including a discharge end wall of a mill shell, the mill shell defining a mill shell chamber therein. The method includes the steps of selecting one or more selected surfaces in the discharge end assembly that is subjected to wear, and forming the insert to cover the selected surface when positioned in a predetermined position relative to the selected surface, to mitigate the wear to which the selected surface is subjected. One or more discharge grates positioned between the mill shell chamber and the discharge end assembly are removed, to expose the selected surface. The insert is positioned in the predetermined position to cover the selected surface. Finally, the insert is secured in the predetermined position on the discharge end wall assembly.
In another of its aspects, the invention provides an insert for covering one or more selected surfaces of a discharge end assembly including a discharge end wall of a mill shell partially defined by an outer perimeter wall thereof and a plurality of pulp lifters mounted on the discharge end wall. The insert is formed to cover the selected surface to mitigate wear to which the selected surface is subjected when the insert is located in a predetermined position relative to the selected surface.
In another aspect, the invention provides an insert formed to be positioned in a predetermined position relative to a pulp chamber at least partially defined by leading and trailing sides of trailing and leading pulp lifters respectively, a discharge end wall, and an outer perimeter wall. The pulp chamber is formed to direct pulp including ore particles and water therethrough. The insert includes a floor, for covering a preselected part of the discharge end wall, one or more sidewalls connected to the floor, for covering predetermined parts of the leading and trailing sides of the respective trailing and leading pulp lifters. In addition, the insert includes an end wall, for covering the shell wall. The insert is formed to mitigate the extent to which the preselected part of the discharge end wall, the predetermined parts of the leading and trailing sides of the trailing and leading pulp lifters respectively, and the part of the outer perimeter wall are subjected to wear due to movement of the pulp in the pulp chamber when the insert is positioned in the predetermined position.
The invention will be better understood with reference to the attached drawings, in which:
In the attached drawings, like reference numerals designate corresponding elements throughout. In particular, to simplify the description, the reference numerals previously used in
Reference is first made to
As can be seen, for example, in
In one embodiment, the discharge end wall system 240 preferably also includes one or more discharge grates 250 (
In one embodiment, the insert 244 preferably is formed to be positioned in at least part of a selected one of the pulp chambers 228 to cover the selected surface 246 (
As noted above, it has been found that the extent to which the pulp chambers in the discharge end wall in a particular grinding mill are subjected to wear varies. This is believed to be due to a number of factors, including, for example, the arrangements of pulp lifters of different lengths. Because the wear to which the pulp chambers are subjected generally varies significantly, the optimum designs of the inserts and their optimum distribution or positioning in the discharge end assembly 242 may vary widely. Preferably, the design of each insert 244 is based on the pattern of wear in the pulp chamber in which the insert is to be installed, as will be described.
In addition, because the patterns of wear in each part of the discharge end assembly 242 vary, it is preferred that the inserts 244 are individually formed, or tailored, to cover specifically identified selected surfaces 246. For instance, the wear in two adjacent pulp chambers may be sufficient to require pulp chamber inserts in each, however, if the wear patterns in each of the two pulp chambers are different (as is often the case), then the inserts formed to cover the selected surfaces in each of the two pulp chambers also are formed or tailored to have different configurations or shapes, and they are also formed to be secured into different predetermined positions respectively.
As can be seen in
It will be understood that, in order to install the pulp chamber insert 244 once it is formed, it is positioned in a preselected part of the pulp chamber 228 (
In one embodiment, the pulp chamber insert 244 preferably includes one or more end walls 266 and a floor portion 268 connected to the sidewalls 264 (
When the floor portion 268 of the pulp chamber insert 244 is positioned on the discharge end wall 227, the end wall 266 preferably engages the outer perimeter wall 226. Also, in such position, the sidewalls 264 of the pulp chamber insert 244 preferably engage the leading and trailing sides “LS”, “TS” of the trailing and leading pulp lifters 222T, 222Lrespectively. In addition, and as can be seen in
From the foregoing, it can be seen that the pulp chamber insert 244 is formed to fit into the pulp chamber 228 so that its parts engage corresponding elements at least partially defining the pulp chamber 228, to locate the pulp chamber insert 244 so that it covers the selected surface(s) 246 when the insert 244 is in its predetermined position relative to the selected surface(s) 246. The pulp chamber insert 244 preferably is tailored to address the patterns of wear, whether resulting from carryover or otherwise.
As can also be seen in
Preferably, the pulp chamber insert 244 is made of any suitable material or materials, preferably selected at least in part for their ability to resist the wear to which the pulp chamber insert is subjected by the solid particles in the pulp, i.e., both carryover and non-carryover. It will be understood that the pulp chamber insert 244 may be made of highly wear-resistant material or materials. For example, the wear-resistant material or materials may be any suitable metallic or non-metallic material or materials. The insert also may be any suitable thickness or thicknesses. In each grinding mill, the parameters may differ widely, and the optimum thicknesses of material for any particular pulp chamber insert is determined according to a number of factors specific to the mill. As will be described, in one embodiment, the thicknesses of different portions of the pulp chamber insert may also vary, in order to take into account patterns of wear in the respective pulp chambers.
From the foregoing, it can be seen that, when the pulp chamber insert 244 is in the predetermined position therefor, the pulp chamber insert 244 protects selected surfaces 246 of the pulp lifters and the elements that, at least partially, define the pulp chamber in which the insert is positioned.
One of the advantages of the pulp chamber insert is that it may be installed when the discharge grates are replaced. Those skilled in the art would be aware that the discharge grates generally are replaced more frequently than, e.g., the pulp lifters. From the foregoing, it can be seen that the pulp chamber inserts 244 may be installed economically at a time when the grinding mill 221 is down for replacement of the discharge grates. Because of this, the inserts 244 may be installed without such installation imposing significant additional downtime (i.e., additional expense) beyond the downtime required for replacement of discharge grates.
The pulp chamber insert 244 of the invention also has the advantage that the insert 244 preferably is held in place by the fasteners that secure the grates to the pulp lifters. Accordingly, the insert 244 preferably may be retrofitted relatively easily, being held in the predetermined position therefor using the fasteners previously used only to secure the discharge grates to the discharge end assembly 242.
As can be seen in
As can be seen in
Preferably, the pattern of wear in a particular pulp chamber is taken into account in the design of the pulp chamber insert that is to be installed in that pulp chamber. For example, a sidewall's thickness may be increased in a portion thereof if excessive wear were found on the corresponding portion of the wall of the pulp chamber. It will be understood that other parameters (e.g., expected tph throughput, speed of rotation) preferably are also taken into account in the pulp chamber insert design, particularly if any such parameters are expected to be changed.
In an alternative embodiment, an insert 344 of the invention preferably additionally includes one or more cushion elements 376 formed to be positioned adjacent to one or more preselected portions 378 of a selected surface 346 (
For instance, the insert 344 may include portions thereof that are selectively thickened or otherwise formed to provide protection from wear to specific parts of the elements that partially define the pulp chamber 328 (
It will be understood that the form, and positioning, of the cushion elements 376 depends on the form and positioning of the selected surface 346, and also of the preselected portion 378 of the selected surface 346. It will also be understood that, although the preselected portion 378 is within the selected surface 346, the preselected portion 376 may occupy the entire selected surface 346. The preselected portion is an area on the surface(s) of the discharge end assembly 342 which is subjected to wear to a much greater extent than the surface areas of the discharge wall assembly that are adjacent to it. It is intended that the cushion elements 376 are formed and located (in the insert 344) to provide additional protection from wear to the preselected portion(s) 378.
For example, the insert 344 illustrated in
For example, in
It is preferred that the insert 344 includes flanges 356, 358 that are located between a discharge grate 350 and respective ridge surfaces 360, 362 of the pulp lifters 322, 322′ when the insert 344 is in the predetermined position therefor (
In
An example of an insert 344′ that is formed to include one or more cushion elements 378′ in a different configuration is shown in
As can be seen in
For convenience, in
Another alternative embodiment of an insert 444 of the invention is illustrated in
Another embodiment of the insert, referred to by reference numeral 444′ for clarity of illustration, is also illustrated in
A discharge end wall system 440 including the inserts 444 and 444′ is illustrated in
As can be seen in
Accordingly, a selected surface 546 may be located only on a selected one of the pulp lifters 522. An embodiment of an insert 544 of the invention is formed to fit onto a selected one of the pulp lifters 522 to cover the selected surface 546 of the selected one of the pulp lifters 522, to mitigate the extent to which the selected surface 546 is subjected to wear (
An embodiment of an insert 544 of the invention is illustrated in
In one embodiment, the insert 544 preferably includes side elements 583, 584 (
Those skilled in the art would appreciate that the insert 544 preferably is also held in place by a discharge grate (not shown in
In
It will also be understood that the insert 544 may have any suitable length. The thickness or thicknesses of the insert 544, and its length and shape, are determined according to the circumstances in the particular grinding mill in which the cap is installed.
For instance, in one embodiment, the pattern of wear on a particular intermediate portion of a particular pulp lifter preferably is taken into account in determining the length of the insert 544 that is to be positioned on such intermediate portion, and also the thickness (or thicknesses, as the case may be) of the insert 544. Other parameters may also be taken into account. It will be understood that, depending on the pattern of wear, forming the insert 544 to have different thicknesses thereof in view of the wear pattern may be optimal. It will also be understood, however, that it may be found to be optimal not to have the insert 544 positioned on every intermediate portion of every pulp lifter in a particular grinding mill.
Preferably, the insert 544 is made of any suitable highly wear-resistant material or materials. In much the same way as described above in relation to the pulp chamber insert, the material or materials are selected according to a number of factors, related, e.g., to the grinding mill and the charge, among other things. For instance, the insert 544 may be made of metallic or non-metallic material or materials.
The insert 544 protects intermediate portions of the pulp lifters, ultimately resulting in the pulp lifters have longer operational lives than would otherwise have been achieved. From the foregoing, it can also be seen that the insert 544 can be replaced relatively easily when the discharge grates are replaced.
From the foregoing, it can be seen that the invention preferably includes an embodiment of the grinding mill of the invention that includes one or more of the pulp chamber inserts 244 (
In one embodiment, the grinding mill 221 preferably includes the mill shell 223 having the mill shell chamber 225 therein (
As can be seen in
Preferably, the insert is formed and installed in the discharge end assembly according to the following steps. First, the selected surface, being one of the surfaces in the discharge end assembly that is subjected to wear, is selected. It will be understood that the surfaces are selected based on the extent to which they are subjected to wear during the operation of the grinding mill. One way to assess which surfaces are subjected to more wear than others is a visual inspection of the discharge end assembly after operation for a period of time. Such visual inspection may be conducted, for instance, when discharge grates are removed in connection with routine maintenance. Next, the insert preferably is formed to cover the selected surface when positioned in the predetermined position relative to the selected surface, to mitigate the wear to which the selected surface is subjected. The discharge grate positioned between the mill shell chamber and the discharge end assembly is removed, to expose the selected surface. Preferably, the insert is positioned in the predetermined position therefor to cover the selected surface. The insert is secured in the predetermined position on the discharge end assembly.
Those skilled in the art would appreciate that the order in which the steps of one embodiment of the method of the invention are described above is not determinative, and certain of the steps may be performed in a sequence other than as set out above. For example, the discharge grate may first be removed, and following that, the selected surfaces may be selected.
In another embodiment of the method of the invention, first, a number of surfaces are selected. Next, a number of inserts preferably are formed to cover identified ones of the selected surfaces respectively, each insert being tailored to cover the identified ones of the selected surfaces respectively. As described above, the selected surfaces may have different shapes and sizes, and may be located in different locations of the discharge end assembly. Accordingly, it is preferred that the inserts for a particular discharge end assembly are respectively formed for specific (identified ones of the) selected surfaces. It is preferred that each insert is positioned in the predetermined position therefor respectively to cover the identified ones of the selected surfaces. Each of the tailored inserts preferably is secured in the predetermined position therefor respectively.
It is also preferred that each insert is secured in the predetermined position therefor by locating a portion of the insert between the discharge grate and the discharge end assembly, and attaching the discharge grate to the discharge end assembly, as described above.
In an alternative embodiment, the insert preferably includes one or more cushion elements formed to be located adjacent to one or more preselected portions of the selected surface when the insert is in the predetermined position therefor, to attenuate the extent to which the preselected portion is subjected to wear. As described above, the preselected portion may be, for example, a part of the surface of the discharge end assembly that is subjected to wear to a greater extent than the other parts of the selected surface(s).
In summary, the invention provides one or more inserts for covering the selected surface(s) of the discharge end assembly including the discharge end wall of a mill shell partially defined by the outer perimeter wall thereof and a number of pulp lifters mounted on the discharge end wall. The insert preferably is formed to cover the selected surface to mitigate wear to which the selected surface is subjected when the insert is located in the predetermined position relative to the selected surface.
In one embodiment, the insert is formed to fit into the pulp chamber. The pulp chamber insert preferably includes a floor, for covering a part of the discharge end wall, one or more sidewalls connected to the floor, for covering predetermined parts of the leading and trailing sides of the respective trailing and leading pulp lifters, and an end wall, for covering a part of the outer perimeter wall. The insert is formed to mitigate the extent to which the preselected part of the discharge end wall, the predetermined parts of the leading and trailing sides of the trailing and leading pulp lifters respectively, and the part of the outer perimeter wall are subjected to wear due to movement of the pulp in the pulp chamber, when the insert is positioned in the predetermined position.
In another embodiment, the insert is a sleeve insert formed to be positioned in the predetermined position therefor on the pulp lifter to cover the selected surface of the pulp lifter, for mitigating wear to which the selected surface is subjected.
It will be appreciated by those skilled in the art that the invention can take many forms, and that such forms are within the scope of the invention as claimed. The scope of the claims should not be limited by the preferred embodiments set forth in the examples, but should be given the broadest interpretation consistent with the description as a whole.
This application is the national stage entry of International Patent Application No. PCT/CA2015/050940, filed on Sep. 23, 2015, which claims priority to U.S. Provisional Patent Application No. 62/054,132, filed on Sep. 23, 2014, each of which prior application is incorporated herein by reference. All claims of priority to these applications are hereby made.
Filing Document | Filing Date | Country | Kind |
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PCT/CA2015/050940 | 9/23/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2016/044935 | 3/31/2016 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4172560 | Butler | Oct 1979 | A |
4266733 | Butler | May 1981 | A |
4334626 | Butler | Jun 1982 | A |
4406417 | Jardine et al. | Sep 1983 | A |
4646980 | Player | Mar 1987 | A |
4848681 | Eriksson et al. | Jul 1989 | A |
5055336 | Davis | Oct 1991 | A |
5161745 | Valeri | Nov 1992 | A |
5292077 | Inui | Mar 1994 | A |
5361997 | Burkes | Nov 1994 | A |
5431351 | Lejonklou | Jul 1995 | A |
5472148 | Schaeffer | Dec 1995 | A |
5752665 | Wason | May 1998 | A |
6663030 | Washburn et al. | Dec 2003 | B2 |
9375722 | Fernandez | Jun 2016 | B2 |
20030178516 | Washburn et al. | Sep 2003 | A1 |
20100314475 | Allenius et al. | Dec 2010 | A1 |
Number | Date | Country |
---|---|---|
WO2011130781 | Oct 2011 | WO |
Entry |
---|
International Search Report dated Dec. 3, 2015 for International Application No. PCT/CA2015/050940, published as WO 2016/044935, filed on Sep. 23, 2015. |
Number | Date | Country | |
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20170014831 A1 | Jan 2017 | US |
Number | Date | Country | |
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62054132 | Sep 2014 | US |