The present disclosure generally relates to rock crushing equipment. More specifically, the present disclosure relates to a crusher that includes a wear liner having a reusable support cassette that supports a plurality of wear elements, such as bowl liner sections or concaves.
Rock crushing systems, such as those referred to as cone crushers or gyratory crushers, generally break apart rock, stone or other material in a crushing gap between a stationary element and a moving element. For example, a conical rock crusher is comprised of a head assembly including a crushing head that gyrates about a vertical axis within a stationary bowl indirectly attached to a main frame of the rock crusher. The crushing head is assembled surrounding an eccentric that rotates about a fixed shaft to impart the gyrational motion of the crushing head which crushes rock, stone or other material in a crushing gap between the crushing head and the bowl. The eccentric can be driven by a variety of power drives, such as an attached gear, driven by a pinion and countershaft assembly, and a number of mechanical power sources, such as electrical motors or combustion engines.
The exterior of the conical crushing head is covered with a protective or wear-resistant mantle that engages the material that is being crushed, such as rock, stone, ore, minerals or other substances. The bowl, which is indirectly mechanically fixed to the mainframe, is fitted with a bowl liner or, in the case of a gyratory crusher, a series of concaves. The bowl liner and bowl are stationary and spaced from the crushing head. The bowl liner provides an opposing surface from the mantle for crushing the material. The material is crushed in the crushing gap between the mantle and the bowl liner.
The gyrational motion of the crushing head with respect to the stationary bowl crushes, rock, stone or other material within the crushing gap. Generally, the rock, stone or other material is fed onto a feed plate that directs the material toward the crushing gap where the material is crushed as it travels through the crushing gap. The crushed material exits the crushing chamber through the bottom of the crushing gap. The size of the crushing gap determines the maximum size of the crushed material that exits the crushing gap.
As the cone crusher operates, the outer wear surface of the bowl liner begins to deteriorate such that the space between the crushing surfaces increases, which reduces the crusher's ability to produce the desired geometry of material leaving the crusher. As the bowl liner continues to wear, the bowl liner reaches a point where it must be removed from the cone crusher. Typically, the bowl liner is formed from austenitic manganese steel that, after being removed, is scraped and a new bowl liner is installed in the cone crusher. During the replacement process, the bowl liner is installed in the cone crusher on location, which can often result in misalignment or difficulty in placing the bowl liner in the required location in the cone crusher.
The present disclosure relates to a multi-section bowl liner for use in rock crushing equipment, such as a cone crusher. More specifically, the present disclosure relates to a bowl liner that includes a cassette and a plurality of bowl liner sections supported along the cassette.
In an exemplary embodiment, the bowl liner of the present disclosure is designed for use in a cone crusher. The bowl liner is formed as an assembled structure that includes a support cassette. The support cassette has a generally conical inner surface and a lower attachment rim. A plurality of bowl liner sections are supported along the inner surface of the support cassette. Each of the bowl liner sections includes an inner surface, an outer surface, a lower end and an upper end. When the bowl liner sections are supported along the inner surface of the support cassette, a plurality of support plates are attached to the lower rim of the support cassette such that the support plates hold the bowl liner sections along the inner surface of the support cassette. In an exemplary embodiment of the present disclosure, a plurality of support plates is associated with each of the bowl liner sections. The support plates are attached to the lower rim of the cassette, such as through the use of one or more connectors.
Each of the support plates can be selectively removed and attached to the lower rim to hold the bowl liner sections in place. The support plates include an inner support leg that contacts the bowl liner section and an outer support leg that contacts the lower rim of the cassette. The one or more connectors used to attach the support plates to the support cassette are received within internal bores formed in the lower rim of the cassette. In this manner, the support plates can be selectively removed and attached to the support cassette to allow for assembly and disassembly of the bowl liner sections from the support cassette.
The bowl liner of the present disclosure is designed for use with a cone crusher, although the bowl liner could be used with other types of crushing equipment, such as a gyratory crusher. The bowl liner is positioned on a stationary bowl and is spaced from a movable head. During operation, the head rotates relative to the stationary bowl liner such that material is crushed within a crushing gap of the cone crusher. After extended use, the bowl liner is removed and replaced from the cone crusher. In one exemplary embodiment, a second bowl liner is installed into the cone crusher, where the second bowl liner is pre-assembled prior to installation. In this manner, the bowl liner of the present disclosure can be assembled offsite and installed into the cone crusher as a single unit. In a contemplated alternate embodiment, once the bowl liner is removed, the individual bowl liner sections can be removed from the support cassette and new bowl liner sections installed. The refurbished bowl liner would then be installed into the cone crusher as a single unit.
Various other features, objects and advantages of the invention will be made apparent from the following description taken together with the drawings.
The drawings illustrate the best mode presently contemplated of carrying out the disclosure. In the drawings:
The adjustment ring 20 receives and partially supports a bowl 24 which in turn supports a prior art one-piece bowl liner 26. The one-piece bowl liner 26 combines with a mantle 28 to define a crushing gap 30. Mantle 28 is mounted to a head assembly 32 that is supported on a main shaft 34. The main shaft 34, in turn, is connected to a mainframe hub 33 that is connected to the outer barrel (cylinder) of the mainframe. An eccentric 36 rotates about the stationary main shaft 34, thereby causing the head assembly 32 to gyrate within the cone crusher 10. Gyration of the head assembly 32 within the stationary bowl 24 supported by the adjustment ring 20 allows rock, stone, ore, minerals or other materials to be crushed between the mantle 28 and the bowl liner 26.
When the cone crusher 10 is operating, a driven counter shaft 35 rotates the eccentric 36. Since the outer diameter of the eccentric 36 is offset from the inner diameter, the rotation of the eccentric 36 creates the gyrational movement of the head assembly 32 within the stationary bowl 24. The gyrational movement of the head assembly 32 changes the size of the crushing gap 30 which allows the material to be crushed to enter into the crushing gap. Further rotation of the eccentric 36 creates the crushing force within the crushing gap 30 to reduce the size of particles being crushed by the cone crusher 10. The cone crusher 10 may be one of many different types of cone crushers available from various manufacturers, such as Metso Minerals of Waukesha, Wis. An example of the cone crusher 10 shown in
The embodiment shown in
The support cassette 42 is generally formed from a durable material, such as a hardened alloy steel, white iron or high chrome white iron. The support cassette 42 includes an upper attachment lip 46 that is joined to a frusto-conical body portion 48 by a generally vertical support wall 50. The support wall 50 defines an inner surface 52 that provides the point of entry for material into the crushing gap of the crusher between the stationary bowl liner 40 and the rotating mantle as previously described. The bowl liner 40 includes a series of attachment features 54 that allow the bowl liner 40 to be mounted within the cone crusher in the same manner as the prior art one-piece bowl liner 26 shown in
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When the plurality of bowl liner sections 44 are mounted to the support cassette, such as shown in
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The bowl liner 40 shown in
Once all of the support plates 84 have been installed, a liquid epoxy material is poured into the open outer ends of the vertical channels 82 formed in the bowl liner sections 84. The liquid epoxy flows through the horizontal and vertical channels 82 and is allowed to harden. Once the epoxy has hardened, each of the bowl liner sections 44 are then held in place not only through the physical force created by the support plates 84 but also through the epoxy connection between the bowl liner sections and the support cassette. Once the epoxy has been allowed to harden, the bowl liner 40 can be installed into the cone crusher.
In one exemplary embodiment, when a bowl liner 40 is installed in the cone crusher and needs to be replaced, a second bowl liner is obtained and is present at a location near the cone crusher. The cone crusher 10 is then partially disassembled and the bowl liner 40 is removed. After the bowl liner is removed, the second bowl liner is positioned within the cone crusher and is installed as is well known. The first bowl liner that has been removed and replaced can then be disassembled by first removing each of the support plates 84. Once the support plates 84 are removed, a wedge or chisel can be used to release the epoxy between the bowl liner sections 44 and the support cassette. Once the first bowl liner section 44 is removed, the remaining bowl liner sections can be released from the epoxy connection and then discarded. Once all of the bowl liner sections 44 have been removed, new bowl liner sections can be installed in the manner as described previously.
Although the embodiment described above describes the use of a second bowl liner, it is contemplated that the bowl liner 40 could be removed and the bowl liner sections removed from the support cassette. New, replacement bowl liner sections would then be installed and the refurbished bowl liner would then be installed within the crusher. Such embodiment would eliminate the need for a second bowl liner.
In addition to the ability to reuse the support cassette 42, the bowl liner of the present disclosure allows different types of materials to be utilized to create the bowl liner sections 44 as compared to the single piece bowl liner 26 shown in
Although the present disclosure generally shows the use of a bowl liner with a cone crusher in an embodiment in which the bowl liner includes a single row of bowl liner sections 44, it is contemplated that the present disclosure could be used with other types of crushing equipment, such as a gyratory crusher. In such an embodiment, the support cassette would be constructed to support either a single row or multiple rows of wear pieces, such as concaves, which are similar in construction and operation to the bowl liner sections. In such a configuration, the concaves would be supported along an inner surface of a support cassette. The concaves would each be attached to the support cassette using an epoxy material and support plates. However, in an embodiment including multiple rows of concaves, each support plate in such an embodiment would support the multiple rows of concaves rather than the single layer of the bowl liner sections shown in the drawing figures. In the contemplated use of the support cassette and removable concaves, the combination of the support cassette and concaves would be removable as a single unit from the gyratory crusher for replacement, as described above with respect to the cone crusher. The individual concaves would be removed from the support cassette and new concaves installed for replacement into the gyratory crusher.
This written description uses examples to disclose the invention, including the best mode, and also to enable any person skilled in the art to make and use the invention. The patentable scope of the invention is defined by the claims, and may include other examples that occur to those skilled in the art. Such other examples are intended to be within the scope of the claims if they have structural elements that do not differ from the literal language of the claims, or if they include equivalent structural elements with insubstantial differences from the literal languages of the claims.