This Application claims the benefit of British Application Serial No. 1113591.0 filed 8 Aug. 2011.
This invention relates to a cutter tool, primarily for use in mineral winning, such as coal mining, but also useable for other underground purposes such as tunnel or roadway driving, or above ground for civil engineering works, road planing, trench cutting, whether with drums or endless chains, both on land and sub-sea.
In coal and other kinds of mining by the longwall technique, it is conventional to provide steel roof supports either as components of a series of hydraulically powered roof supports extending along, and advanceable with, the mineral face as the latter is extracted, or permanent supports in the form of rings or arches at roadways that are conventionally provided at each end of a longwall face.
Mineral is removed by a single or double ended ranging drum shearer, which traverses the mineral face, with a rotary cutting head carried by the, or each, ranging arm to follow the seam, each drum being provided with 50-100 cutter tools, each having a shank by which each tool is replaceably located in a tool holder.
However, despite the best efforts of the operatives, the drums, and specifically the tools, frequently strike a steel roof bar, or hard inclusions in the roof or floor of the mineral seam, and the tool is fractured—typically its head or blade, is sheared from its shank.
Tools need regular replacement, and removal of a broken or damaged tool is frequently difficult or sometimes impossible, such that removal cannot be effected until the drum is eventually taken to the surface, or a safe underground area, for refurbishment.
In civil engineering works, the tool may strike an unknown buried obstruction such as concrete reinforcement bar, a steel railway line, etc.
A basic object of the present invention is the provision of an improved cutter tool.
According to the present invention there is provided a cutter tool comprising a shank by which the tool is releasably retainable within a tool holder, an enlarged shoulder(s) or heel(s) provided at one end of the shank and adapted, in use, to abut a seating surface of a tool holder and hence to limit the penetration of the tool into a receiving aperture of the tool holder, and an integral blade provided beyond the enlarged shoulder(s) or heel(s) and terminating in a carbide or other tip. The tool is provided with a zone of weakness such that if subjected to fracture forces, a fracture will be encouraged to propagate from the zone of weakness in a particular desired manner.
The zone of weakness needs to be such that the normal, e.g. mineral winning, operation of the tool is not impaired, but the tool will fracture in the manner desired when the tool is overloaded by striking, for example, a steel support. However, as the inadvertent striking of e.g. a steel member of some form or other is largely unavoidable, the provision of a zone of weakness and thus the management of the zone of fracture, ensures that the residual portion of a broken tool is easier to extract in underground conditions, than would otherwise be the case.
In one aspect, a cutter tool in accordance with the present invention includes a shank releasably retainable within an aperture in a tool holder, and a head to contact the material to be engaged during use. The head is provided at one end of the shank to abut a seating surface of a tool holder and limit the penetration of the cutter tool into the aperture of the tool holder. The cutter tool has a front surface that faces in the direction of travel during use, an opposite rear surface, and side surfaces that connect the front and rear surfaces. A slot opens only in the front surface and in the side surfaces to the depth of the slot to define a frangible portion. The frangible portion remains intact during normal operations. However, when the cutter tool is subjected to fracture forces, a fracture will be encouraged to propagate from the slot through the frangible portion.
In another aspect, a cutter tool in accordance with the invention includes a shank releasably retainable within an aperture in a tool holder, and a head to contact the material to be engaged during use. The head is provided at one end of the shank to abut a seating surface of a tool holder and limit the penetration of the cutter tool into the aperture of the tool holder. The tool includes a zone of weakness to define a frangible portion that, in relation to the expected striking force, has less strength than the interface between the head and the shank in relation to the expected striking forcec such that when the cutter tool is subjected to fracture forces, a fracture will be encouraged to propagate through the frangible portion.
In another aspect of the invention, a cutter tool includes a shank releasably retainable within an aperture in a tool holder, and a head to contact the material to be engaged during use. The head is larger than the shank and provided at one end of the shank so as to define an interface between the shank and the head. The head abuts a seating surface of the tool holder and limits the penetration of the cutter tool into the aperture of the tool holder. A zone of weakness is provided at the interface between the shank and the head such that when the cutter tool strikes a hard member a fracture will be encouraged to propagate through that interface.
The zone of weakness is preferably provided by a slot (e.g., a slit or groove cut or forged) formed into the tool to provide a frangible portion within the tool, but could be provided by other means.
In all three figures, like components are accorded like reference numerals.
In
In accordance with a first embodiment of the invention, a slot 15 is provided in cutter tool 1A at a 90° junction between the leading face 4 of the shank 2 and a portion 16 of the enlarged shoulder 6. In this embodiment, the slot 15 extends at a 45° angle to the front face 40 of shank 2 and to the underside surface 7 of shoulder 6. Slot 15 is provided to influence that the cutting tool 1 will break the head 22 from the shank 2 so that the shank can be removed downward when used in a tool holder that provides a removal opening such as disclosed in British Application Serial No. 1113669.4 field Aug. 9, 2011.
Slot 15A extends from a front surface 24 of the cutter tool 1B. In one preferred embodiment, slot 15A extends perpendicular to front face 4 and opens only in the front surface (i.e., in the direction the tool is driven during operation) of the cutting tool, which in this embodiment is the front face 4 of shank 2, and in the sides to its depth of extension into the tool from the front face 4 in order to more effectively provide a clean break without distortion of the part remaining in the tool holder; i.e., it is considered beneficial for directing a clean fracture for the slot to open only or primarily in the surface which receives the primary loading. Slot 15A defines a frangible portion 20 in the remaining thickness of the material. Frangible portion 20 is formed to resist normal loading and remain intact during normal operation of the cutter tool, and to provide a clean break of the head 22 from the shank 2 without distortion of the shank when a steel member or other hard object (e.g., a steel member) is struck. The minimum and maximum thickness will be determined based on the intended application as well as the design and material of the cutter tool.
As stated previously, a not uncommon occurrence is for the blade 13 to strike a steel obstruction, such as a roof support bar, or buried tramway rail or pipeline. In this situation, the provision of the slot 15 or 15A is aimed at propagating a break from the slot to completely separate the head 22 from the shank 2 without distorting the shank for easier removal of the shank from the tool holder.
In another embodiment illustrated in
In accordance with this one aspect of invention, the dynamic strength of the frangible portion 26 is less or weaker than the dynamic strength of the interface between the head 22 and the shank 2. In a preferred embodiment, the dynamic strength of the frangible portion is at least about ten percent less than the dynamic strength of the interface between the shank and the head in order to reliably (i.e., in most cases) direct the breaking of the cutter tool along the frangible portion rather than the shank-head interface when the cutter tool strikes a steel member or other hard member. In this way the shoulder 6 and removal notch 8 are preserved even if a steel member is struck by the tip 14 of the cutter tool to enable removal of the shank 2 from the tool holder so that a replacement cutter tool can be inserted. The dynamic strength of the frangible portion could be much less than 10% weaker than the shank-head interface so long as the frangible portion remained intact during normal operation.
In alternative constructions (not shown), a zone of weakness or frangible portion can be defined by means other than a slot defined in the cutter tool. In addition, other kinds of slots can be used even though they are formed in ways other than disclosed above. For example, a slot can be formed around the periphery or by being partially formed in both the front and the rear surface. In these alternative slot constructions, the slot is preferably primarily formed to extend from the front surface, i.e., that the majority of the depth of the slot extends from the front surface. The slots 15, 15A, 17 are shown as narrow and linear gaps in the cutter tool, which is the preferred construction. Nevertheless, the slots could have a non-linear configuration, have a wider (not narrow) width, and/or have an irregular shape. The term “slot” is intended to have a broad construction to define a gap in the cutter tool having a wide variety of possible shapes. The shape or size of the opening can vary considerably.
Number | Date | Country | Kind |
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1113591.0 | Aug 2011 | GB | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB2012/001988 | 8/8/2012 | WO | 00 | 8/8/2014 |