This invention relates generally to apparatus and methods for cutting, milling and/or grinding, namely removing, the body or surface of hard natural or man made materials such as for example, but not limited to natural rock, concrete, steel reinforced concrete, bitumen/asphalt, metals, wood, and soil and rock filled soil.
Applications for such apparatus and method include, but are not limited to general excavation, tunneling, trenching, surface preparation, demolition, and road works.
Apparatus and methods embodying the principles of the present invention comprise certain embodiments of hardened material cutting bits, preferably PDC (polycrystalline diamond composite) cutting bits, mounted in bit holders, the bit holders mounted on the periphery of a circular cutting disc, drum, or blade, which may be referred to as a tool core; the cutting disc, drum or blade comprising a part of cutting, grinding and/or milling equipment, and methods of use of same. The circular cutting disc or tool core rotates to move the cutting bits into the material being cut. In a presently preferred embodiment, PDC bits or inserts are mounted in the bit holders, which are in turn mounted around the outer periphery or circumference of the cutting tool core. The bit holders comprise certain design principles which enable efficient mounting onto the tool core, and removal therefrom, namely mounting into bit holder pockets on the periphery of the tool core. The bit holders may be mounted either singly, or first mounted in multi-bit holder crown segments, which are then attached to the periphery of the tool core by bolting or similar means. The manner of mounting of the bit holders, whether mounted individually or in multi-bit holder crown segments, eases removal/replacement when needed.
It is to be understood that the apparatus and method of the present invention may be used in all “cutting” and “milling” operations, as those terms may be referred to in general use.
The term “cutting” may be used when removal of a thin strip of material is described, and “milling” when larger volume over larger contact surface is removed at once. The transition from such “cutting” to “milling” is not precisely defined.
The Tool Core, Bit Holder, and Cutting Bit
In the following figures, the direction of movement of the bit holders and related elements are shown.
Referring particularly to
Bit holders 30 are positioned in bit holder pockets 22. A fastening wedge 40 also fits into bit holder pocket 22, preferably in front of bit holder 30 relative to the direction of movement of bit holder 30. A wedge anchor 42 fits into anchor pocket 24, and has a threaded hole to receive a threaded fastener 50, which may be a fastening screw, which extends through fastening wedge 40 and is tightened into wedge anchor 42. A section view of a fastening wedge 40, fastening screw 50, and wedge anchor 42 are noted in
Although fastening wedge 40 is shown positioned in front of bit holder 30, it is understood that in an alternative embodiment fastening wedge 40 may be positioned behind bit holder 30, with the placement of inclined cuts 36 and inclined face 44 and locating grooves 38 moved accordingly.
Bit holder 30 can be assembled to tool core 30 by first fitting it into bit holder pocket 22 such that locating groove 38 engages tool core 20. Fastening wedge 40 can then be fitted into bit holder pocket 22 from one side of tool core 20. With wedge anchor 42 put into place in anchor pocket 24, threaded fastener (fastening screw) 50 can then be inserted and screwed together with wedge anchor 42, locking the assembly in place. It can be further understood that removal of threaded fastener 50 permits fastening wedge 40 to be removed, thus freeing bit holder 30 for removal/replacement as needed.
One or more cutting bits 60, which in a preferred embodiment comprise PDC (polycrystalline diamond composite) cutters, are mounted on bit holders 30, by means known in the relevant art. It is understood that other types of hardened cutting materials could be used for cutting bits 60, such as hardened steel; carbide; natural or synthetic rock material; or other materials known in the cutting art.
The direction of rotation of the tool core 20, hence direction of movement of the bit assembly, namely the bit holder 30, cutting bit 60, etc. is noted in the figures. References to “front” or “rear” or related terms are in relation to this direction of movement; e.g. “rear” is the trailing edge or surface, “front” being the leading edge or surface.
The placement of individual cutting bits or bit holders is noted. Bit holders 30 are machined and then placed around the periphery of tool core 20 preferably in a certain geometrical pattern whereby each cutting bit 60 cuts its own groove in the material being cut, and these grooves are positioned relative to each other so the material removal is even across the cross-section of the cut and contact of steel bit holders 30 with the cut material is minimised. One exemplary placement is shown in
Single Bit Holder
I. Tool Core Design
a) Individual Bit Holder Placement
In
While the preceding description contains many specificities, it is to be understood that same are presented only to describe some of the presently preferred embodiments of the invention, and not by way of limitation. Changes can be made to various aspects of the invention, without departing from the scope thereof.
Therefore, the scope of the invention is to be determined not by the illustrative examples set forth above, but by the appended claims and their legal equivalents.
This non-provisional patent application claims priority to U.S. provisional patent application Ser. 62/914,800, filed Oct. 14, 2019, for all purposes. The disclosure of that provisional patent application is incorporated herein by reference, to the extent not inconsistent with this disclosure.
Filing Document | Filing Date | Country | Kind |
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PCT/US2020/054746 | 10/8/2020 | WO |
Number | Date | Country | |
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62914800 | Oct 2019 | US |