Claims
- 1. A cemented carbide tip for attachment to a ferrous metal body to form an excavating cutter bit, said tip comprising:
- a forward end for engaging and excavating asphalt;
- a rearward end for attachment to an end of said ferrous metal body;
- said tip being rotationally symmetric about a longitudinal axis extending from said forward end to said rearward end;
- said rearward end having an annular rearwardly facing outer surface and an inner socket extending forwardly therefrom and being shaped to fit with a protrusion on the ferrous body end;
- means protruding from said rearward end for engaging the ferrous body end and placing said tip in a spaced relationship relative thereto for facilitating formation therebetween of a braze joint having a predetermined cross-sectional thickness profile;
- wherein said protruding means includes a plurality of first bumps formed on said inner socket of said rearward end and being spaced from one another, and a plurality of second bumps formed on said outer surface of said rearward end and being spaced from one another.
- 2. The cemented carbide tip according to claim 1 wherein said plurality of second bumps are four in number being circumferentially spaced approximately 90 degrees from each other.
- 3. A cemented carbide tip for attachment to a ferrous metal body to form an excavating cutter bit, said tip comprising:
- a forward end for engaging and excavating asphalt;
- a rearward end for attachment to an end of said ferrous metal body;
- said tip being rotationally symmetric about a longitudinal axis extending from said forward end to said rearward end;
- said rearward end having an annular rearwardly facing first surface, a rearwardly facing second surface located inside and forwardly of said first surface, and an inwardly and radially facing third surface separating said first and second surfaces;
- means protruding from said rearward end for engaging the ferrous body end and placing said tip in a spaced relationship relative thereto for facilitating formation therebetween of a braze joint having a predetermined cross-sectional thickness profile; and
- wherein said protruding means includes a plurality of first bumps formed on said third surface and a plurality of second bumps formed on said first surface and being spaced from one another for placing said tip on the ferrous body end in an aligned and spaced relationship thereto.
- 4. The cemented carbide tip according to claim 3 wherein said plurality of second bumps are four in number being circumferentially spaced approximately 90 degrees from each other.
- 5. A cemented carbide tip comprising:
- a forward end of engaging an earth formation;
- a rearward end for attachment to an end of a ferrous metal body;
- said tip being rotationally symmetric about a longitudinal axis extending from said forward end to said rearward end;
- said rearward end having an annular rearwardly facing outer surface and an inner socket extending forwardly therefrom and being shaped to fit with a protrusion of the ferrous body end;
- means protruding from said rearward end on said outer surface and inner socket thereof for engaging the ferrous body end and placing said tip in a spaced relationship relative thereto for facilitating formation therebetween a braze joint having a predetermined cross-sectional thickness profile;
- wherein said protruding means includes a plurality of first bumps formed on said inner socket of said rearward end and being spaced from one another and a plurality of second bumps formed on said outer surface of said rearward end and being spaced from one another.
- 6. The cemented carbide tip according to claim 5 wherein said plurality of second bumps are four in number being circumferentially spaced approximately 90 degrees from each other.
- 7. A cemented carbide tip comprising:
- a forward end for engaging an earth formation;
- a rearward end for attachment to an end of a ferrous metal body;
- said tip being rotationally symmetric about a longitudinal axis extending from said forward end to said rearward end;
- said rearward end having an annular rearwardly facing outer surface having a portion lying perpendicular to said longitudinal axis and an inner socket extending forwardly from said annular rearwardly facing outer surface and being shaped to fit with a protrusion on the ferrous body end;
- means protruding from said rearward end on said outer surface thereof for engaging the ferrous body end and placing said tip in a spaced relationship relative thereto for facilitating formation therebetween of a braze joint having a predetermined cross-sectional thickness profile; and
- wherein said protruding means includes a plurality of bumps spaced from one another and formed on said portion of said outer surface of said rearward end.
- 8. The cemented carbide tip according to claim 7 wherein said plurality of bumps are four in number being circumferentially spaced approximately 90 degrees from each other.
- 9. A cemented carbide tip comprising:
- a forward end for engaging an earth formation;
- a rearward end for attachment to an end of a ferrous metal body;
- said tip being rotationally symmetric about a longitudinal axis extending from said forward end to said rearward end;
- said rearward end having an annular rearwardly facing first surface, a rearwardly facing second surface located inside and forwardly of said first surface, and an inwardly and radially facing third surface separating said first and second surfaces;
- means protruding from said rearward end on said first and third surfaces for engaging the ferrous body end and placing said tip in a spaced relationship relative thereto for facilitating formation therebetween of a braze joint having a predetermined cross-sectional thickness profile; and
- wherein said protruding means includes a plurality of first bumps formed on said third surface and being spaced from one another for placing said tip on the ferrous body end in a substantially centered and spaced relationship thereto; and
- a plurality of second bumps formed on said first surface of said rearward tip end and being spaced from one another for placing said tip on the ferrous body end in a substantially aligned and spaced relationship thereto.
- 10. The cemented carbide tip according to claim 9 wherein said plurality of second bumps are four in number being circumferentially spaced approximately 90 degrees from each other.
- 11. A cemented carbide tip comprising:
- a forward end for engaging an earth formation;
- a rearward end for attachment to an end of a ferrous metal body;
- said tip being rotationally symmetric about a longitudinal axis extending from said forward end to said rearward end;
- said rearward end having an annular rearwardly facing first surface, a rearwardly facing second surface located inside and forwardly of said first surface, and an inwardly and radially facing third surface separating said first and second surfaces;
- means protruding from said rearwardly end on said first surface for engaging the ferrous body end and placing said tip in a spaced relationship relative thereto for facilitating formation therebetween of a braze joint having a predetermined cross-sectional thickness profile; and
- wherein said protruding means includes a plurality of second bumps formed on said first surface of said rearward tip end and being spaced from one another for placing said tip on the ferrous body end in a substantially aligned and spaced relationship thereto.
- 12. The cemented carbide tip according to claim 11 wherein said plurality of bumps are four in number being circumferentially spaced approximately 90 degrees from each other.
- 13. A cemented carbide tip for attachment to a ferrous metal body to form an excavating cutter bit, said tip comprising:
- a forward end for engaging and excavating asphalt;
- a rearward end for attachment to an end of said ferrous metal body;
- said tip being rotationally symmetric about a longitudinal axis extending from said forward end to said rearward end;
- said rearward end having an annular rearwardly facing outer surface having a portion lying perpendicular to said longitudinal axis and an inner socket extending forwardly from said annular rearwardly facing outer surface and being shaped to fit with a protrusion on the ferrous body end;
- means protruding from said rearward end for engaging the ferrous body end and placing said tip in a spaced relationship relative thereto for facilitating formation therebetween of a braze joint having a predetermined cross-sectional thickness profile;
- wherein said protruding means includes a plurality of bumps formed on said portion of said outer surface of said rearward end and being spaced from one another.
- 14. The cemented carbide to according to claim 13 wherein said plurality of bumps are four in number being circumferentially spaced approximately 90 degrees from each other.
- 15. A cemented carbide tip for attachment to a ferrous metal body to form an excavating cutter bit, said tip comprising:
- a forward end for engaging and excavating asphalt;
- a rearward end for attachment to an end of said ferrous metal body;
- said tip being rotationally symmetric about a longitudinal axis extending from said forward end to said rearward end;
- said rearward end having an annular rearwardly facing first surface having a portion lying perpendicular to said longitudinal axis, a rearwardly facing second surface located inside and forwardly of said first surface, and an inwardly and radially facing third surface separating said first and second surfaces;
- means protruding from said rearward end for engaging the ferrous body end and placing said tip in a spaced relationship relative thereto for facilitating formation therebetween of a braze joint having a predetermined cross-sectional thickness profile; and
- wherein said protruding means includes a plurality of bumps formed on said portion of said first surface of said rearward tip end and being spaced from one another for placing said tip on the ferrous body end in an aligned and spaced relationship thereto.
- 16. The cemented carbide tip according to claim 15 wherein said plurality of bumps are four in number being circumferentially spaced approximately 90 degrees from each other.
BACKGROUND OF THE INVENTION
This application is a continuation-in-part of Ser. No. 221,819 filed on July 20, 1988.
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Entry |
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Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
221819 |
Jul 1988 |
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