Patent Number: 055315453
Section: claims

1. A mine roof cable bolt structure including, in combination: an elongated metal tubular member having a hollow interior, reaction structure provided said tubular member, a cable bolt provided a cylindrical member whereby to create a peripheral sectional enlargement, as to a portion of said cable bolt, which has a nominal transverse peripheral dimension greater than the corresponding transverse cross-section of said hollow interior of said tubular member, said sectional enlargement thereby cooperating with said tubular member within an interference fit, whereby to expand radially outwardly said tubular member in said tubular member's elastic range, for creating a pressure bubble, whereby to offer elastic resistance to movement of said metal tubular member, over said sectional enlargement. 2. The mine roof cable bolt structure of claim 1 wherein said cable bolt is provided with an interior axial king wire and multiple cable strands helically wound over said king wire whereby to provide said peripheral sectional enlargement, said cylindrical member being mounted on said king wire for expanding said strands in the region of said cylindrical member. 3. Mine roof cable bolt structure including, in combination: an elongated exteriorly threaded metal tubular member having remote and proximate ends, said tubular member having an internal bore provided with and tapering into a bore enlargement at said proximate end thereof, a cable bolt comprising a cable length having a king wire and multiple strands wrapped about said king wire, said cable bolt having a transverse enlargement, said enlargement cooperating in an installed press-fit within said bore enlargement, a reaction member disposed upon said tubular member, a torquing nut threaded upon said tubular member and backing said reaction member, said enlargement of said cable bolt being constructed to enter into said bore in an interference fit, whereby to expand elastically said tubular member as said enlargement proceeds in relative longitudinal movement within said bore, whereby to create a pressure bubble interference fit for resistively controlling relative movement between said enlargement and said tubular member, said enlargement being at least in part formed by an elongated cylindrical member of surface hardness of the order of that of said strands of said cable length. 4. Cable bolt apparatus for securement over an external, apertured mine roof bearing plate and within a strata borehole aligned with said bearing plate at its aperture, said cable bolt apparatus including, in combination: an elongated tubular member having an internal bore, external threads, and a peripherally enlarged, proximate bore area contiguous with said bore; a cable length comprising a king wire and helical strands wrapped thereabout, said cable length having a remote end constructed for securement within said borehole and a proximate, peripherally enlarged end nominally mounted in friction-fit relationship within said enlarged, proximate bore area; nut means threaded upon said tubular member and constructed for abutting against said external bearing plate and thereby preloading said cable length, said tubular member and said peripherally enlarged end of said cable length being mutually constructed whereby to provide, through elastic expansion of said tubular member and consequent radial compression thereof against said peripherally enlarged end, a pressure bubble offering controlled resistance to relative movement between said cable length and said tubular member in response to mine roof strata settling. 5. The cable bolt apparatus of claim 4 wherein said king wire is provided a cylindrical member, resistant to plastic deformation, disposed upon said king wire and forming with said strands said peripherally enlarged end. 6. The cable bolt apparatus of claim 4 wherein said king wire is provided with a series of end-to-end disposed cylindrical members, respectively resistant to plastic deformation, disposed upon said king wire and forming with said strands said peripherally enlarged end. 7. The cable bolt apparatus of claim 4 wherein a hardened cylindrical, tubular member having a slit side wall is provided said cable length, whereby to form said peripherally enlarged end. 8. A method of controlling the dilation of a mine roof, as produced through settling of strata thereabove, comprising the steps of: (1) providing a bore hole;  (2) anchoring a cable bolt at its remote end within said borehole;  (3) providing an elongated, cylindrical enlargement of said cable bolt at its proximate end;  (4) providing an elongated, exteriorly threaded metal tubular member of radially elastic expansion characteristics, said metal tubular member having a hollow interior nominally less in transverse cross-section than that of said cylindrical enlargement, said metal tubular member thereby receiving said cable bolt at said cylindrical enlargement in a tubular-member-elastic-expansion interference fit;  (5) providing for said tubular member a reaction plate and also a torquing nut, threaded upon said tubular member and backing said reaction plate;,  (6) preloading said cable bolt through tightening said torquing nut against said reaction plate, and  (7) creating a controlled, travel resistant pressure bubble as between said cable bolt and said tubular member, whereby to retard in a controlled resistive manner the descent of said tubular member relative to said cable bolt in response to dilation of said mine roof as occasioned through strata settling.