US3296919A - Retaining device for rock bolts - Google Patents

Retaining device for rock bolts Download PDF

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US3296919A
US3296919A US406270A US40627064A US3296919A US 3296919 A US3296919 A US 3296919A US 406270 A US406270 A US 406270A US 40627064 A US40627064 A US 40627064A US 3296919 A US3296919 A US 3296919A
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shell
rod
rock
hole
ring
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US406270A
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Chester I Williams
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    • EFIXED CONSTRUCTIONS
    • E21EARTH DRILLING; MINING
    • E21DSHAFTS; TUNNELS; GALLERIES; LARGE UNDERGROUND CHAMBERS
    • E21D21/00Anchoring-bolts for roof, floor in galleries or longwall working, or shaft-lining protection
    • E21D21/008Anchoring or tensioning means

Definitions

  • This invention provides a device for retaining a rock bolt in a drilled overhead hole in a rock formation as the bolt is installed.
  • the inserted portion of the rock bolt is a rod usually an inch or more in diameter, with an expandable anchor at the inner end.
  • the workman has an obviously difiicult problem to contend with.
  • the rods are often over twenty feet long, and may be assembled in sections as they are installed. Holding the inserted portion while attaching another section represents an extra operation that can well be dispensed with. Once the entire rock bolt is in the installed position, it should stay there by itself until the anchor can be set.
  • the most effective anchor units now in general use are those involving relative rotation between the rod and a cone, so that threaded engagement between these members produces axial movement of the cone to expand a surrounding shell against the wall of the hole in the rock.
  • the preferred form of this invention provides a very simple modification of a conventional rock bolt anchor that has the dual function of preventing slip-back of the installed rock bolt, and restraining rotation of the anchor shell. This is accomplished through the use of resilient fingers arranged to engage the wall of the hole, and slanted in a direction such that movement into the hole is relatively free, but movement back out of the hole is inhibited.
  • FIGURE 1 presents a sectional elevation of a rock bolt incorporating this invention in the fully installed position.
  • FIGURE 2 is a fragmentary view of the inner end of the rock bolt rod, and the attached anchor device.
  • FIGURE 3 is a section on the plane 33 of FIG- URE 2.
  • FIGURE 4 is a side elevation of the resilient retaining ring incorporated in the assembly.
  • FIGURE 5 is an end elevation of the ring shown in FIGURE 4.
  • the installed rock bolt assembly generally indicated at in FIGURE 1 is shown inserted in the hole 11 in the rock formation 12.
  • the inserted portion of the rock bolt includes the rod 13 and the anchor device 14. It is conventional practice to insert the rock bolt into the hole, set the anchor against the wall of the hole, and then fill the space around the rod with grout to protect the rod and increase the bond between the rock bolt and the surrounding rock.
  • a hearing plate 15 and a beveled washer 16 are normally provided to transfer the stresses from the nut 17, and a vent tube 18 is arranged to traverse a suitable hole in the bearing plate 15 to provide a passage for the egress of air from the hole in the rock as grout is supplied through the hollow interior of the rod 13.
  • a handful of plastic filler material 19 may be incorporated at the entrance of the hole 11 as a seal to permit the development of adequate grout pressure.
  • FIGURES 2 and 3 The preferred form of the anchoring device 14 is best shown in FIGURES 2 and 3.
  • a threaded portion 20 at "ice the inner end of the rod 13 is engaged by the cone 21, and relative rotation between these members will produce a movement of the cone to the right, as shown in the drawing.
  • This movement brings the conical periphery of the cone 21 axially along the similarly-shaped conical interior of the expansible shell 22 to induce expansion of the shell into solid engagement with the wall of the hole.
  • the periphery of the shell 22 is provided with the discontinuity shown at 23, which produces a C-shaped configuration in cross section.
  • the thrust provided by the axial movement of the cone 21 as the anchor is set is resisted by the ring 24, which is usually positioned at the extremity of the threaded portion 20 of the rod 13.
  • the ring 24 is therefore normally fixed with respect to the rod 13, both axially and rotatably.
  • there may be other components to the thrust-transfer system such as one or more frictionreducing slip rings.
  • the retaining ring 25 has a central portion 26 preferably interposed between the thrust ring 24 and the end of the shell 22.
  • the ring 25 has a group of resilient fingers 27 arranged around the periphery of the central portion 26, and slanted with respect to a plane perpendicular to the axis of the rod 13 in a direction from the central portion 26 away from the shell 22. This slant may be considered as backward with respect to the direction of insertion of the anchor into the hole 11, which is to the left as shown in the drawing.
  • the circumscribed diameter around the outer extremity of the fingers 27 is selected to be in excess of that of the hole in the rock formation, resulting in a resilient engagement of the fingers in such a manner that the insertion of the rock bolt is readily accomplished, but withdrawal movement to the right is prevented in a manner similar to the action of the barb of a fish hook.
  • the forwardly-bent fingers 28 and 29, which are disposed as shown in FIGURE 3.
  • One of these latter two fingers (such as the finger 28) is preferably disposed within the discontinuity 23 of the shell 22, and functions in the manner of a key disposed in a keyway.
  • the finger 29 may be initially disposed as shown in FIGURE 3, but expansion of the shell 22 will ultimately bend the finger 29 into the plane of the central portion 26. In the initial position, the finger 29 prevents lateral displacement of the shell 22 (prior to the development of large forces in the anchor) which might disengage the finger 28 from the discontinuity 23.
  • the engagement of the fingers 27 with the rock formation will restrain the rotation of the ring itself, and the presence of the finger 28 in the discontinuity 23 will correspondingly inhibit rotation of the shell 22.
  • a rock bolt having a bolt rod and an anchoring device including an expansible shell with a C-shaped cross sectional configuration having an axial discontinuity, a cone member at least partially within said shell for expanding the same, said cone member having threaded engagement with said rod, said shell being a one-piece member having a slot extending from end to end, with the walls of said slot providing abutment shoulders, and wherein said shell has a conical bore complementary to said cone member, said rock bolt also having 3 4 a thrust member normally fixed with respect to said rod, References Cited by the Examiner a retaining ring axially fixed with respect to said rod, said UNITED STATES PATENTS ring having a central portion interposed between said thrust member and the end of said shell, said ring also 111201368 12/1914 Booraem et 85 74 having a plurality of resilient fingers extending to a radial 5 2;; iZfiSi distance beyond the periphery of said shell, certain of said fingers being inclined

Description

Jan. 10, 1967 c. l. WILLIAMS RETAINING DEVICE FOR ROCK BOLTS Filed 00's. 26, 1964 INVENTOR. CHESTER WILL/AIMS FPS United States Patent 3,296,919 RETAINING DEVICE FOR ROCK BOLTS Chester I. Williams, 347 Greenbriar SE., Grand Rapids, Mich. 49506 Filed Oct. 26, 1964, Ser. No. 406,270 1 Claim. (Cl. 85-73) This invention provides a device for retaining a rock bolt in a drilled overhead hole in a rock formation as the bolt is installed. The inserted portion of the rock bolt is a rod usually an inch or more in diameter, with an expandable anchor at the inner end. If the slope of the overhead hole is sufficient to create a tendency for the rod to slide back out as it is inserted, the workman has an obviously difiicult problem to contend with. The rods are often over twenty feet long, and may be assembled in sections as they are installed. Holding the inserted portion while attaching another section represents an extra operation that can well be dispensed with. Once the entire rock bolt is in the installed position, it should stay there by itself until the anchor can be set.
The most effective anchor units now in general use are those involving relative rotation between the rod and a cone, so that threaded engagement between these members produces axial movement of the cone to expand a surrounding shell against the wall of the hole in the rock. To set such an anchor, it is necessary to restrain the tendency of the cone and shell to rotate with the rod as a result of friction. The preferred form of this invention provides a very simple modification of a conventional rock bolt anchor that has the dual function of preventing slip-back of the installed rock bolt, and restraining rotation of the anchor shell. This is accomplished through the use of resilient fingers arranged to engage the wall of the hole, and slanted in a direction such that movement into the hole is relatively free, but movement back out of the hole is inhibited.
The several features of the invention will be analyzed in detail through a discussion of the particular embodiment illustrated in the accompanying drawing. In the drawing:
FIGURE 1 presents a sectional elevation of a rock bolt incorporating this invention in the fully installed position.
FIGURE 2 is a fragmentary view of the inner end of the rock bolt rod, and the attached anchor device.
FIGURE 3 is a section on the plane 33 of FIG- URE 2.
FIGURE 4 is a side elevation of the resilient retaining ring incorporated in the assembly.
FIGURE 5 is an end elevation of the ring shown in FIGURE 4.
The installed rock bolt assembly generally indicated at in FIGURE 1 is shown inserted in the hole 11 in the rock formation 12. The inserted portion of the rock bolt includes the rod 13 and the anchor device 14. It is conventional practice to insert the rock bolt into the hole, set the anchor against the wall of the hole, and then fill the space around the rod with grout to protect the rod and increase the bond between the rock bolt and the surrounding rock. At the surface of the rock, a hearing plate 15 and a beveled washer 16 are normally provided to transfer the stresses from the nut 17, and a vent tube 18 is arranged to traverse a suitable hole in the bearing plate 15 to provide a passage for the egress of air from the hole in the rock as grout is supplied through the hollow interior of the rod 13. A handful of plastic filler material 19 may be incorporated at the entrance of the hole 11 as a seal to permit the development of adequate grout pressure.
The preferred form of the anchoring device 14 is best shown in FIGURES 2 and 3. A threaded portion 20 at "ice the inner end of the rod 13 is engaged by the cone 21, and relative rotation between these members will produce a movement of the cone to the right, as shown in the drawing. This movement brings the conical periphery of the cone 21 axially along the similarly-shaped conical interior of the expansible shell 22 to induce expansion of the shell into solid engagement with the wall of the hole. The periphery of the shell 22 is provided with the discontinuity shown at 23, which produces a C-shaped configuration in cross section. The thrust provided by the axial movement of the cone 21 as the anchor is set is resisted by the ring 24, which is usually positioned at the extremity of the threaded portion 20 of the rod 13. The ring 24 is therefore normally fixed with respect to the rod 13, both axially and rotatably. In addition to the thrust ring 24, there may be other components to the thrust-transfer system such as one or more frictionreducing slip rings.
The retaining ring 25 has a central portion 26 preferably interposed between the thrust ring 24 and the end of the shell 22. The ring 25 has a group of resilient fingers 27 arranged around the periphery of the central portion 26, and slanted with respect to a plane perpendicular to the axis of the rod 13 in a direction from the central portion 26 away from the shell 22. This slant may be considered as backward with respect to the direction of insertion of the anchor into the hole 11, which is to the left as shown in the drawing. The circumscribed diameter around the outer extremity of the fingers 27 is selected to be in excess of that of the hole in the rock formation, resulting in a resilient engagement of the fingers in such a manner that the insertion of the rock bolt is readily accomplished, but withdrawal movement to the right is prevented in a manner similar to the action of the barb of a fish hook.
In addition to the antiwithdrawal function of the ring 25, rotation of the shell 22 with respect to the rod 13 is prevented by the presence of the forwardly- bent fingers 28 and 29, which are disposed as shown in FIGURE 3. One of these latter two fingers (such as the finger 28) is preferably disposed within the discontinuity 23 of the shell 22, and functions in the manner of a key disposed in a keyway. The finger 29 may be initially disposed as shown in FIGURE 3, but expansion of the shell 22 will ultimately bend the finger 29 into the plane of the central portion 26. In the initial position, the finger 29 prevents lateral displacement of the shell 22 (prior to the development of large forces in the anchor) which might disengage the finger 28 from the discontinuity 23. The engagement of the fingers 27 with the rock formation will restrain the rotation of the ring itself, and the presence of the finger 28 in the discontinuity 23 will correspondingly inhibit rotation of the shell 22.
The particular embodiments of the present invention which have been illustrated and discussed herein are for illustrative purposes only and are not to be considered as a limitation upon the scope of the appended claim. In the claim, it is my intent to claim the entire invention disclosed herein, except as I am limited by the prior art.
I claim:
In combination with a rock bolt having a bolt rod and an anchoring device including an expansible shell with a C-shaped cross sectional configuration having an axial discontinuity, a cone member at least partially within said shell for expanding the same, said cone member having threaded engagement with said rod, said shell being a one-piece member having a slot extending from end to end, with the walls of said slot providing abutment shoulders, and wherein said shell has a conical bore complementary to said cone member, said rock bolt also having 3 4 a thrust member normally fixed with respect to said rod, References Cited by the Examiner a retaining ring axially fixed with respect to said rod, said UNITED STATES PATENTS ring having a central portion interposed between said thrust member and the end of said shell, said ring also 111201368 12/1914 Booraem et 85 74 having a plurality of resilient fingers extending to a radial 5 2;; iZfiSi distance beyond the periphery of said shell, certain of said fingers being inclined with respect to a plane normal FOREIGN PATENTS to the axis of said rod in a direction from said central portion away from the end of said shell, said ring further 9 04189 9 9/1962 Great Bntam' having a pair of diametrically opposed fingers extending 10 CARL TOMLIN, Primary Emmi-nah in the opposite direction from the inclined fingers, one
finger of said pair being disposed within the said slot, EDWARD ALLEN Exammer' and the other engaging the external surface of said shell. M, PARSONS, JR. Assistant Examiner.
US406270A 1964-10-26 1964-10-26 Retaining device for rock bolts Expired - Lifetime US3296919A (en)

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US406270A US3296919A (en) 1964-10-26 1964-10-26 Retaining device for rock bolts
DEW35816U DE1946027U (en) 1964-10-26 1965-09-25 ANCHOR HEAD FOR ROCK ANCHOR BOLTS.

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Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3416230A (en) * 1966-07-11 1968-12-17 Raymond W. Oleson Means for measuring movement in masses of rock or the like
US3504498A (en) * 1968-07-26 1970-04-07 Lee Triplett Shaft securement structure
FR2478193A1 (en) * 1980-02-12 1981-09-18 Amberg Ingbuero Ag METHOD FOR ETAYING AND / OR CONSOLIDATING UNDERGROUND BUILDING CAVITIES, MINES AND TUNNELS, DEVICE FOR EXECUTING THE METHOD, AND ANCHORING ANCHOR BOLT IN A FORK-IN HOLE IN A CAVITY WALL
US4293259A (en) * 1977-12-24 1981-10-06 Heinrich Liebig Locking toggle bolt
US4314784A (en) * 1980-05-22 1982-02-09 The United States Of America As Represented By The Secretary Of The Navy Seafloor attachment bolts
DE3121198A1 (en) * 1981-05-27 1982-12-23 Hilti AG, 9494 Schaan SPREADING DOWEL
US4500239A (en) * 1981-04-14 1985-02-19 Heinrich Liebig Interlocking toggle bolt
US4534679A (en) * 1982-02-16 1985-08-13 Birmingham Bolt Company Combination expansion shell and resin secured mine roof anchor assembly
FR2566479A1 (en) * 1984-06-22 1985-12-27 Decoletaje & Extrusion Sa ANCHORING BOLT WITH EXPANDABLE SLEEVE
DE3707510A1 (en) * 1987-02-21 1988-09-01 Fischer Artur Werke Gmbh Dowel with expansion sleeve
DE3931683A1 (en) * 1979-09-21 1991-04-04 Volker Hainke Tie bolt with tension bolt and threaded section - has conically widening head, expander sleeve with outer plastics sleeve
US10309220B2 (en) * 2014-03-12 2019-06-04 Relborgn Pty Ltd. Fastener and method of sealing passage

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1120368A (en) * 1911-11-27 1914-12-08 Booraem & Rohmer Patent Company Expansion-bolt.
US2570003A (en) * 1950-04-06 1951-10-02 Palmer Welloct Tool Corp Expansible sleeve anchoring device
US2647431A (en) * 1950-02-15 1953-08-04 Ohio Brass Co Expansion bolt
GB904899A (en) * 1958-08-16 1962-09-05 Bayliss Jones & Bayliss Ltd Improvements relating to anchor bolts

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1120368A (en) * 1911-11-27 1914-12-08 Booraem & Rohmer Patent Company Expansion-bolt.
US2647431A (en) * 1950-02-15 1953-08-04 Ohio Brass Co Expansion bolt
US2570003A (en) * 1950-04-06 1951-10-02 Palmer Welloct Tool Corp Expansible sleeve anchoring device
GB904899A (en) * 1958-08-16 1962-09-05 Bayliss Jones & Bayliss Ltd Improvements relating to anchor bolts

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3416230A (en) * 1966-07-11 1968-12-17 Raymond W. Oleson Means for measuring movement in masses of rock or the like
US3504498A (en) * 1968-07-26 1970-04-07 Lee Triplett Shaft securement structure
US4293259A (en) * 1977-12-24 1981-10-06 Heinrich Liebig Locking toggle bolt
DE3931683A1 (en) * 1979-09-21 1991-04-04 Volker Hainke Tie bolt with tension bolt and threaded section - has conically widening head, expander sleeve with outer plastics sleeve
FR2478193A1 (en) * 1980-02-12 1981-09-18 Amberg Ingbuero Ag METHOD FOR ETAYING AND / OR CONSOLIDATING UNDERGROUND BUILDING CAVITIES, MINES AND TUNNELS, DEVICE FOR EXECUTING THE METHOD, AND ANCHORING ANCHOR BOLT IN A FORK-IN HOLE IN A CAVITY WALL
US4314784A (en) * 1980-05-22 1982-02-09 The United States Of America As Represented By The Secretary Of The Navy Seafloor attachment bolts
US4500239A (en) * 1981-04-14 1985-02-19 Heinrich Liebig Interlocking toggle bolt
DE3121198A1 (en) * 1981-05-27 1982-12-23 Hilti AG, 9494 Schaan SPREADING DOWEL
US4534679A (en) * 1982-02-16 1985-08-13 Birmingham Bolt Company Combination expansion shell and resin secured mine roof anchor assembly
FR2566479A1 (en) * 1984-06-22 1985-12-27 Decoletaje & Extrusion Sa ANCHORING BOLT WITH EXPANDABLE SLEEVE
DE3503450A1 (en) * 1984-06-22 1986-01-02 Decoletaje y Extrusion, S.A. (DESA), Hospitalet de Llobregat, Barcelona ANCHOR BOLT WITH EXPANDABLE SLEEVE
DE3707510A1 (en) * 1987-02-21 1988-09-01 Fischer Artur Werke Gmbh Dowel with expansion sleeve
US10309220B2 (en) * 2014-03-12 2019-06-04 Relborgn Pty Ltd. Fastener and method of sealing passage

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DE1946027U (en) 1966-09-15

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