Reverse Taper Shanks and Complementary Base Block Bores for Bit Assemblies

Abstract

A bit holder and corresponding base block are disclosed wherein a slotted shank of the bit holder includes a reverse taper portion adjacent a distal end thereof. A base block with a bore for receiving said shank includes a corresponding hollow portion of reverse taper configuration that will tend to retain said shank therein.

Description

BACKGROUND OF THE INVENTION

In the world of heavy duty equipment, mining, trenching and road milling equipment needs to be built to take the strain and wear of removing asphalt, concrete, rock, minerals, coal and the like from the earth's surface and subterrain.

Generally, some very hard material, such as tungsten carbide and lately industrial and man-made diamond material provide the leading edge of such heavy duty equipment. In road milling, the surface removing equipment includes a rotatable drum on which a plurality of bit assemblies, including the aforementioned very hard material tips, are positioned in close proximity, usually in spiral or chevron shape, on the outside of a rotatable drum.

Prior to applicant's ground-breaking inventions found in U.S. Pat. Nos. 6,371,567 and 6,585,326, the very hard tips, found in what is termed “bits” were rotatably mounted on bit holders, or intermediate parts, that were fastened to base blocks which, in turn, were mounted on the outside of such drums, or on the outside of plates positioned on the outside of heavy duty connected links. The intermediate parts or bit holders were retained on the base blocks by bolting or by use of other retainer distal end means. Applicant's prior inventions eliminated the need for the nuts at the back end of the base blocks by providing a bit holder having a hollow slotted shank with an increased overall super interference fit being driven and holding same securely against the base block bore.

Especially with road milling machines and other heavy duty equipment having established configurations, the need for new and improved material removing assemblies at the point of their contact with the material to be removed, has necessitated that the equipment, even if improved, be largely interchangeably compatible.

With traditional bit holders having generally cylindrical shanks nominally 1½ inches in diameter and about 2½ inches in length to fit into previously existing base block bores, applicant's improved interference fit bit holders had similar diameter and length shanks.

Given the heavy duty nature of highway milling and material removal, the ability to drive in both bit holders having removable bits mounted therein, and also unitary combination bit/bit holders that include either industrial diamonds or PCD material at the tips thereof into base blocks and retain them therein is highly desirable. In this regard, improved access to the rear of base blocks for punching out bits and combination unitary bit/holders from their mounted position in the base blocks would be very desirable.

A need has arisen for base blocks having shorter length bit holder bores and, consequently, improved bit holders and combination unitary bit/holders having shortened shanks thereon which matingly engage and are retained in such base block bores.

SUMMARY OF THE INVENTION

The invention resides in a bit holder having an upper body portion and a hollow slotted generally cylindrical shank depending from the upper body portion. An outer surface of at least a first portion of the length of the shank adjacent its distal end having a taper extending away from an axis of the shank as it descends toward the distal end thereof.

BRIEF DESCRIPTION OF THE DRAWINGS

The features of the present invention which are believed to be novel are set forth with particularity in the appended claims. The invention may best be understood from the following detailed description of currently preferred embodiments thereof taken in conjunction with the accompanying drawings wherein like numerals refer to like parts, and in which:

FIG. 1 is a side elevational view of a bit holder and its corresponding base block, with tapers exaggerated for visibility, constructed in accordance with the present invention;

FIG. 2 is a cross-sectional view taken substantially along line 2-2 of FIG. 1 also showing an outline of the bit holder and the base block bore, constructed in accordance with the present invention;

FIG. 3 is a cross sectional view similar to FIG. 2 showing the bit holder mounted in the base block bore;

FIG. 4 is a front elevational view of a combination unitary bit/bit holder, with tapers exaggerated for visibility, constructed in accordance with the present invention, with a PCD tipped insert; and

FIG. 5 is a front elevational view of a combined unitary bit/bit holder having an increased diameter PCD insert integrally mounted on the top of the bit holder body.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring to FIGS. 1 and 2, a bit holder 10 and its corresponding base block 11, constructed in accordance with the present invention, shown in exploded form in FIG. 1, includes a shortened bit holder shank 12 and a complementary shortened base block bore 13. The bit holder has a generally frustoconical body 14 with a hollow central bore 15 therethrough, and continuing through a generally hollow cylindrical slotted shank 12. In this preferred embodiment the shank 12 has a reduced effective length approximating 1-½ inches (total length 1¾ inches) with a nominal diameter of 1½ inches, the diameter varying along its length. A preferred embodiment of the shank 12 includes a ¼ inch long top portion 16 that integrally connects with the bottom 17 of the generally frustoconical (could be other shapes) body 14, a central reduced diameter portion 18 approximately ½ inch in axial length and a reverse taper portion 19 approximately ¾ inch in length that expands as it descends from the reduced diameter portion 18 to its terminus 22 adjacent a short (¼ inch) distal end portion 21.

The shank 12 of the present invention also includes an elongate slot 23 extending from the distal end 22 of the shank 12 through the reverse taper portion 19, through the reduced diameter portion 18 and terminating adjacent the top increased diameter portion 16. The slot 23 has about the same percentage length to shank length ratio with the shortened shank of about 1½ inches to the 1¾ inch to shank total shank length as slots utilized with the longer 2½ inch shanks. In this preferred embodiment, the slot 23 extends upwardly to the increased diameter top portion 16 of the shank 12 to allow radial deformation or compressibility of the top portion 16 of the shank 12.

While in the preferred embodiment, the upper body portion 14 includes cutouts 24 (one shown) (FIG. 1), shown adjacent the top 25 thereof for driving a bit (not shown) out of the top 25 of the bit holder 10 and out of the top of the bit holder bore 15, and wedge shape undercuts 26 (one shown) adjacent the rear annular flange 17 of the body 14 to provide for fork shaped tools to be inserted therein to help drive the bit holder 10 from the base block 11. The distal end 22 of the shank 12 includes a mostly solid annular wall, with the exception of the slot 23 and of the hole 15 bit holder bore, that provides a substantially flat surface for receiving a drift pin of suitable diameter, or other extractor, which may be utilized to drive the bit holder shank 12, or a bit shank, from the base block bore 13.

The base block 11 shown in FIG. 1 includes a generally flat or somewhat hollow radius segment shape at its mounting end 27 that is adapted to be affixed (as shown) to either the cylindrical surface of a drum, or a plate mounted on top of the outside surface of the drum or of the heavy duty connected links (not shown). The mounting portion 28 of the base block 11 further includes a chevron shape top portion 30 that recedes on each side from a central spine 31 providing a pathway for loosened road surface material to move efficiently around the base block 11.

Outwardly of the mounting portion 28 is a generally annular bit holder receiving portion 32 having a substantially flat annular top surface 33 and a shortened axial body depth about 1½ inches in height. In this preferred embodiment, the bit holder block mounting portion 32 includes a multi segment bit holder block bore 13, shown in dotted line. The shortened body height has there subjacent an L shape bottom surface 34 which may be considered a cutout from prior base blocks having the 2⅜ inch length bit holder block bore.

The preferred embodiment of the bit holder block bore 13, as shown in FIGS. 1 and 2, includes a generally annular countersink 35 adjacent the top thereof, a 1 degree per side tapered upper segment 36 immediately subjacent the top countersink that provides at its bottom a generally annular waistline 37 forming the narrowest portion of the bore 13 and a reverse taper or generally expanding taper 38 extending subjacent the waistline to the L shape cutout portion 34.

The countersink 35 and tapered upper side are preferably machined surfaces. The expanding taper bore surface is preferably machined from the waist 37 through the horizontal side 39 of the L shape bottom portion to the edge 34 of the machined portion.

An arcuate cutout segment below line 34, with its innermost border shown at 40, extends toward the bottom of the base block mounting portion 28 and does not have to be machined.

While the slot 23 in the bit holder shank 12 may be of a number of widths, depending upon the exact configuration of the side wall thickness (about ⅜ inch), the reverse taper angle of the reverse taper portion 19 of the shank 12, and the hardness and compressive strength of the specific steel utilized for the bit holder 10, the slot shown 23 is about ⅝ inches in width.

While the top taper portion 36 of the bit holder block bore shown in the preferred embodiment includes a 1 degree taper section, it could also, within the outlines of the present invention, be a straight hollow cylindrical configuration or a continuous reverse taper portion through the base block 11. The reverse taper portion 38 in this preferred embodiment may vary from about 0.001 to 15 degrees per side reverse taper.

The respective reverse taper portions of the shank 19 and the base block bore 36 do not have to be identical reverse tapers. Applicant is presently working within limits of about 0.001 of a degree to about 2 degrees per side. Also, applicant's prior co-pending application (Ser. No. 14/959,551, the contents of which are incorporated herein by reference) have discussed differential reverse tapers that also will provide sufficient radial holding forces.

In operation, within the present invention, the compressibility of the side wall 12a of the bit holder shank 12 constructed in accordance with the present invention allows the shank to be driven into the base block bore 13 by compressing the outer circumferential perimeter of the shank 12 into the bore 38 of the reverse taper segment 19 of the shank. When the reverse taper portion 19 of the shank 12 reaches the reverse taper portion 38 of the base block bore 13, the shank 12 will more easily be driven into the base block bore 38 as it expands until the reverse taper portion 19 is generally fully positioned in the base block 12. The shank 12 is then nearly complementary to the reverse taper portion 38 of the base block bore 13 with the rear annular flange 17 of the bit holder body 14 seating on the top annular portion 33 of the base block bit holder mounting portion 32.

Please note that within the present invention, the reverse taper portion in this embodiment, variable degrees of reverse taper per side, will be similar in reverse taper 19 to the angle of the reverse taper portion 38 of the bottom of the base block bore 13. It doesn't have to be identical and variations may be utilized. The aim in the present invention is to provide a reverse taper portion 19 of the bit holder that by its configuration tends to be seated in the base block bore 38 and has an aversion to coming out of the base block bore 13 unless it is driven out by an extractor.

This is an important feature of applicant's invention that does not exist in prior embodiments of a super interference sized slotted shank that may be driven into a base block bore. A super interference is defined as an interference greater than that found in the most extreme fit tables of engineering design handbooks for solid shaft diameters. The slot and hollow shank allows for elastic radial compression of the shank through the waist of the base block bore providing increased compressive holding force between the shank and the corresponding portion of the base block bore when fully inserted therein.

Referring to FIG. 3, the bit holder 10 is shown as it appears when driven completely into the base block bore 13 such that the rear annular flange 17 of the bit holder body 14 seats on the top annular wall 33 of the bit holder receiving portion 32 of the base block 11 and the shank 12 is fully driven into the base block bore 13. At the bottom of the top quarter inch expanded diameter segment 16 of the shank 12, the bottom edge 16a of that portion provides an almost annular interference fit with the one degree tapering upper segment 36 of the base block bore 13. The existence of the slot 23 extending to this upper quarter inch segment 16 allows the generally annular force or shrink type interference fit of 0.001-0.003 inch for a 1½ inch diameter shank to be increased and have a substantial ring contact rather than a matching interference contact that provides a contact area which may be about ⅛ inch in height. This generally force or shrink type interference fit combined with the annular inset groove 43 in the bit holder body 14 between the shank 12 and the rear annular flange 17 of the upper body portion lessens stress between the shank 12 and the bit holder body 14 when it is driven into the base block bore 13.

The reduced diameter section 18 of about ½ inch in axial length is about 0.020 inch per side less in diameter than the top 16 and reverse taper sections 19 of the shank 12. As shown most clearly in FIG. 3, when the shank 12 is completely driven into the base block bore 13, the reverse taper portion 19 of the shank 12 and the reverse taper of the base block bore 38 generally match in complementary fashion. This provides a structure that reduces the ability of the shank to self withdraw from the base block bore during the extreme in-use forces put upon the bit holder 10 or its corresponding bit (not shown). And yet, the wedge shaped undercuts 26 and the angularly slotted rear 40 of the base block bore 13 together with the shortened length of the base block bore 36-38, provide added space for the acceptance of various shaped extraction tools which may be utilized to drive the bit holder 10 from the base block bore 13 when desired.

Referring to FIG. 4, a unitary bit/bit holder 50 is shown, constructed in accordance with the present invention, and includes a shank 51 and a body portion 52 having a generally axially extending annular cup portion 53 with a recess 54 therein. That recess matingly accepts a transition member 55 which may be cylindrical, or slightly tapered as shown in FIG. 4. This transition member 55 may be made of steel, tungsten carbide or the like as desired and includes at the top thereof, a generally cylindrical recess 56 into which a diamond or PCD layer or coating on top thereof, or a thermally stable polycrystalline member is affixed, generally by brazing.

As noted in FIG. 4, the diamond coated top thereof may be flat 57, oval 58, cone shaped 60 or the like. In this embodiment, the transitional member is 55 preferably made of tungsten carbide. Outwardly of the annular uppermost extending cup portion 53 of the body, is an annular tungsten carbide ring or shroud 61 that provides added support and wear resistance to withstand material flowing around the outside of the bit/bit holder 50. The diamond tip members 57, 58, 60 shown in FIG. 4 are 0.500 inch diameter to about 0.565 inch diameter at their base and are commercially obtainable from a number of sources. The shank 51 of the embodiment shown in FIG. 4 is similar to the shank shown in FIGS. 1, 2 and 3 having a ¼ inch upper body enlarged diameter portion 62, a reduced diameter central portion 63 and a reverse taper portion 64 approximately ¾ inch in axial length ending in a distal end portion 65 about ⅛ to ¼ inch in axial length.

The slot 66 in the shank 51 is similar to the slot 23 shown in FIG. 3, approximately ⅝ inch in width and extending upwardly from the distal end 65 to the top increased diameter portion 62. While the slot 66 shown here has parallel sides, it will be understood that the slot may have differing configurations, with a wider slot leading to a more compressible shank 51.

Referring to FIG. 5, a bit/bit holder 70, constructed in accordance with the present invention, is substantially identical to that shown at 50 in FIG. 4, with the exception that an enlarged tip or tip insert 71 having a diameter approximating ¾ inch at its base is fitted into the generally annular axially extending flange 72 at the top of the body portion 73 of the bit/bit holder. This insert 71 is fitted into a substantially cylindrical recess at the top of the body portion 73. That recess may also have a slight taper therein, depending on the configuration of the base of the TSP diamond or PCD diamond layered or coated insert 71.

Like the embodiment shown in FIG. 4, the embodiment of FIG. 5 also includes an annular tungsten carbide ring 75 positioned outwardly thereof and affixed thereto, preferably by brazing, into an annular recess 76 outwardly adjacent the bottom of the annular axially extending flange.

As shown in FIGS. 4 and 5, the hollow portion 50a, 70a of the shank 77 extends preferably upwardly to the rear annular flange 52a, 78 of the body, respectively, and in these embodiments, extends upwardly past the top of the tire portion 52a, 79, respectively, of the body where it terminates leaving the remainder of the upper narrowing portion of the body a solid structure.

The embodiment shown in FIGS. 1, 2 and 3 is that of a bit holder which may have a bit inserted in the top bore thereof. The embodiments shown in FIGS. 4 and 5, which include PCD diamond tipped or TSP diamond inserts, will be formed integrally with the body of each embodiment and do not rotate thereon as would a bit in the first embodiment shown in FIGS. 1-3. These diamond tipped and TSP diamond inserts should provide substantial added life over that of tungsten carbide bits, such that rotation of the top thereof is not required to obtain substantial increase in service life. Of course, a rotatable diamond tipped bit might even provide longer in-service capability on a rotatable bit.

While three embodiments of the present invention have been shown and described, it will be apparent to those skilled in the art that many changes and modifications may be made without departing from the true spirit and scope of the present invention. It is the intent of the appended claims to cover all such changes and modifications which fall within the true spirit and scope of the invention

Claims

1. A bit holder comprising: an upper body portion and a hollow slotted generally cylindrical shank depending from said upper body portion,an outer surface of at least a first portion of the length of said shank adjacent a distal end thereof having a taper extending away from an axis of said shank as it descends toward said distal end.

2. The bit holder as defined in claim 1 wherein said shank further includes: a second portion of diminished diameter upwardly adjacent said first portion.

3. The bit holder as defined in claim 2 wherein: said shank further includes a third portion adjacent a bottom of said upper body portion that is of increased diameter relative said second portion, andone of cylindrical configuration, andtapered configuration toward said axis of said shank as one descends toward said distal end of said shank.

4. The bit holder as defined in claim 1 further including: a hardened tip integrally formed on a top of said upper body portion.

5. The bit holder as defined in claim 4 wherein said tip includes diamond material on top of a tungsten carbide substrate.

6. The bit holder as defined in claim 4 wherein said tip includes thermally stable polycrystalline diamond material.

7. The bit holder as defined in claim 3 wherein said combined first, second and third portions of said shank are less than 2½ inches in length.

8. The bit holder as defined in claim 3 wherein the slot of said hollow slotted generally cylindrical shank extends from said distal end thereof axially through said first portion thereof and through said second diminished diameter portion thereof terminating adjacent said third portion thereof.

9. A combination bit holder and base block comprising: a bit holder having an upper body portion and a generally hollow cylindrical slotted shank depending therefrom,a first portion of said shank adjacent a distal end thereof including an outer surface of increasing diameter toward said distal end thereof, anda base block including a bore therein for receiving said shank, said bore including a portion generally corresponding in hollow dimension to said first portion of said shank at a similar position from a top of said bore as said first shank portion is from a bottom of said upper body portion.

10. The combination as defined in claim 9 said shank further includes a third portion adjacent a bottom of said upper body portion of generally cylindrical configuration and, said bore of said base block includes a top portion configured for an annular interference fit with said third portion of said shank along at least a portion of their lengths.

11. The combination as defined in claim 9 wherein said top portion includes a waist defining a bottom thereof and the narrowest part of said bore.

12. The combination as defined in claim 11 wherein said bore corresponding in hollow dimension to said first portion of said shank extends from said waist toward a bottom of an enclosed bore portion of said base block.

13. The combination as defined in claim 12 wherein a radial segment of said bore extends beyond a bottom enclosed bore portion of said base block toward a bottom of a mounting portion thereof.

14. The combination as defined in claim 13 wherein said radial segment extends from said bottom enclosed portion of said base block at an angle to an axis of said bore less than that of said annular bore below said waist thereof.

15. The combination as defined in claim 11 wherein: a widest part of said shank when inserted in said base block bore past said waist of said bore tends to bias said shank to be fully inserted in said bore.

16. A combination bit holder and base block comprising: said bit holder including a generally cylindrical hollow slotted shank, an outer surface of said shank including a reverse taper segment adjacent a distal end thereof,said base block including a bore therein, said bore having a reverse taper portion complementary to said reverse taper portion of said shank when said shank is inserted in said bore,a widest part of said shank, when inserted in said base block bore past a top of said bore reverse taper portion, tending to bias said shank to be fully inserted in said bore.

17. The combination as defined in claim 16 wherein: said top of said reverse taper portion has the narrowest diameter of said base block bore.

18. The combination as defined in claim 16 wherein said shank includes: a reduced diameter portion adjacent a top of said reverse taper portion, andsaid slot extending axially from said distal end of said shank, through said reverse taper portion, and substantially through said reduced diameter portion.

19. The combination as defined in claim 18 wherein said shank further includes: a third portion adjacent a top of said reduced diameter portion,said third portion sized to form an interference fit with a top portion of said base block bore when said shank is fully inserted therein.

20. The combination as defined in claim 16 wherein: the widest part of said shank has a super interference fit with said bore reverse taper portion.