Insertion-removal tool for holder/bit

Abstract

A unitary bit/holder assembly includes a reverse taper insert having a diamond coated tip mounted thereon that is received in an annular flange forwardmost portion of a holder body. In a modification, the diamond coated tip is received in a recess on a generally cylindrical forwardmost portion of the holder body.

Description

TECHNICAL FIELD

This invention relates to combination bit/holders used in road milling, mining and trenching and, more particularly, to diamond coated tungsten carbide inserts and structure for mounting them as part of a unitary bit/holder combination.

BACKGROUND

Road milling bits and bit holders, the design of which, when made in differing sizes, can also be used for trenching machines and mining machines, have benefitted greatly from what has been termed a quick change shank, found in the instant inventor's prior U.S. Pat. Nos. 6,371,567; 6,685,273 and 7,883,155. Additionally, the construction features of the forward end of the advanced bit design found in applicant's U.S. Pat. No. 6,739,327 has been cited in over 70 later issued patents. The Burkett U.S. Pat. No. 5,161,627 disclosed that one could mount a diamond coated insert in a one-piece bit/bit holder body. A similar structure with a diamond coated tip is found at the Sionett U.S. Pat. No. 4,944,559. These diamond coatings have heretofore been formed in a standard process that includes high temperature, high pressure forming of same on a tungsten carbide high impact substrate.

A later version of the present applicant's prior invention of a quick change shank such as found in the U.S. Pat. No. 6,371,567 patent is provided in combination with a diamond tip and found at the Hall et al U.S. Pat. No. 8,118,371.

With diamond coated tips of road milling machinery, it has been found that the working life of the tip has been greatly increased. As such, it is no longer necessary to provide changeable bits in bit holders. The operating life of bits and bit holders are such that they can be physically combined in a unitary structure.

A need has developed for a lower cost combination diamond coated tip and front portion, formerly used on a removable bit, with a quick change bit holder and improvements in tools for inserting and removing same in their working mountings.

SUMMARY

The invention is found in a tool for inserting and removing a tip assembly for an attack tool comprising a diamond coated tungsten carbide tip, a tungsten carbide insert, and a steel transition pad positioned between said tip and said insert.

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 an exploded perspective view of the combination diamond coated bit/bit holder constructed in accordance with the present invention together with a drift pin and cup portion of a tool useful for inserting the bit holder in its bit block (not shown);

FIG. 2 is a front elevational view of the combination diamond coated tip bit/bit holder of the present invention shown in FIG. 1 together with two alternate shape diamond coated tip inserts;

FIG. 3 is a side elevational view of the combination diamond coated tip/bit holder shown in FIG. 2;

FIG. 4 is a side elevational view of the combination diamond coated bit/bit holder shown in FIG. 3 with a cross section of the female end of the holder insertion tool of FIG. 1 shown as mounted over the forward end of the bit/holder;

FIG. 5 is a front elevational view of the bit/holder shown in FIG. 4 with a cross section of the female end of the bit/holder insertion tool shown in FIG. 4 having the drift pin positioned through both the removal tool and the combination bit/holder;

FIG. 6 is an exploded perspective view of a modification of the combination bit/holder shown in FIGS. 1-5 further including an added steel cup into which the tungsten carbide diamond coated tip is inserted which, in turn is inserted in the forward end of the reverse taper tungsten carbide insert;

FIG. 6a is an elevational view of the tip receiving cup including the bottom pad shown in FIG. 6;

FIG. 6b is a top plan view of the cup shown in FIG. 6;

FIG. 7 is a top ¼ perspective view of a complete bit/holder removal tool for removing the bit/holder from a bit block;

FIG. 8 is a top ¾ perspective view of the female cup of the bit/holder removal tool showing the Acme threaded top bore therein;

FIG. 9 is a top ¼ perspective view of a second modification of the bit/holder incorporating an annular steel front end of the bit holder adapted to receive the tungsten carbide diamond coated tip insert therein;

FIG. 10 is an exploded view of the bit/holder shown in FIG. 9 with the annular tungsten carbide ring exploded out of its annular pocket more clearly showing the steel front end of the bit holder of FIG. 9 adapted to receive the tungsten carbide diamond coated insert therein to provide added ductility and shock absorption to the assembly; and

FIG. 11 is a top ¾ perspective of the second modification shown in FIG. 9 as it appears when the bit/holder has been in use a short time with an upper distal annular end worn away.

DETAILED DESCRIPTION

Referring to FIG. 1, a combined diamond coated bit/holder is shown, generally at 15, in its completed form together with a female cup insertion-removal member 16 and its accompanying drift pin 17, which extends through the hollow open bottom 18 of the female cup member through aperture 20 and through a body 21 of the combined bit/holder at bore 22 for insertion into a bit block (not shown) which, in turn, is mounted on a rotatable drum (not shown).

Referring to FIGS. 1-3, a first embodiment of the combination diamond coated bit/holder 15 includes a holder base 21 having an upper body portion 23 and a lower shank portion 24. The upper and lower shank portion are both made of 4140, 4340, or similar steel. The lower shank portion 24 is a hollow, generally cylindrical member having at least one slot 25 extending axially through the side of the hollow shank from the distal end upwardly toward the top of the shank portion. Alternately, a second, wholly internal slot 26, may be positioned preferably 180 degrees around the shank from the first slot extending in an axial direction similar to the first slot 25, however, starting from a position in spatial relation upwardly from the bottom distal end of the shank as shown at 26 in FIG. 2.

In the preferred embodiment 15, the shank 24 includes a lower resilient bit block bore engaging portion 27, and a millable shank portion 28 which may in this embodiment be a few thousandths of an inch. An uppermost part of the shank 30 immediately adjacent the larger body portion 21 includes a generally cylindrical portion having an annular outer surface sized to be press fit into the top of the bit block bore (not shown). As noted previously in U.S. Pat. Nos. 7,883,155, 6,685,273 and 6,371,567, the interference fit between the bottom shank portion 27 and a bit holder bore is substantially larger than a standard interference fit (0.001-0.003) for a solid shank, extending approximately 0.012 to 0.030 inches for a nominal 1½ inch diameter shank for use in road milling.

The upper or body portion 21 of the holder 15 includes a radially extending annular flange 31 defining the bottom of what is termed in the industry as a tire portion, diametrically the widest segment of a holder (about 2⅝ inch for a road milling holder). The height of the tire portion may approximate ½ inch and includes a pair of opposing wedge shape cutouts 19-19. From the top of the tire portion, the body generally slopes radially inwardly at 32 and upwardly to perform a ramp-like function with the aim of moving material, macadam, concrete, etc. outwardly from the forward tip of the diamond covered leading portion 33 of the bit/holder. In this preferred embodiment, the mid section of the upper body portion of the holder 23 includes a generally cylindrical segment having at the bottom thereof a cross or through hole 22 substantially perpendicular to the longitudinal axis of the holder. This cross hole 22 extends horizontally through the body portion and forms a receiver for a drift pin 17, shown most clearly in FIG. 1 used in connection with the cup portion of a bit/holder insertion tool 16, a part of which is also shown in FIG. 1, and which will be discussed in more detail below.

This upper cylindrical segment 23 of the preferred holder body 21 is, with the exception of the through hole 22 mentioned previously, generally solid and provides a substantial portion adding bulk and toughness to the combination bit/holder 15. As shown most clearly in FIGS. 2 and 3, the upper surface 34 of the holder is also made of the same steel as the remainder of the holder and includes an annular trough 35 in which an annular tungsten carbide sleeve 36 is positioned and brazed in place. The trough provides a retainer for an annular braze disk (not shown) which when melted adheres the base of the annular tungsten carbide ring 36 to the trough bottom. Radially inwardly of the tungsten carbide ring is an annular steel axially extending flange 37 that includes a central tapered cutout portion 38. A reverse taper tungsten carbide insert 40 is fitted into that tapered bore 38 and brazed therein. The top 41 of the tungsten carbide insert 40 extends substantially beyond the top 42 of the steel annular ring 37 and with the exception of a generally cylindrical recess 43 in the top surface thereof is constructed substantially similar to the cutting tool bit shown and disclosed in the present inventor's issued U.S. Pat. No. 6,739,327. The tungsten carbide reverse taper insert 40 provides a toughened insert for holding a commercially available diamond coated tip 44 which has a generally cylindrical tungsten carbide base 45 and a diamond coated tip which may be conical 33, flat 46 or oval 47 in cross section as shown in FIG. 2. Similarly to the tungsten carbide members previously mentioned, the base 45 of the tip insert 33 is brazed into the tungsten carbide reverse tapered insert member 40.

It should be noted that during assembly, only the top part of the bit body 23 is heated by a inductance coil surrounding same to a temperature just slightly over the melting point of the brazing discs used, i.e., about 1300 degrees F. The careful positioning of the inductance coils provides for heating a minimal area of the upper portion 21 of the bit/holder 15, thus minimally affecting the grain structure, hardness, toughness etc. of the holder itself.

Referring to FIGS. 4 and 5, the combination diamond tip bit/holder 15 shown in FIGS. 4 and 5 is exactly the same as that described in FIGS. 1-3. What is shown in FIGS. 4 and 5 is the mounting of the female or cup shape bit portion 16 of a bit insertion/removal tool, generally at 49, (FIG. 7) as it appears mounted on the top or holder body 21 of the combination bit/holder 15 together with the drift pin 17 positioned through the central portion 21 of the holder body and the outer annular wall of the cup or female insertion-removal member 16.

As shown in FIGS. 1, 4 and 5, the female member 16 is generally cup shaped, having an outer cylindrical wall 50 and an inner, generally cylindrical bore 51 or hollow portion sized to rather loosely fit over the outside of the top 21 of the holder body 15 with a generally flared distal portion 18 sized to fit over the sloped segment 32 of the bottom of the holder body upwardly adjacent the tire portion thereof.

A bore 20-20 horizontally through the walls of the female cup member 16 is sized and positioned to align with the through or cross bore 22 in the holder body 16 to allow a drift pin 17 to be loosely (slidably) positioned therethrough. The upper hollow or bored out portion of the cup member body fits over the diamond coated bit 33, tungsten carbide insert 40, and the tungsten annular ring 36 at the recess 35 in the top wall 34 of the holder body 21. The upper portion of the cup is, in this embodiment, tapered to a frustoconical shape 53 having a generally flat upper surface 54.

Referring to FIGS. 7 and 8, the female or cup portion 16, as mentioned previously, includes an upper threaded bore 55 centrally therethrough which is adapted to receive an Acme threaded rod 56 therein as a part of a bit insertion/removal tool 50. In order to maintain the cup 16 on the Acme threaded rod 56, a nut 57 is threaded on the rod and tightened against the upper annular wall of the cupped member 16 to secure same thereon. The Acme threaded rod 56 extends from the female cup member 16 to a distal stop 58 on the opposite end of the Acme threaded rod. In between is slidably mounted a dual handle hammer member 60 having a central annular portion 61 with a central bore 62 therethrough slightly larger than the outer dimension of the Acme thread for sliding along the threaded rod 56. 180 degrees apart on opposite sides of the annular central member are mounted hand holds 63-64 perpendicularly to the bore through the central member 61, each having a form fitting grip on its distal end. In operation, once the female cup member 16 is fitted over the top 21 of the bit/holder 15 and the drift pin 17 positioned therethrough, the double hand hold slider 60 may be quickly moved axially along the Acme threaded rod 56 and rammed onto the stop 58 at the distal end thereof to provide axial hammer type outward force to enable the removal of the bit holder 15 from its respective bit block bore (not shown).

Referring to FIGS. 6, 6a, and 6b, a first modification of the diamond coated bit/holder 15 of the present invention shown in FIGS. 1-5 is substantially identical to the holder 21, tungsten carbide ring 36, and tip 33 of that embodiment. The only difference being the mounting of a steel receiving cup 65 being about ⅜-1 inch, in height, that is brazed into the forward recess 43 of the reverse taper insert 40.

The diamond coated tip 33, 33a, 46 and 47 is brazed into the hollow cup forward portion 66 of the steel cup insert 65. The reasoning behind the addition of the cup shaped thick bottom 67 of the steel insert 65 relates to the ductility of the steel vs. the non-ductility of the tungsten carbide insert 40. The use of a solid bottomed 67 steel cup 65 member allows the ductility of that thick cylindrical bottom pad to cushion the repeated hammer blows received at the diamond coated tip 33a. This added ductility to the tip end 33a of the bit allows that bit/holder 15 to be used not only in removing MacAdam, but also in removing a concrete and other hardened and non-homogenous materials, thus giving added life and a widened field of use for the bit/holder combination 15 over previously known diamond coated bits. Further, the tungsten carbide to steel to tungsten carbide sequence of the disclosed modification yields substantially stronger bonds than brazing tungsten carbide to tungsten carbide.

Referring to FIGS. 9 and 10, a second modification 15a of the present invention is generally shown. As with the previous modification, the portion of the holder including the shank 24a, tire portion 31a, mid and most of the upper body portion 23a of the holder 15a are identical to that shown in the first embodiment. However, the axially extending upper annular flange 68 of the holder 15a immediately inwardly adjacent the tungsten carbide protective ring 36a is substantially solid with the exception of a generally cylindrical recess 64 sized for the fitting of the diamond covered commercial insert 33a which may be brazed therein. This modification of the uppermost portion of the holder body provides a substantial steel mounting for the diamond coated tungsten carbide body tip 33a. This substantial steel upper portion 68 provides added ductility, even more so than the steel thick bottomed cup 65 shown in FIG. 6. This increased ductility acts as a shock absorber for the diamond coated tungsten carbide tip 33, 33a, 46 and 47 enabling same to the used in more than just the asphalt or macadam removal, which was a limitation to the use of previously known diamond coated bit tips in road milling. Additionally, the steel to tungsten carbide braze joint between the tip and the holder body is stronger than a tungsten carbide to tungsten carbide braze joint.

Referring to FIG. 11, the bit/holder 15a shown in FIGS. 9 and 10 is shown as it appears after use in the field has started. In use, the bit/holder 15a wears adjacent its tip insert 33a. The steel annular ring 68 which forms the top of the upper body 23a of the bit/holder wears away quickly during use, as shown at 68a in FIG. 11, somewhat similarly to upper portion 66 of cup 65 shown in FIGS. 6, 6a, and 6b, to the extent where it generally coincides with the top surface of the tungsten carbide annular ring 36a after use.

The purpose of the extended initial portion of the steel annular ring 68 shown in FIGS. 9 and 10 is to seat the diamond tipped insert 33a in its recess 69 as shown in FIG. 10. Initially, the tungsten carbide annular ring 36a is seated in its recess at the top of the body portion 23a with a ring of brazing material between that recess and the bottom of the annular ring 36a. A combination of the holder and tungsten carbide annular ring are heated to between 1,650-2,000 degrees F. in the first operation to join those parts of the bit holder together into a unitary structure. The tungsten carbide ring and holder are quenched and tempered to a hardness of RC 40-48, in a separate heat treatment process.

Next, the PCD or diamond insert 33a is positioned in recess 69 preferably over a silver brazing disc (not shown). This combination is then heated between 1,000-1,300 degrees F. by an induction heater (not shown) which encircles the upper tip portion of the bit holder 15a. The flow of heat through the annular steel ring 68 more effectively magnetically couples to the iron in the steel in the ring 68 to transfer heat to the tungsten carbide. The heat more efficiently goes through the steel to melt the flux and braze material between the insert 33a and the recess 69 of the steel ring 68. These two processes that join both the tungsten carbide annular ring 36a and the diamond tip insert 33a to the upper body 23a and recess 69 of the inner annular ring 68 are made at two differing temperatures to provide a more stable unitary structure in the end-finished bit holder of the present invention.

While one embodiment and two additional modifications 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 insertion-removal tool comprising: a hollow female cup comprising an outer annular wall and an upper wall enclosing one end of said outer annular wall,said upper wall including a threaded central bore axially therethrough,said outer annular wall including a pair of diametrically opposed apertures therethrough aligned perpendicularly to said axis,a drift pin slidably mountable through said opposed apertures and adapted to selectably-releasably retain a complementary formed bit/holder thereon,an elongate first rod threaded therealong attached at a first end to said upper wall threaded central bore, said elongate first rod including an enlarged stop at a second end opposite the first end of said first rod,an impact member slidably mounted along said elongate first rod, said member including,a collar including a central bore therethrough which is diametrically greater than a diameter of said elongate first rod which is positioned through said central bore, andsaid collar including a pair of second rods extending from opposing sides of said collar perpendicular to said central bore.

2. The bit/holder insertion-removal tool as defined in claim 1 wherein: said elongate first rod is threaded completely along its length.

3. The bit/holder insertion-removal tool as defined in claim 2 wherein: said threads on said elongate first rod and said upper wall threaded central bore are Acme threads.

4. The bit/holder insertion-removal tool as defined in claim 1 further including: a stop nut threadedly mounted on said first elongate rod to releasably locking engage said upper wall adjacent said threaded central bore thereof.

5. The bit/holder insertion-removal tool as defined in claim 1 wherein said pair of second rods further includes hand holds with form fitting grips thereon.

6. A bit/holder insertion-removal tool comprising: a hollow female cup comprising an outer annular wall and an upper wall enclosing one end of said outer annular wall,said upper wall including a threaded central bore axially therethrough,said outer annular wall including a pair of diametrically opposed apertures therethrough aligned perpendicularly to said axis,a drift pin slidably mountable through said opposed apertures and adapted to selectably-releasably retain a complementary formed bit/holder thereon,an elongate first rod threaded continuously therealong attached at a first end to said upper wall threaded central bore, said elongate first rod including an enlarged stop at a second end opposite the first end of said first rod, said threads along said elongate first rod being Acme threads,an impact member slidably mounted along said elongate first rod, said member including,a collar including a central bore therethrough which is diametrically greater than a diameter of said elongate first rod which is positioned through said central bore, andsaid collar including a pair of second rods extending from opposing sides of said collar perpendicular to said central bore, said second rods including hand holds with form fitting grips thereon.