DE112011102507T5 - Retaining block for both radial and conical tool picks - Google Patents

Abstract

A holding block and picking assembly includes a pick, a washer and a block body. The pick has a shoulder and a shaft that extends rearwardly from the shoulder and has a diameter that is less than the diameter of the shoulder. The washer has a central opening adapted to fit adjacent the shoulder about the shaft and has a substantially planar edge disposed substantially perpendicular to a radius of the central opening. The block body includes a bore for receiving the shaft, a base at a lower end of the body for attaching the body to a rotatable member of a rotary cutting machine, and a stop extending forwardly from the front surface of the body and has a surface substantially perpendicular to a radius of the bore such that when the picking shaft is inserted into the bore with the washer adjacent the shoulder about the shaft, the flat edge of the washer is flush with the surface of the washer Stop acts to substantially prevent the washer rotates with respect to the block.

Description

TERRITORY

The present disclosure relates to a holding block for holding a cutting tool pick in a rotary cutting machine and to structures of a holding block with a tool pick. More particularly, the present disclosure relates to a retainer block adapted to interchangeably hold either a non-rotating radial pick or a rotating conical pick, as well as radial pick and conical pickup assemblies with the support block. The disclosure also relates to a machine comprising such a holding block and to a method using such a holding block and assemblies in a machine, in particular in a machine for mining, excavation, tunneling, street leveling and / or construction ,

BACKGROUND

In the following discussion of the technical background, reference will be made to certain structures and / or methods. However, the following notices should not be construed as an admission that these structures and / or methods constitute prior art. The Applicant expressly reserves the right to prove that such structures and / or methods are not prior art.

In rotary cutting tools and machines, two types of picks are commonly used, namely a radial pick and a conical pick. Each type of pick requires a different mounting arrangement so that it can do its job optimally. A radial pick has a unidirectional cutting head that is designed to always assume the same orientation with respect to a target material and it works like a rake or a scratch. A radial pick must therefore be mounted so that it does not rotate within its mounting block. A common mounting block of a radial pick is in 1 shown. The shape of the bore through the mounting block of the radial pick is substantially rectangular to correspond to a substantially rectangular shaft of a conventional radial pick. A machine having a plurality of radial picks mounted on a rotating drum is particularly effective in cutting through softer materials such as soil, coal and potash.

In contrast, a conical pick has a radially symmetrical cutting head that operates in the same way in any direction and acts like a scraper. Therefore, to maximize the life and performance of a tapered pick, the pick is mounted so that it can rotate freely in its mounting block. A mounting block for a conventional conical pick is shown in FIG 2 shown. The shape of the bore through the tapered picking block is substantially circular to conform to an approximately circular shank of a conventional tapered pick. A sleeve support member may be provided between the shank and the bore in an array of a tapered pick to reduce wear on the bore of the block and to ensure close fitting of the shank in the bore. A washer may be provided between the shoulder of the tapered pick and the face of the block to reduce wear on the block and also to compress the sleeve support member during installation of the sleeve holding member of the pick in the block. In some models, the washer does not rotate. A machine having a plurality of conical picks mounted on a rotating drum is particularly effective at removing and penetrating into harder, less compressible rock.

Very often, an earthworker faces a situation in which the surface layers of the earth or soil are composed of softer, soil-like material which is best buried or cut using a machine with a radial tool, while deeper soil layers are harder Rocky materials are best penetrated or cut using a conical tool. When excavating the ground for a dam that must be anchored in bedrock, soil or similar soil materials must first be removed to expose the bedrock, and then the existing rock must be removed to create a foundation for the dam. How to use the 1 and 2 A typical radial pick can not be mounted in a typical tapered picking block and a typical conical pick can not be installed in a typical radial picking block. For this reason, special drums are manufactured for use with a rotating tool machine in which each drum has either blocks for radial picks or blocks for conical picks.

As a result, for replacement between radial picks and conical picks, the entire rotatable drum of the machine must be replaced. In a situation like, for example In the above-described excavation, the earthworker must either use an inappropriate cutting system for one or the other phase of excavation (ie, a radial picking system for cutting rock or a conical picking system for cutting softer earth material) or he must take a considerable time-out to switch from one cutting system to the other. The replacement of drums on machines with rotatable cutting elements is very time consuming and can mean a downtime of the machine for three days or more, including one day to pull the machine from its on-site job to a place where the drum is removed and can be exchanged a day or more to replace the drum and a day or more to put the machine back on-site.

SUMMARY

An exemplary retainer block for both radial and conical tool picks has a body having a bore for receiving a shaft of a pick, the bore extending rearwardly from an end face of the body and having a substantially circular cross-sectional shape. The support block further includes a base at a lower end of the body to mount the body to a rotatable member of a rotary cutting machine, and a stop extending forwardly from the end face of the body. the stopper has a surface extending substantially perpendicular to a radius of the bore at a distance from the center of the bore, the stop being adapted to engage a substantially flat edge of a washer which is in a picking structure is.

An exemplary holding block and picking assembly includes a pick having a shoulder, a shaft extending rearwardly from the shoulder, having a diameter smaller than that of the shoulder, and a cutting head extending from the shoulder extends in front. The assembly further includes a washer having a central opening adapted to fit adjacent the shoulder about the shaft, the washer having a substantially flat edge substantially perpendicular to a radius of the central one Opening and is arranged at a distance from the center of the central opening. The assembly also includes a block body having a bore for receiving the shaft of the pick, the bore extending rearwardly from a front face of the body and having a substantially circular cross-sectional shape with a base at one lower end of the body for mounting the body to a rotatable member of a rotary cutting machine, and a stopper extending forwardly from the front surface of the body. The stopper has a surface substantially perpendicular to a radius of the bore and spaced from the center of the bore, such that when the picking shaft is inserted into the bore, the washer being disposed adjacent the shoulder about the shaft, the flat edge of the washer engages the surface of the stopper to prevent the washer from rotating relative to the block. If the pick is a radial pick, in which the washer is integrally formed with the shoulder of the radial pick, it is substantially prevented from rotating relative to the block. If the pick is a conical pick which is free to rotate with respect to the washer, the shank of the conical pick can rotate freely with respect to the block while substantially preventing the washer from rotating relative to the block.

An exemplary mining, excavation, tunneling, road leveling, and / or construction machine includes a rotatable member and an exemplary retainer block and pick assembly, as set forth above, mounted to the rotatable member.

An exemplary excavation method employs a rotary cutting machine comprising a rotatable cutting element on which a retainer block having a bore for receiving a shaft of a pick is mounted, the bore extending from an end face of the body extends rearwardly and has a substantially circular cross-sectional shape. The support block further includes a base at a lower end of the body for mounting the body to the rotatable member, and a stop extending forwardly from the end face of the body. The stopper has an area substantially perpendicular to a radius of the bore and spaced from the center of the bore, the stop being adapted to engage a substantially flat edge of a washer, which in FIG a picking structure is included. The method includes installing a first pick in the support block by inserting a shaft of the first pick into the bore, wherein the first pick is either a radial pick, on which a washer is integrally formed, or a conical pick having a washer , which is arranged so that it can rotate freely with respect to the picking shaft, wherein the washer has an edge positioned to engage the surface of the stop so that the washer is substantially prevented from rotating relative to the block, causing the rotatable element to rotate to allow the washer to rotate first picking performs a digging or cutting action, causing the rotatable cutting element to stop rotating, removing the first pick from the bore of the holding block, installing a second pick in the holding block by inserting a shaft of the second pick into the bore wherein the pick is the other of the picks, namely a radial pick having a washer or conical pick formed integrally thereon, which has a washer which is free to rotate with respect to the picking shaft, the washer having an edge which is so is positioned so that it engages the surface of the stop, so that the washer is substantially prevented from rotating relative to the block, and causing the rotatable element to rotate to allow the second pick to perform a dig or cut action.

An exemplary holding block for both radial and conical tool picks has a body, a base, and a stop. The body has a bore for receiving a shaft of a pick, wherein the bore extends from an end face of the body to the rear and has a substantially circular cross-section. The base is located at a lower end of the body to mount the body to a rotatable member of a rotary cutting machine. The stop extends forwardly from the face of the body, the stop having a surface substantially perpendicular to a radius of the bore and at a distance from the center of the bore. A radial pick which is inserted into the bore of the block is prevented from rotating relative to the block substantially by a washer integrally formed with a shoulder of the radial pick, the washer having a flat rim adapted therefor to engage the surface of the stopper. A conical pick which is inserted into the bore of the block can rotate freely about the block about an axis of the shank of the conical pick while a washer placed around the shank of the conical pick adjacent to a shoulder can rotate with respect to the block is substantially prevented, wherein the washer has a flat edge which is adapted to engage with the surface of the stopper.

It should be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are intended to provide further explanation of the invention as claimed.

BRIEF DESCRIPTION OF THE FIGURES

The following detailed description can be read in conjunction with the accompanying drawings in which like reference numerals designate like elements and in which:

1 FIG. 13 is a perspective view of a prior art radial picking block. FIG.

2 is a perspective view of a mounting block for a conical pick.

3A FIG. 10 is a cross-sectional view of an exemplary embodiment of a support block for use with a radial pick or tapered pick. FIG.

3B is an end view from above of the embodiment of a holding block after 3A ,

4 FIG. 12 is a partial cross-sectional view of an exemplary embodiment of a non-rotating radial pick, which in the retainer block is shown in FIGS 3A and 3B is mounted.

5 FIG. 10 is a partial sectional view of an exemplary embodiment of a rotatable conical pick and a non-rotatable washer mounted in the retainer block of FIG 3A and 3B are mounted.

6A and 6B are a side view and a view from above on the radial pick with the washer after 4 ,

7A and 7B are a side view and a top view of the conical pick and washer after 5 ,

8th is a top view of a washer for inclusion in the radial pick after the 4 . 6A and 6B and for use with the conical pick after the 5 . 7A and 7B ,

PRECISE DESCRIPTION

The 3A and 3B illustrate an exemplary embodiment of a holding block 10 for exchangeably holding a radial pick or conical pick. An exemplary embodiment of a radial picking structure 100 includes the holding block 10 and an exemplary one Embodiment of a radial pick 110 is in 4 shown and accurate views of the radial pick 110 are in the 6A and 6B played. An exemplary embodiment of a conical picking structure 200 including the holding block 10 and an exemplary embodiment of a tapered pick 210 is in 5 shown and accurate views of the conical pick 210 are in the 7A and 7B played.

As shown, the holding block has 10 a body 12 and a hole 14 extending from one end face 16 of the block 10 out to the rear. The hole 14 can get completely through the body 12 to a rear surface 18 of the block or bore 14 can only partially through the body 12 extend. The hole 14 may have a uniform diameter or multiple diameters. In the in 3A illustrated embodiment includes the bore 14 a step 32 which is a section 30 with larger diameter to the face 16 out of a section 34 with a smaller diameter to the rear surface 18 separates out. The hole 14 including the two sections 30 and 34 has a substantially circular cross-section.

A base area or base area 26 of the holding block 10 is at the bottom of the block 10 below the hole 14 and is designed to block 10 to mount on a surface of a rotatable element, such as a drum, a machine for mining, excavation, tunneling, road grading and / or other construction. Typically, many retaining blocks are on an outer surface of the rotatable member 10 assembled. If the block 10 mounted on a rotatable element are both the end face 16 as well as the back surface 18 of the body 12 for installing, removing and replacing a pick in the hole 14 accessible.

An attack 20 is at a distance D1 from the center of the hole 14 , The stop 20 extends from the face 16 of the block body 12 out to the outside in the forward direction. The stop 20 has a substantially flat surface 22 which is arranged substantially perpendicular to a radius of the bore. In other words, the flat surface 22 lies in a plane substantially parallel to the center line of the bore 14 and substantially perpendicular to the end face 16 of the block body 12 runs. As shown, the stop is 20 lower on the block body 12 mounted as the transition between the bore 14 and the face 16 so that it is essentially between the hole 14 and the rotatable element on which the block 20 is mounted. In this arrangement, the distance between the stop 20 and the footprint of the block compared to other possible mounting positions of the stopper 20 relatively small, which minimizes the torsional loads imposed on the attachment surface between the base surface 26 and the rotary member of the cutting machine when acting through one in the block 10 installed picking loads on the stop 20 be applied. Alternatively, the stop 20 at the block body 12 in any radial direction with respect to the bore 14 be positioned, assuming the torsional forces coming from the stop 20 on the attachment transition between the base 26 and the rotary member of the cutting machine have been taken into consideration.

The stop 20 can on the body 12 of the block 10 may be integrally formed or welded to the body by welding or other structurally secure mechanism 12 be attached.

The holding block 10 including the bore 14 and the stop 20 is designed to interchangeably receive a radial pick or conical pick as disclosed herein. 4 shows a radial picking structure 100 including a radial pick 110 that in the block 10 is mounted. 5 shows a conical picking structure 200 including a conical pick 210 that in the block 10 is mounted.

An exemplary radial pick 110 is in the 6A and 6B shown. The radial pick 110 ranges from a front end 130 to a rear end 132 and includes a forwardly extending cutting head 116 and a rearwardly extending shaft 120 , The cutting head 116 carries a unidirectional cutting tip 118 , The shaft 120 is sized to fit into the hole 14 in the corpus 12 of the holding block 10 fits. In the illustrated embodiment, the stem has a stepped diameter, including a portion 124 with a larger diameter in the direction of the cutting head 116 and a section 126 with a smaller diameter away from the cutting head 116 , where the sections 124 and 126 through a stage 128 are separated from each other. A groove 122 is at the back end 132 of the shaft 120 provided to receive a holding device, such as a C-clamp (not shown).

An enlarged or extended shoulder 114 is between the cutting head 116 and the shaft 120 arranged, with the shoulder 114 has an outer diameter that is larger than the section 124 of the shaft 120 with the larger diameter and therefore larger than the inner diameter of the section 30 the bore 14 With larger diameter. A washer 300 is integral with the shoulder 114 the radial pick 110 designed so that the washer 300 with respect to the radial pick 110 can not turn. In one embodiment, the washer is 300 with the shoulder 114 integrally formed by the washer 300 on the shoulder 114 is welded. In another embodiment, the washer is 300 with the shoulder 114 integrally formed by the washer 300 in the shoulder 114 forged. It will be understood that other methods of integrally forming the washer are also contemplated 300 with the shoulder 114 alternatively can be used. The radial pick 110 can by any known holding device in the block 10 being held. For example, in the illustrated embodiment, the shaft extends 120 the radial pick 110 over the back surface 18 of the block 14 out through the hole, and the groove 122 on the shaft 120 picks up an outer C-clamp.

An exemplary washer 300 is in 8th played. The washer 300 has a central opening 306 with an inside diameter sufficient to allow the washer 300 over the shaft 120 the radial pick 110 can slide away, but is smaller than the outer diameter of the shoulder 114 the radial pick 110 , The washer 300 has a D-shaped outer circumference, including a flat edge 302 and the otherwise curved edge 304 , The flat edge 302 or the flat edge of the washer 300 lies at a distance D2 from the center of the central opening 306 the washer 300 and is configured to be substantially perpendicular to a radius of the central opening 306 runs. In other words, lies the flat edge 302 in a plane substantially parallel to the central line of the central opening 306 the hole is located. The distance D2 is approximately the same or slightly smaller than the distance D1 of the stop 20 to the surface 22 from the center of the hole 14 of the block 12 ,

If the radial pick 110 in the block 12 is installed, is the shaft 120 in the hole 14 taken and the flat edge 302 the washer 300 lies next to the surface 22 of the stop 20 and in contact with this or almost in contact with this. The surface engagement between the flat or flat edge 302 the washer 300 and the surface 22 of the stop 20 essentially prevents rotation of the radial pick 110 concerning the block 10 so the cutting tip 118 the radial pick is held in a desired cutting orientation, regardless of the forces exerted on the cutting tip due to contact with the material dug or cut by the rotary cutting machine 118 be applied. The radial pick 110 can be easily removed for replacement, if desired, by the holding means, such as an external C-clamp, which fits into the groove 122 was used, removed and the shaft 120 forward from the hole 14 is taken out.

An exemplary conical pick 210 is in the 7A and 7B shown. The conical pick 210 ranges from a front end 230 to a rear end 232 and includes a forwardly extending cutting head 216 and a rearwardly extending shaft 220 , The cutting head 216 carries a radially symmetric cutting tip 218 , The shaft 220 is sized to fit into the hole 14 in the corpus 12 of the holding block 10 fits. An extended shoulder 214 is between the cutting head 216 and the shaft 220 arranged, with the shoulder 214 has an outer diameter that is larger than the section 124 of the shaft 120 with the larger diameter and consequently larger than the inner diameter of the section 30 with the larger diameter of the hole 14 ,

In the illustrated embodiment, the shaft has 220 a section 226 with a smaller diameter away from the cutting head 216 which is the section 34 the bore 14 corresponding to the smaller diameter. The shaft 220 also includes a section 224 with reduced diameter in the direction of the cutting head 216 wherein the section of reduced diameter is limited by a shoulder 228 which is between the section 224 with reduced diameter and the section 226 with the smaller diameter, and a shoulder 229 between the section 224 with reduced diameter and the extended shoulder 214 , Shoulders 228 and 229 each have an outer diameter that is sized to fit into the section 30 with larger diameter of the bore and the section fits 224 with reduced diameter has an outer diameter that is smaller than that of the shoulders 228 and 229 , The section 224 with reduced diameter is designed to be a sleeve holding part 240 take. A groove 222 is at the back end 232 of the shaft 220 provided to receive a holding device, such as a C-clamp (not shown).

The sleeve holding part 240 may be any suitable, substantially cylindrical, hollow sleeve support member having a longitudinal slot 242 has a radial compression of the sleeve holding part 240 to allow against the inherent spring force. If the conical pick 210 with the sleeve holding part 240 in the hole 14 is installed, presses the spring force of the sleeve holding part 240 the sleeve holding part 240 against the inner surface of the hole 14 so that the sleeve holding part 240 concerning the bore 14 essentially does not rotate while the shaft 220 and with it the conical pick 210 within the sleeve holding part 240 and inside the hole 14 can rotate freely. When the cutting tip 218 In contact with the material in which is buried or cut, the conical Picke 210 rotate freely, resulting in even wear and a continuous sharpening of the cutting tip 218 guaranteed. In addition, the sleeve holding part protects 240 the hole 14 of the block 12 against wear due to the rotation of the shaft 220 ,

If the sleeve holding part 240 in the hole 14 becomes the sleeve holding part 240 along the section 224 with reduced diameter of the shaft 220 through the shoulders 228 and 229 held captive so that the sleeve holding part 240 regarding the pick 220 can not move in the axial direction. The frictional engagement between the sleeve holding part 240 and the hole 14 , in combination with the engagement between the sleeve holding part 240 and the shoulder 228 helps with the conical pick 210 in the hole 14 to keep. Alternatively, or in addition to the holding force provided by the sleeve holding part 240 is provided, the shaft extends 220 the conical pick 210 out of the hole 14 over the back surface 18 of the block 10 out and the groove 222 in the shaft 220 picks up an outer C-clamp.

The washer 300 serves several purposes when used with the conical pick 210 is used. As in 7A is shown, the washer 300 used to the sleeve holding part 240 radially compress to allow the shaft 220 together with the sleeve holding part 240 into the hole 14 is used. In addition, the washer protects 300 the face 16 of the holding block 10 against wear through the rear surface 212 the shoulder 214 when the conical pick 210 turns in use.

If the conical pick 210 completely in the hole 14 of the block 10 is installed, the washer is 300 on one side in contact with the rear surface 210 the shoulder 214 and on the other side with the face 16 of the block 10 , In this position is the central opening 306 the washer 300 around the shoulder 229 of the shaft 220 arranged around, in front of the position of the sleeve holding part 240 lies so that the sleeve holding part 240 is free, resiliently radially outward against the inside of the bore 14 dilate.

Around the face 16 of the block 10 against wear due to rotation of the shoulder 214 the conical pick 210 The most effective way to protect it is to use a washer 300 held stationary by the same mechanism, which is also the radial pick 110 holds stationary if a radial pick 110 is used. In particular, the flat edge occurs 302 the washer 300 with the surface 22 of the stop 20 engaged to substantially prevent the washer 300 rotates. Because the washer 300 only around the shaft 220 arranged around and not on the shoulder 214 is fixed, in contrast to the arrangement of the radial pick 110 , may the conical pick 220 yourself in the hole 14 rotate freely while the washer 300 essentially does not rotate.

Although the invention has been described in conjunction with preferred embodiments thereof, it will be understood by those skilled in the art that additions, omissions, modifications and substitutions, which are not particularly described, may be made without departing from the spirit and scope of the invention as set forth in U.S. Pat is defined in the appended claims.

Claims (11)

Holding block for both radial and conical tool picks, the block comprising: a body having a bore for receiving a shaft of a pick, the bore extending rearwardly from an end face of the body and having a substantially circular cross-sectional shape, a base at a lower end of the body for mounting the body to a rotatable member of a rotary cutting machine, and a stop extending forwardly from the face of the body, the stop having a surface substantially perpendicular to a radius of the bore and spaced from the center of the bore, the stop being adapted to engage with substantially flat edge of a washer, which is included in a picking structure. The retainer block of claim 1, wherein the picking assembly comprises a radial pick with which a washer is integrally formed, the washer having an edge disposed to engage the surface of the stopper when the washer engages Picket shaft is installed in the bore, so that the radial pick is substantially prevented from rotating with respect to the block. Retaining block according to claim 2, wherein the washer is integrally formed with the radial pick by forging. The retainer block of claim 2, wherein the washer is integrally formed by welding to the radial pick. The retainer block of claim 1, wherein the picking assembly comprises a conical pick having a washer rotatably disposed around the picking shaft between a shoulder of the pick and the end face of the carcass, the washer having an edge or so is arranged to engage the surface of the stopper when the picking shaft is installed in the bore so that the conical pick can rotate freely with respect to the block while preventing the washer from rotating with respect to the block. Retaining block according to claim 1, wherein the stop is arranged lower on the body than the transition between the bore and the end face of the bore. Holding block and picking assembly comprising: a pick with a shoulder, a shaft that extends rearwardly from the shoulder and has a diameter that is smaller than the diameter of the shoulder and a cutting head that extends forward from the shoulder, a washer having a central opening adapted to fit adjacent the shoulder about the shaft, the washer having a substantially planar edge substantially perpendicular to a radius of the central opening and at a distance from the center of the central opening, and a block body having: a bore for receiving the shaft of the pick, the bore extending rearwardly from a front surface of the body and having a substantially circular cross-sectional shape, a base at a lower end of the body for fixing the body to a rotatable member of a rotary cutting machine, and a stop extending forwardly from the front surface of the body, the stop having a surface substantially perpendicular to a radius of the bore and spaced from the center of the bore such that when the picking shaft is in the Bore is inserted, wherein the washer is disposed adjacent to the shoulder around the shaft, the flat edge of the washer with the surface of the stopper engages to substantially prevent the washer rotates with respect to the block, wherein, when the pick is a radial pick, in which the washer is integrally formed with the shoulder of the radial pick, the radial pick is substantially prevented from rotating relative to the block, and wherein, when the pick is a conical pick which is free to rotate with respect to the washer, the shank of the conical pick can rotate freely to rotate with respect to the block while the washer substantially prevents rotation relative to the block is. The assembly of claim 7, wherein the stop is located lower on the body than a transition between the bore and the front surface of the body. Machine for mining, demolition, tunneling, road grading and / or general construction, comprising: a rotatable element, and The assembly of claim 7, which is mounted on the rotatable member. A method of excavating using a rotary cutting machine having a rotatable member and a retainer block as claimed in claim 1 mounted on the rotatable member, the method comprising: installing a first bead on the retainer block by inserting a shank of the first bead into the bore, the first pick being either a radial pick, with which a washer is integrally formed or a conical pick, in which the washer is arranged to rotate freely with respect to the picking shaft, the washer having an edge, positioned to engage the surface of the stop such that the washer is substantially prevented from rotating relative to the block, Causing the rotatable member to rotate to allow the first pick to perform a graving or cutting action, causing the rotatable member to stop rotating, removing the first pick from the bore of the holding block, installing a second pick in the Holding block by inserting a shaft of the second pick in the bore, wherein the second pick the other of the radial pick, with which a washer is integrally formed or the conical pick, in which a washer is positioned so that they are relative to the picking shaft can rotate freely, wherein the washer has an edge which is positioned so that it engages with the surface of the stop, so that the washer is substantially prevented from rotating relative to the block, and causing the rotatable member to rotate to allow the second pick to perform a graving or cutting operation sführt. Holding block for both radial and conical tool picks, the block comprising: a body having a bore for receiving a shaft of a pick, the bore extending rearwardly from a front surface of the body and having a substantially circular cross-sectional shape, a base surface at the lower end of the body for attaching the body to a rotatable member of a rotary cutting machine, and a stop extending forwardly from the front surface of the body, the stop having a surface substantially perpendicular to a radius of the bore and spaced from the center of the bore; wherein a radial pick, which is inserted into the bore of the block body, is substantially prevented from rotating relative to the block by a washer integrally formed with a shoulder of the radial pick, in that the washer has a flat edge therefor is designed to engage with the surface of the stop, and a conical pick inserted into the bore of the block being free to rotate relative to the block about an axis of the shank of the conical pick, a washer disposed about the shank of the conical pick adjacent a shoulder of the conical pick; is substantially prevented from rotating relative to the block by the washer having a flat edge adapted to engage the surface of the stop.

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