Title of Invention	"A CUTTING PICK ASSEMBLY"
Abstract	The pick (1) includes a radially inner end (4) and a shank (3) to be fixed to the drum (10) to substantially prevent relative movement between the pick (1) and drum (10). The pick (1) further includes a cutting head (2) having leading (5) and trailing faces (6) intersecting to provide a cutting edge (8) to extend generally parallel to an axis. The leading face (5) in use is inclined by an acute rake angle R to a radius of the axis, with the trailing face 6 being inclined at an acute back clearance angle B to a plane passing through the edge (8) and normal to the radius. The leading face (5) and trailing face (6) being inclined by an acute angle and the shanks when fixed to the drum (10) extends at an acute angle to the radius.

Title of Invention

"A CUTTING PICK ASSEMBLY"

Abstract

The pick (1) includes a radially inner end (4) and a shank (3) to be fixed to the drum (10) to substantially prevent relative movement between the pick (1) and drum (10). The pick (1) further includes a cutting head (2) having leading (5) and trailing faces (6) intersecting to provide a cutting edge (8) to extend generally parallel to an axis. The leading face (5) in use is inclined by an acute rake angle R to a radius of the axis, with the trailing face 6 being inclined at an acute back clearance angle B to a plane passing through the edge (8) and normal to the radius. The leading face (5) and trailing face (6) being inclined by an acute angle and the shanks when fixed to the drum (10) extends at an acute angle to the radius.

Full Text	Technical Field The present invention relates a cutting pick assembly in coal mining and in particular to cutting picks for use in coal and rock excavation. Background of the Invention Coal and rock excavation is typically carried out using an array of picks deployed at intervals on a continuous miner or a shearer having a rotating cutting drum. The picks cut the coal face as they come into contact with it during rotation of the drum. Most currently available picks have a conical tool shape with a pointed tool tip. Conical picks do not actually cut, but rather crush the coal face, resulting in low coarseness of the product and the generation of a large amount of airborne dust particles. In fact, the resultant action generates dust and small fragments (fines) which require the use of continuous water sprays to meet Occupational Health and Safety conditions. These fine dust particles are a common health hazard to underground miners. As the particle size may fall into the carcinogenic and/or respiratory hazard ranges, miners subject to prolonged exposure can become susceptible to lung cancer, chronic bronchitis and pneumoconiosis. The large volumes of dust generated can also have an adverse effect on equipment reliability, resulting in increased equipment maintenance costs. The conical picks are only loosely held in their respective holders so they are free to rotate about their longitudinal axis. Studies showed that these picks do indeed fail after locking up in their holders due to fine dust generation and therefore rotation was prevented. This action splinters the coal and rock, generating fines and frictional ignition. Australian Patent Application No. 12672/97 published on 4 September 1997, which is incorporated herein by reference, partially addresses these issues. However, the picks disclosed in this document are mounted to the drum with the shank of the pick extending radially from the drum. This causes the pick to be subject to large shear forces as the pick contacts the cutting surface. The above statements regarding prior disclosures are not to be taken to be admissions of what was well known in the field of coal mining. Object of the Invention It is an object of the present invention to provide an optimum cutting edge orientation to reduce the generation of air borne dust particles during cutting operations. Summarv of the Invention Accordingly, in a first aspect, the present invention provides a cutting pick assembly for mounting on a rotatable drum, said drum having a longitudinal axis of rotation, said pick assembly comprising a pick holder and a pick, said pick having, a non rotating cutting head having a straight cutting edge which delimits substantially planar front and trailing faces of said head;, a securing end adapted to engage said pick holder and secure said pick relative to said drum so that in use, rotation of said drum drives said cutting edge in a generally circular path and so that said pick is prevented from moving substantially relative to said drum; and a shank extending along an axis of extension between said cutting head and said securing end, said pick assembly being oriented such that said trailing face is inclined at an acute back clearance angle of about 7 to 15 degrees to a cutting plane, which is defined by a tangent to said circular path at said cutting edge, said front face is inclined at an acute front rake angle of about 10 to 45 degrees to an axis perpendicular to said cutting plane such that said front and trailing faces define an acute angle at said cutting edge, and said cutting edge is maintained in a fixed orientation relative to said drum and substantially parallel to said longitudinal axis; characterised in that both said front and trailing faces converge outwardly with respect to said drum toward said axis of extension and, when said pick and said pick holder are assembled, said shank extends at an acute angle to a radius of said circular path and is inclined from the radius toward the direction of rotation of the In a second aspect, the present invention provides a rotatable drum having at least one pick holder and at least one cutting pick mountable in said pick holder, said pick including, a non rotating cutting head having a straight cutting edge which delimits substantially planar front and trailing faces of said head, a securing end adapted to engage said pick holder and secure said pick to said drum so that in use, rotation of said drum drives said cutting edge in a generally circular path and so that said pick is prevented from moving substantially relative to said drum; and a shank extending along an axis of extension between said cutting head and said securing end, said pick being oriented in said pick holder such that said trailing face is inclined at an acute back clearance angle of about 7 to 15 degrees to a cutting plane which is defined by a tangent to said circular path at said cutting edge, said front face is inclined at an acute front rake angle of about 10 to 45 degrees to an axis perpendicular to said cutting plane such that said front and trailing faces define an acute angle at said cutting edge, and said cutting edge is maintained in a fixed orientation relative to said drum and substantially parallel to said longitudinal axis, characterised in that both said front and trailing faces converge outwardly with respect to said drum toward said axis of extension and, when said pick and said pick holder are assembled, said shank extends at an acute angle to a radius of said circular path and is inclined from the radius toward the direction of rotation of the drum. The pick may be mountable in the pick holder at an acute angle to the radius of the drum and inclined toward the direction of rotation of the drum. Brief Description of the Drawings A preferred form of the present invention will now be described, by way of example only, with reference to the accompany drawings wherein: Figure 1 is a side elevational view of a coal and rock cutting pick; Figure 2 is aside elevational view of another coal and rock cutting pick; Figure 3 is a front elevational view of a coal and rock cutting pick; Figure 4 is rear elevational view of another coal and rock cutting pick; Figure 5 is a rear elevational view of yet another coal and rock cutting pick; Figure 6 is a cross sectional view of a coal and rock cutting pick securing end in a pick holder; Figure 7 is a perspective view of a rotating drum with an arrangement of coal and rock cutting picks; Figure 8 is an end elevational view of a section of a rotating drum with an arrangement of coal and rock cutting picks; Figure 9 is an end elevational view of a shearer with a rotating drum; Figure 10 is an end elevational view of a rotating drum depicting a cutting depth; Figures llA and 11B are front and side elevational views of coal and rock cutting picks of embodiments of the present invention; Figure 11 C to 11 F are cross sectional views of the coal and rock cutting picks as shown in Figures 1 lA and 11B along lines a-a, b-b, c-c and d-d; Figures 12A and 12B are front and side elevational views of further coal and rock cutting picks; Figures 12C to 12E are cross sectional views of the coal and rock cutting picks as shown in Figures 12A, 12B along lines a-a, b-b and c-c; Figures 13A and 13B are front and side elevational views of further coal and rock cutting picks; Figures 13C and 13D are cross sectional views of the coal and rock cutting picks as shown in Figures 13A, 13B along lines a-a and b-b; Figures 14A and 14B are front and side elevational views of further coal and rock cutting picks; Figures 15A and 15B are front and side elevational views of further coal and rock cutting picks; Figures 15C to 15E are cross sectional views of coal and rock cutting picks as shown in Figures 15A and 15B along lines a-a, b-b and c-c; Figures 16A and 16B are front and side elevational views of further coal and rock cutting picks; Figures 16C to 16E arc cross sectional views of coal and rock cutting picks as shown in Figures 16A and 16B along lines a-a, b-b and c-c; Figure 17 is a partial cut -away view of a tip of a pick. Figure 18 is a side elevational view of another coal and rock cutting pick secured in a pick holder Description of Numerals Number 1 is a cutting pick; Number 2 is a cutting head; Number 3 is a shank; Number 4 is a securing (inner) end; Number 5 is a planar front (leading) face; Number 6 is a planar bottom (trailing) face; Number 7 is a rear face; Number 8 is a straight cutting edge; Number 9 is a spiral vane for the placement of pick holders; Number 10 is a rotating drum; Number 11 is a pick holder; Number 12 is a clearance (Face) Ring; Number 13 is a coal face; and Number 14 is a shearer mining machine. Letter R is a front rake angle; Letter B is a back clearance angle; Letter W is a width of cutting edge (head); Letter S is a spacing between two adjacent picks; Letter P is cutting drum radius; Letter D is the depth of cut; and Line CP is the cutting plane. Detailed Description of the Preferred Embodiments Referring to the Figures there is disclosed a cutting pick 1 having a cutting head 2, shank 3 and securing (inner) end 4 adapted to attach the cutting pick 1 to a pick holder 11. In Figures 1 to 10, pick holder 11 is welded to the spiral vane 9 which likewise is welded to a rotating drum 10. In these figures, the securing end 4 is of a "T" shaped configuration, adapted to be slidably engaged and fastened in the channel of a pick holder 11 located on the spiral vane 9 of the rotating drum 10. The drum can be for a shearer or a continuous miner. The whole body of the cutting pick 1 is preferably made of an homogenous, unattached bar of steel alloy, fabricated from low alloy steel 4340, air hardened and tempered to about 60 HR'C Rockwell surface hardness. Picks in Figures 11A,B, 12A,B, 15A,B and 16A,B are designed to preferably cut coal, whilst picks in Figures 13A,B and 14A,B are designed for cutting hard rocks. The pick 1 includes a radially inner end 4 and a shank 3 to be fixed to the drum 10 to substantially prevent relative movement between the pick 1 and drum 10. The pick 1 further includes a cutting head 2 having leading and trailing faces 5,6 intersecting to provide a cutting edge 8 to extend generally parallel to an axis. The leading face 5 in use is inclined by an acute rake angle R to a radius of the axis, with the trailing face 6 being inclined at an acute back clearance angle B to a plane passing through the edge 8 and normal to the radius. The leading face 5 and trailing face 6 being inclined by an acute angle and the shank 3 when fixed to the drum 10 extend at an acute angle to the radius. As best seen in Figure 17, the front face 5 is inclined at a front rake angle R to an axis perpendicular to the cutting plane CP. Figure llA shows a front rake angle R of 30 degrees, whilst Figure 12A shows a front rake angle R of 10 degrees, for example. The width W of the cutting head 2, corresponding to the length of the cutting edge 8 is selected depending upon the material to be cut and the location of the cutting pick 1 on the rotating drum 10. Narrower cutting heads 2 (for example, Figure 13B) being used for cutting harder rock faces such as granite. Figures 1 IB, 12B, 13B, 14B, 15B and 16B show cutting picks 1 and cutting heads 2 having widths W of 30, 30, 10, 10, 50 and 50 mm respectively. As shown in Figure 18, the inner end 4 and shank 3 are adapted for engagement with a holder 11. The engagement is such that rotation of the drum 10 drives the cutting pick 1 in a circular path with a tangent of the path at the cutting edge 8 defining the cutting plane CP. The securing end arrangement allows for simple replacement of worn cutting picks 1. Other similar means of attachment may be employed at the securing end 4 which will rigidly fix the cutting pick 1 to the rotating drum 10 whilst allowing pick Ito be replaced. As shown in Figure 7, in use, a plurality of the cutting picks 1 are arranged on a spiral vane 9 on the rotating drum 10 attached to a shearer 14. The arrangement preferably being such that a series of cutting picks 1 follow the same path with adjacent cutting picks 1 being spaced such that they interact in the cutting operation, with each cutting pick 1 being relieved by the preceding cutting pick 1 in what is known as "relieved cutting". For improved cutting performance, the successive cutting picks 1 are spaced at a ratio relative to the depth of cut of S/D between 1 and 3, as shown in Figure 7 which defines the spacing S and Figure 10 which defines the depth of cut D as the distance the rotating drum 10 is advanced in one revolution. Further, cutting picks 1 may be arranged in a similar lacing pattern on the clearance (Face) ring 12 on the rotating drum 10. Use of the cutting picks at least described herein, allows advantageous pick performance characteristics, such as: reduction in dust generation due to unchanged rake angle (remains positive) and sharpness of the tip is maintained (self sharpen); lower and more consistent cutting power; decrease coal fragmentation (coarse coal produced); reduced water consumption; reduced wear and tear on cutting machine down-time; less friction between the pick surface and the cutting material thus reducing in frictional sparking; and enhanced health and safety of the mine environment. Use of the cutting picks 1 as described, allows an improved cutting operation for rock and coal faces 13, producing a coarser product with less airborne dust particles, thereby reducing the health risk to underground miners. The cutting pick 1 configuration is also more efficient in the cutting operation, requiring a lower cutting force and less specific energy to excavate a coal face when compared to the prior art. Although the invention has been described with reference to specific examples, it would be appreciated by those skilled in the art that the invention may be embodied in many other forms. We Claim: 1. A cutting pick assembly for mounting on a rotatable drum (10), said drum (10) having a longitudinal axis of rotation, said pick assembly comprising a pick holder (11) and a pick (1) having a longitudinal axis (X), said pick (1) having: a non rotating cutting head (2) having a straight cutting edge (8) which delimits substantially planar front and frailing faces (5, 6) of said head (2); a securing end (4) engaged within said pick holder (11) to secure said pick (1) relative to said drum (10) so that in use, rotation of said drum (10) drives said cutting edge (8) forward in a generally circular path and so that said pick (1) is prevented from moving substantially relative to said drum (10), and a shank (3) extending along said longitudinal axis (X) between said cutting head (2) and said securing end (4), characterised in that said pick assembly is oriented such that said frailing face (6) is inclined at an acute back clearance angle (B) of about 7 to 15 degrees to a cutting plane (CP), which is defined by a tangent to said circular path at said cutting edge (8), said front face (5) is inclined at an acute front rake angle (R) of about 10 to 45 degrees to an axis perpendicular to said cutting plane (CP) such that said front and trailing faces (5, 6) define an acute angle (Z) at said cutting edge (8), and said cutting edge (8) is maintained in a fixed orientation relative to said drum (10) and substantially parallel to said longitudinal axis (X); both said front and frailing faces (5, 6) converge outwardly with respect to said drum (10) toward said longitudinal axis (X) of extension and wherein said pick (1) and said pick holder (11) are adapted so that said longitudinal axis (X) is inclined by an acute angle (Z) extending rearwardly to said cutting plane (CP); 2. The pick assembly according to claim 1, wherein said shank (3) has a substantially circular cross section and said securing end (4) has a circumferential groove. 3. The pick assembly according to claim 1, wherein said securing end (4) has a cross section in the shape of a circle with a segment cut away. 4. The pick assembly according to any one of the preceding claims, wherein said pick (1) is manufactured from an air hardened die cast steel. 5. The pick assembly according to any one of the preceding claims, wherein the back clearance angle (B) is between 8 and 10 degrees. 6. The pick assembly according to any one of the preceding claims, wherein the rake angle (R) is between 10 and 30 degrees. 7. The pick assembly according to any one of the preceding claims, wherein the width of the cutting edge (8) is between 5 mm and 60 mm. 8. The pick assembly of claim 1, wherein said cutting edge (8) is displaced from said axis of extension (X). 9. A rotatable drum (10) having at least one pick holder (11) and at least one cutting pick (1) mountable in said pick holder (11) as claimed in claim 1, said pick (1) having a longitudinal axis (X) and including: a non rotating cutting head (2) having a straight cutting edge (8) which delimits substantially planar front and trailing faces (5, 6) of said head (2); a securing end (4) engaged within said pick holder (11) to secure said pick (1) to said drum (10) so that in use rotation of said drum (10) drives said cutting edge (8) forward in a generally circular path and so that said pick (1) is prevented from moving substantially relative to said drum; and a shank (3) extending along said longitudinal axis (X) between said cutting head (2) and said securing end (4), characterized in that said pick (1) is oriented in said pick holder (11) such that said trailing face (6) is inclined at an acute back clearance angle (B) of about 7 to 15 degrees to a cutting plane (CP) which is defined by a tangent to said circular path at said cutting edge (8), said front face (5) is inclined at an acute front rake angle (R) of about 10 to 45 degrees to an axis perpendicular to said cutting plane (CP) such that said front and trailing faces (5, 6) define an acute angle (Z) at said cutting edge (8), and said cutting edge (8) is maintained in a fixed orientation relative to said drum (10) and substantially parallel to said longitudinal axis (X) both said front and frailing faces (5, 6) converge outwardlv with respect to said drum (10) toward said longitudinal axis (X) of extension and when said pick (1) and said pick holder (11) are adapted so that said longitudinal axis of extension and wherein said pick (1) and said pick holder (11) are adapted so that said longitudinal axis (X) is inclined by an acute angle (Z) extending rearwardy to said cutting plane (CP); 10. A cutting pick assembly substantially as hereinbefore described with reference to any of the embodiments shown in Figs. 7 and 9 to 18 of the accompanying drawings. 11. A rotatable drum substantially as hereinbefore described with reference to any of the embodiments shown in Figs. 7 and 9 to 18 of the accompanying drawings.

Full Text

Technical Field
The present invention relates a cutting pick assembly in coal mining and in particular to cutting picks for use in coal and rock excavation.
Background of the Invention
Coal and rock excavation is typically carried out using an array of picks deployed at intervals on a continuous miner or a shearer having a rotating cutting drum. The picks cut the coal face as they come into contact with it during rotation of the drum.
Most currently available picks have a conical tool shape with a pointed tool tip. Conical picks do not actually cut, but rather crush the coal face, resulting in low coarseness of the product and the generation of a large amount of airborne dust particles. In fact, the resultant action generates dust and small fragments (fines) which require the use of continuous water sprays to meet Occupational Health and Safety conditions. These fine dust particles are a common health hazard to underground miners. As the particle size may fall into the carcinogenic and/or respiratory hazard ranges, miners subject to prolonged exposure can become susceptible to lung cancer, chronic bronchitis and pneumoconiosis. The large volumes of dust generated can also have an adverse effect on equipment reliability, resulting in increased equipment maintenance costs.
The conical picks are only loosely held in their respective holders so they are free to rotate about their longitudinal axis. Studies showed that these picks do indeed fail after locking up in their holders due to fine dust generation and therefore rotation was prevented. This action splinters the coal and rock, generating fines and frictional ignition.
Australian Patent Application No. 12672/97 published on 4 September 1997, which is incorporated herein by reference, partially addresses these issues. However, the picks disclosed in this document are mounted to the drum with the shank of the pick extending radially from the drum. This causes the pick to be subject to large shear forces as the pick contacts the cutting
surface.
The above statements regarding prior disclosures are not to be taken to be admissions of what was well known in the field of coal mining.
Object of the Invention
It is an object of the present invention to provide an optimum cutting edge orientation to reduce the generation of air borne dust particles during cutting operations.
Summarv of the Invention
Accordingly, in a first aspect, the present invention provides a cutting pick assembly for mounting on a rotatable drum, said drum having a longitudinal axis of rotation, said pick assembly comprising a pick holder and a pick, said pick having, a non rotating cutting head having a straight cutting edge which delimits substantially planar front and trailing faces of said head;,
a securing end adapted to engage said pick holder and secure said pick relative to said drum so that in use, rotation of said drum drives said cutting edge in a generally circular path and so that said pick is prevented from moving substantially relative to said drum; and a shank extending along an axis of extension between said cutting head and said securing end, said pick assembly being oriented such that said trailing face is inclined at an acute back clearance angle of about 7 to 15 degrees to a cutting plane, which is defined by a tangent to said circular path at said cutting edge, said front face is inclined at an acute front rake angle of about 10 to 45 degrees to an axis perpendicular to said cutting plane such that said front and trailing faces define an acute angle at said cutting edge, and said cutting edge is maintained in a fixed orientation relative to said drum and substantially parallel to said longitudinal axis; characterised in that both said front and trailing faces converge outwardly with respect to said drum toward said axis of extension and, when said pick and said pick holder are assembled, said shank extends at an acute angle to a radius of said circular path and is inclined from the radius toward the direction of rotation of the
In a second aspect, the present invention provides a rotatable drum having at least one pick holder and at least one cutting pick mountable in said pick holder, said pick including, a non rotating cutting head having a straight cutting edge which delimits substantially planar front and trailing faces of said head, a securing end adapted to engage said pick holder and secure said pick to said drum so that in use, rotation of said drum drives said cutting edge in a generally circular path and so that said pick is prevented from moving substantially relative to said drum; and a shank extending along an axis of extension between said cutting head and said securing end,
said pick being oriented in said pick holder such that said trailing face is inclined at an acute back clearance angle of about 7 to 15 degrees to a cutting plane which is defined by a tangent to said circular path at said cutting edge, said front face is inclined at an acute front rake angle of about 10 to 45 degrees to an axis perpendicular to said cutting plane such that said front and trailing faces define an acute angle at said cutting edge, and said cutting edge is maintained in a fixed orientation relative to said drum and substantially parallel to said longitudinal axis, characterised in that both said front and trailing faces converge outwardly with respect to said drum toward said axis of extension and, when said pick and said pick holder are assembled, said shank extends at an acute angle to a radius of said circular path and is inclined from the radius toward the direction of rotation of the drum.
The pick may be mountable in the pick holder at an acute angle to the radius of the drum and inclined toward the direction of rotation of the drum.
Brief Description of the Drawings
A preferred form of the present invention will now be described, by way of example only, with
reference to the accompany drawings wherein:
Figure 1 is a side elevational view of a coal and rock cutting pick;
Figure 2 is aside elevational view of another coal and rock cutting pick;
Figure 3 is a front elevational view of a coal and rock cutting pick;
Figure 4 is rear elevational view of another coal and rock cutting pick;
Figure 5 is a rear elevational view of yet another coal and rock cutting pick;
Figure 6 is a cross sectional view of a coal and rock cutting pick securing end in a pick holder;
Figure 7 is a perspective view of a rotating drum with an arrangement of coal and rock cutting
picks; Figure 8 is an end elevational view of a section of a rotating drum with an arrangement of
coal and rock cutting picks;
Figure 9 is an end elevational view of a shearer with a rotating drum;
Figure 10 is an end elevational view of a rotating drum depicting a cutting depth;
Figures llA and 11B are front and side elevational views of coal and rock cutting picks of
embodiments of the present invention;
Figure 11 C to 11 F are cross sectional views of the coal and rock cutting picks as shown in
Figures 1 lA and 11B along lines a-a, b-b, c-c and d-d;
Figures 12A and 12B are front and side elevational views of further coal and rock cutting picks;
Figures 12C to 12E are cross sectional views of the coal and rock cutting picks as shown in
Figures 12A, 12B along lines a-a, b-b and c-c;
Figures 13A and 13B are front and side elevational views of further coal and rock cutting picks;
Figures 13C and 13D are cross sectional views of the coal and rock cutting picks as shown in
Figures 13A, 13B along lines a-a and b-b;
Figures 14A and 14B are front and side elevational views of further coal and rock cutting picks;
Figures 15A and 15B are front and side elevational views of further coal and rock cutting picks;
Figures 15C to 15E are cross sectional views of coal and rock cutting picks as shown in Figures
15A and 15B along lines a-a, b-b and c-c;
Figures 16A and 16B are front and side elevational views of further coal and rock cutting picks;
Figures 16C to 16E arc cross sectional views of coal and rock cutting picks as shown in Figures
16A and 16B along lines a-a, b-b and c-c;
Figure 17 is a partial cut -away view of a tip of a pick.
Figure 18 is a side elevational view of another coal and rock cutting pick secured in a pick holder
Description of Numerals Number 1 is a cutting pick; Number 2 is a cutting head;
Number 3 is a shank;
Number 4 is a securing (inner) end;
Number 5 is a planar front (leading) face;
Number 6 is a planar bottom (trailing) face;
Number 7 is a rear face;
Number 8 is a straight cutting edge;
Number 9 is a spiral vane for the placement of pick holders;
Number 10 is a rotating drum;
Number 11 is a pick holder;
Number 12 is a clearance (Face) Ring;
Number 13 is a coal face; and
Number 14 is a shearer mining machine.
Letter R is a front rake angle;
Letter B is a back clearance angle;
Letter W is a width of cutting edge (head);
Letter S is a spacing between two adjacent picks;
Letter P is cutting drum radius;
Letter D is the depth of cut; and
Line CP is the cutting plane.
Detailed Description of the Preferred Embodiments
Referring to the Figures there is disclosed a cutting pick 1 having a cutting head 2, shank 3 and securing (inner) end 4 adapted to attach the cutting pick 1 to a pick holder 11. In Figures 1 to 10, pick holder 11 is welded to the spiral vane 9 which likewise is welded to a rotating drum 10. In these figures, the securing end 4 is of a "T" shaped configuration, adapted to be slidably engaged and fastened in the channel of a pick holder 11 located on the spiral vane 9 of the rotating drum 10. The drum can be for a shearer or a continuous miner.
The whole body of the cutting pick 1 is preferably made of an homogenous, unattached bar of steel alloy, fabricated from low alloy steel 4340, air hardened and tempered to about 60 HR'C
Rockwell surface hardness. Picks in Figures 11A,B, 12A,B, 15A,B and 16A,B are designed to preferably cut coal, whilst picks in Figures 13A,B and 14A,B are designed for cutting hard rocks.
The pick 1 includes a radially inner end 4 and a shank 3 to be fixed to the drum 10 to substantially prevent relative movement between the pick 1 and drum 10. The pick 1 further includes a cutting head 2 having leading and trailing faces 5,6 intersecting to provide a cutting edge 8 to extend generally parallel to an axis. The leading face 5 in use is inclined by an acute rake angle R to a radius of the axis, with the trailing face 6 being inclined at an acute back clearance angle B to a plane passing through the edge 8 and normal to the radius. The leading face 5 and trailing face 6 being inclined by an acute angle and the shank 3 when fixed to the drum 10 extend at an acute angle to the radius.
As best seen in Figure 17, the front face 5 is inclined at a front rake angle R to an axis perpendicular to the cutting plane CP. Figure llA shows a front rake angle R of 30 degrees, whilst Figure 12A shows a front rake angle R of 10 degrees, for example.
The width W of the cutting head 2, corresponding to the length of the cutting edge 8 is selected depending upon the material to be cut and the location of the cutting pick 1 on the rotating drum 10. Narrower cutting heads 2 (for example, Figure 13B) being used for cutting harder rock faces such as granite. Figures 1 IB, 12B, 13B, 14B, 15B and 16B show cutting picks 1 and cutting heads 2 having widths W of 30, 30, 10, 10, 50 and 50 mm respectively.
As shown in Figure 18, the inner end 4 and shank 3 are adapted for engagement with a holder 11. The engagement is such that rotation of the drum 10 drives the cutting pick 1 in a circular path with a tangent of the path at the cutting edge 8 defining the cutting plane CP. The securing end arrangement allows for simple replacement of worn cutting picks 1. Other similar means of attachment may be employed at the securing end 4 which will rigidly fix the cutting pick 1 to the rotating drum 10 whilst allowing pick Ito be replaced.
As shown in Figure 7, in use, a plurality of the cutting picks 1 are arranged on a spiral vane 9 on the rotating drum 10 attached to a shearer 14. The arrangement preferably being such that a
series of cutting picks 1 follow the same path with adjacent cutting picks 1 being spaced such that they interact in the cutting operation, with each cutting pick 1 being relieved by the preceding cutting pick 1 in what is known as "relieved cutting". For improved cutting performance, the successive cutting picks 1 are spaced at a ratio relative to the depth of cut of S/D between 1 and 3, as shown in Figure 7 which defines the spacing S and Figure 10 which defines the depth of cut D as the distance the rotating drum 10 is advanced in one revolution.
Further, cutting picks 1 may be arranged in a similar lacing pattern on the clearance (Face) ring 12 on the rotating drum 10.
Use of the cutting picks at least described herein, allows advantageous pick performance characteristics, such as: reduction in dust generation due to unchanged rake angle (remains positive) and sharpness of the tip is maintained (self sharpen); lower and more consistent cutting power; decrease coal fragmentation (coarse coal produced); reduced water consumption; reduced wear and tear on cutting machine down-time; less friction between the pick surface and the cutting material thus reducing in frictional sparking; and enhanced health and safety of the mine environment. Use of the cutting picks 1 as described, allows an improved cutting operation for rock and coal faces 13, producing a coarser product with less airborne dust particles, thereby reducing the health risk to underground miners. The cutting pick 1 configuration is also more efficient in the cutting operation, requiring a lower cutting force and less specific energy to excavate a coal face when compared to the prior art.
Although the invention has been described with reference to specific examples, it would be appreciated by those skilled in the art that the invention may be embodied in many other forms.

We Claim:
1. A cutting pick assembly for mounting on a rotatable drum (10), said drum (10)
having a longitudinal axis of rotation, said pick assembly comprising a pick holder (11) and a
pick (1) having a longitudinal axis (X), said pick (1) having:
a non rotating cutting head (2) having a straight cutting edge (8) which delimits substantially planar front and frailing faces (5, 6) of said head (2);
a securing end (4) engaged within said pick holder (11) to secure said pick (1) relative to said drum (10) so that in use, rotation of said drum (10) drives said cutting edge (8) forward in a generally circular path and so that said pick (1) is prevented from moving substantially relative to said drum (10), and
a shank (3) extending along said longitudinal axis (X) between said cutting head (2) and said securing end (4),
characterised in that said pick assembly is oriented such that said frailing face (6) is inclined at an acute back clearance angle (B) of about 7 to 15 degrees to a cutting plane (CP), which is defined by a tangent to said circular path at said cutting edge (8), said front face (5) is inclined at an acute front rake angle (R) of about 10 to 45 degrees to an axis perpendicular to said cutting plane (CP) such that said front and trailing faces (5, 6) define an acute angle (Z) at said cutting edge (8), and said cutting edge (8) is maintained in a fixed orientation relative to said drum (10) and substantially parallel to said longitudinal axis (X);
both said front and frailing faces (5, 6) converge outwardly with respect to said drum (10) toward said longitudinal axis (X) of extension and wherein said pick (1) and said pick holder (11) are adapted so that said longitudinal axis (X) is inclined by an acute angle (Z) extending rearwardly to said cutting plane (CP);
2. The pick assembly according to claim 1, wherein said shank (3) has a substantially circular cross section and said securing end (4) has a circumferential groove.
3. The pick assembly according to claim 1, wherein said securing end (4) has a cross section in the shape of a circle with a segment cut away.
4. The pick assembly according to any one of the preceding claims, wherein said pick (1) is manufactured from an air hardened die cast steel.
5. The pick assembly according to any one of the preceding claims, wherein the back clearance angle (B) is between 8 and 10 degrees.
6. The pick assembly according to any one of the preceding claims, wherein the rake angle (R) is between 10 and 30 degrees.
7. The pick assembly according to any one of the preceding claims, wherein the width of the cutting edge (8) is between 5 mm and 60 mm.
8. The pick assembly of claim 1, wherein said cutting edge (8) is displaced from said axis of extension (X).
9. A rotatable drum (10) having at least one pick holder (11) and at least one cutting pick (1) mountable in said pick holder (11) as claimed in claim 1, said pick (1) having a longitudinal axis (X) and including:
a non rotating cutting head (2) having a straight cutting edge (8) which delimits substantially planar front and trailing faces (5, 6) of said head (2);
a securing end (4) engaged within said pick holder (11) to secure said pick (1) to said drum (10) so that in use rotation of said drum (10) drives said cutting edge (8) forward in a generally circular path and so that said pick (1) is prevented from moving substantially relative to said drum; and
a shank (3) extending along said longitudinal axis (X) between said cutting head (2) and said securing end (4), characterized in that said pick (1) is oriented in said pick holder (11) such that said trailing face (6) is inclined at an acute back clearance angle (B) of about 7 to 15 degrees to a cutting plane (CP) which is defined by a tangent to said circular path at said cutting edge (8), said front face (5) is inclined at an acute front rake angle (R) of about 10 to 45 degrees to an axis perpendicular to said cutting plane (CP) such that said front and trailing faces (5, 6) define an acute angle (Z) at said cutting edge (8), and said cutting edge (8) is maintained in a fixed orientation relative to said drum (10) and substantially parallel to said longitudinal axis (X)
both said front and frailing faces (5, 6) converge outwardlv with respect to said drum (10) toward said longitudinal axis (X) of extension and when said pick (1) and said pick holder (11) are adapted so that said longitudinal axis of extension and wherein said pick (1)
and said pick holder (11) are adapted so that said longitudinal axis (X) is inclined by an acute angle (Z) extending rearwardy to said cutting plane (CP);
10. A cutting pick assembly substantially as hereinbefore described with reference to any of the embodiments shown in Figs. 7 and 9 to 18 of the accompanying drawings.
11. A rotatable drum substantially as hereinbefore described with reference to any of the embodiments shown in Figs. 7 and 9 to 18 of the accompanying drawings.

Documents:

38-delnp-2003-abstract.pdf

38-delnp-2003-assignment.pdf

38-delnp-2003-claims.pdf

38-delnp-2003-complete specification(granted).pdf

38-delnp-2003-correspondence-others.pdf

38-delnp-2003-correspondence-po.pdf

38-delnp-2003-description (complete).pdf

38-delnp-2003-drawings.pdf

38-delnp-2003-form-1.pdf

38-delnp-2003-form-13.pdf

38-delnp-2003-form-19.pdf

38-delnp-2003-form-2.pdf

38-delnp-2003-form-26.pdf

38-delnp-2003-form-3.pdf

38-delnp-2003-form-5.pdf

38-delnp-2003-pct-101.pdf

38-delnp-2003-pct-210.pdf

38-delnp-2003-pct-304.pdf

38-delnp-2003-pct-306.pdf

38-delnp-2003-pct-401.pdf

38-delnp-2003-petition-137.pdf

38-delnp-2003-petition-138.pdf

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Patent Number

217770

Indian Patent Application Number

38/DELNP/2003

PG Journal Number

17/2008

Publication Date

25-Apr-2008

Grant Date

28-Mar-2008

Date of Filing

13-Jan-2003

Name of Patentee

AGE MINING SERVICES PTY LTD.

Applicant Address

75 MARGARET STREET, MAYFIELD, NSW 2304 (AU)

Inventors:

#	Inventor's Name	Inventor's Address
1	DAWOOD, ALBERT DANIEL	5 JOANNE CLOSE, CHERRYBROOK, NSW 2126, (AU)

PCT International Classification Number

E21C 35/18

PCT International Application Number

PCT/AU01/00960

PCT International Filing date

2001-08-07

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	51846/00	2000-08-07	Australia