A grinding wheel including an impeller structure for circulating coolant within the wheel defining a plurality of grooves. An angle between a second wall of each groove and a tangent to the outer circumference adjacent the groove outlet is defined based on the desired coolant flow rate, the predeter
A grinding wheel including an impeller structure for circulating coolant within the wheel defining a plurality of grooves. An angle between a second wall of each groove and a tangent to the outer circumference adjacent the groove outlet is defined based on the desired coolant flow rate, the predetermined wheel rotational speed, the radius of the outer circumference of the impeller structure, the combined surface area of the groove outlets, and a desired angle of exit of the coolant being at most 15 degrees. Also, a wheel is disclosed where the angle of the second wall of each groove is defined based on the desired coolant flow rate, the combined surface area of the groove outlets, the tangential speed of the wheel, and a value of n being at least 0.9 and less than 1. A method for distributing a coolant to a grinding site is also discussed.
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1. A grinding wheel for grinding a workpiece through rotation at a predetermined rotational speed, the wheel comprising: a grinding wheel body having a hub defining a wheel inlet; andan impeller structure disposed within the wheel body around the hub, the impeller structure having a plurality of cir
1. A grinding wheel for grinding a workpiece through rotation at a predetermined rotational speed, the wheel comprising: a grinding wheel body having a hub defining a wheel inlet; andan impeller structure disposed within the wheel body around the hub, the impeller structure having a plurality of circumferentially spaced apart blades, the blades cooperating to define a plurality of grooves each extending between a groove inlet end in fluid communication with the wheel inlet and a groove outlet end adjacent an outer circumference of the impeller structure, wherein each groove is defined between first and second walls of adjacent one of the blades with the first wall being located in front of the second wall with respect to a direction of rotation of the wheel, and wherein an angle between the second wall adjacent the groove outlet and a tangent to the outer circumference adjacent the groove outlet is defined as arctan(60Qtan(a2)2πR2A2Ntan(a2)-60Q), where Q is a desired flow rate of the coolant through the wheel,N is the predetermined rotational speed of the grinding wheel in min−1,R2 is the radius of the outer circumference,A2 is a combined surface area of the groove outlets, anda2 is a desired angle of exit of the coolant from the groove outlets with respect to the tangent to the outer circumference adjacent the groove outlet, a value for a2 being selected to be at most 15 degrees. 2. The grinding wheel as defined in claim 1, wherein the value for the angle a2 is selected to be at most 10 degrees. 3. The grinding wheel as defined in claim 1, wherein the value for the angle a2 is selected to be at most 5 degrees. 4. The grinding wheel as defined in claim 1, wherein the angle between the second wall adjacent the groove outlet and the tangent to the outer circumference adjacent the groove outlet is also defined as arctan(Q/A2U2-nU2), where U2 is a tangential speed of the grinding wheel, andn is at least 0.9 and less than 1. 5. The grinding wheel as defined in claim 1, wherein each groove has a curved shape with the groove outlet being circumferentially offset from the groove inlet in a direction opposite the direction of rotation of the wheel. 6. The grinding wheel as defined in claim 1, wherein a combined surface area of the groove inlets is greater than the combined surface area of the groove outlets A2. 7. The grinding wheel as defined in claim 1, wherein the wheel body includes two spaced apart walls between which the impeller structure is received, a portion of each blade extends radially outwardly of the walls and is covered by an abrasive layer. 8. The grinding wheel as defined in claim 1, wherein each groove inlet is in fluid communication with the wheel inlet through an annular passage defined through the wheel body around the hub. 9. An assembly comprising the grinding wheel as defined in claim 1, a rotatable support member fixedly connected to the hub, and a coolant nozzle extending around the support member with an outlet facing the wheel inlet. 10. The assembly as defined in claim 9, wherein the coolant nozzle is arcuate and surrounds the support member around only part of a circumference thereof. 11. A grinding wheel for grinding a workpiece through rotation at a predetermined tangential speed, the wheel comprising: a grinding wheel body having a hub defining a wheel inlet; andan impeller structure disposed within the wheel body around the hub, the impeller structure having a plurality of circumferentially spaced apart blades, the blades cooperating to define a plurality of grooves each extending between a groove inlet end in fluid communication with the wheel inlet and a groove outlet end adjacent an outer circumference of the impeller structure, wherein each groove is defined between first and second walls of adjacent one of the blades with the first wall being located in front of the second wall with respect to a direction of rotation of the wheel, and wherein an angle between the second wall adjacent the groove outlet and a tangent to the outer circumference adjacent the groove outlet is defined as arctan(Q/A2U2-nU2), where Q is a desired flow rate of the coolant through the wheel,A2 is a combined surface area of the groove outlets,U2 is the tangential speed of the grinding wheel, andn is at least 0.9 and less than 1. 12. The grinding wheel as defined in claim 11, wherein each groove has a curved shape with the groove outlet being circumferentially offset from the groove inlet in a direction opposite the direction of rotation of the wheel. 13. The grinding wheel as defined in claim 11, wherein a combined surface area of the groove inlets of is greater than the combined surface area of the groove outlets A2. 14. The grinding wheel as defined in claim 11, wherein the wheel body includes two spaced apart walls between which the impeller structure is received, a portion of each blade extends radially outwardly of the walls and is covered by an abrasive layer. 15. The grinding wheel as defined in claim 11, wherein each groove inlet is in fluid communication with the wheel inlet through an annular passage defined through the wheel body around the hub.
Schwartz, Brian J.; Davie, Jr., Robert N.; Vaillette, Bernard D.; Hammett, Jon C.; Packman, Allan B.; Brown, Timothy L.; Campbell, Jr., James D., Coolant nozzle.
Smart William L. (Indianapolis IN) Hoenig Stuart A. (Tucson AZ) Savitz Christian W. (Tucson AZ) Darlington Douglas K. (Tucson AZ), Grinder apparatus with pollution control fluid dispensing means.
Shoenhair John J. (New Hope MN) Kallevig Bruce E. (Monticello MN), Method and apparatus for limiting the dispersion of rail grinding machine spark and dust residue.
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