Patent application number | Description | Published |
20080232909 | Assembly For Rotating A Cutting Insert During A Turning Operation And Inserts Used Therein - A cutting insert rotated about its axis may be utilized during a metalworking operation and applied against the rotating workpiece to enhance tool performance. The cutting insert is secured within a toolholder having features to secure the insert but at the same time make for efficient removal of the insert from the toolholder. | 09-25-2008 |
20080232911 | METHOD AND ASSEMBLY FOR ROTATING A CUTTING INSERT DURING A TURNING OPERATION AND INSERTS USED THEREIN - A cutting insert rotated about its axis may be utilized during a metalworking operation and applied against the rotating workpiece to enhance tool performance. A method, including an assembly with a rotatable insert mounted to a toolholder may be utilized to achieve this result. | 09-25-2008 |
20080271581 | TOOLHOLDER - A toolholder with a controllable critical angle, such as a lead, trailing, rake or clearance angles, includes a tool spindle for retaining the toolholder in a tool rest of a machine tool. The machine tool includes at least one linear axis, for example, three mutually perpendicular axes, a rotary axis and a rotation axis. The rotary axis and/or rotation axis is controllable to move to a specified position in synchronization with a movement of one of the linear axes. An adaptor supports a cutting tool that is retained in the adaptor by a clamp. The cutting tool defines a critical angle, such as a lead angle, a trailing angle, a rake angle and a flank clearance angle, wherein the critical angle is corrected as a vector of movement of at least one of the linear axis is changed. In addition, the cutting tool can be positioned on opposite side of a centerline of rotation of the workpiece to effectively double the life of the cutting tool. A method of controlling a toolholder is also disclosed. | 11-06-2008 |
20090136309 | APPARATUS AND METHOD FOR CHIP EVACUATION - A chip evacuation device for evacuating chips from a workpiece is disclosed. The chip evacuation device includes a sleeve having a first end and a second end with a sidewall extending therebetween. The sidewall defines an interior between the first end and the second end and has a moveably biased portion. The first end is structured to contact the workpiece, and defines at least one vent hold extending through the sidewall adjacent the workpiece. The second end of the sleeve is structured to receive at least a portion of the cutting tool therethrough. The chip evacuation device also includes a vacuum apparatus in flow communication with the interior of the sleeve. A machine tool having a tool bit and a chip evacuation device surrounding the tool bit is also disclosed. | 05-28-2009 |
20090155011 | ROTARY TAPERED TOOL HOLDER WITH ADAPTER SLEEVE - A rotary tapered tool holder includes a body and an adapter sleeve disposed about a portion of the body. The body and the adapter sleeve have front and rear contact surfaces with different taper angles. The front contact surfaces are optimized for an interference fit and the rear contact surfaces provide an axial stop and support band when the tool holder is assembled into a clamping receptacle. Face contact is achieved between a flange contact surface of the body and a face contact surface of the clamping receptacle. | 06-18-2009 |
Patent application number | Description | Published |
20110020075 | METAL CUTTING SYSTEM FOR EFFECTIVE COOLANT DELIVERY - A metal cutting system with a tool holder, a shim, an insert with a top depression, a top piece and a clamp. A rake face cooling channel for fluid delivery is formed between the top piece and the depression in the insert. A primary discharge slot at the end of the rake face cooling channel delivers fluid from below the cutting edge of the insert. A second cooling channel for delivery of fluid to the flank face is formed between the insert and the shim or is formed between the shim and the tool holder with a portion of the cooling channel passing through the shim. | 01-27-2011 |
20110020076 | METAL CUTTING SYSTEM FOR EFFECTIVE COOLANT DELIVERY - A metal cutting system with a tool holder, a shim, an insert with a top depression, a top piece and a clamp. A rake face cooling channel for fluid delivery is formed between the top piece and the depression in the insert. A primary discharge slot at the end of the rake face cooling channel delivers fluid from below the cutting edge of the insert. A second cooling channel for delivery of fluid to the flank face is formed between the insert and the shim or is formed between the shim and the tool holder with a portion of the cooling channel passing through the shim. | 01-27-2011 |
20110027022 | METAL CUTTING SYSTEM FOR EFFECTIVE COOLANT DELIVERY - A metal cutting system with a tool holder, a shim, an insert with a top depression, a top piece and a clamp. A rake face cooling channel for fluid delivery is formed between the top piece and the depression in the insert. A primary discharge slot at the end of the rake face cooling channel delivers fluid from below the cutting edge of the insert. A second cooling channel for delivery of fluid to the flank face is formed between the insert and the shim or is formed between the shim and the tool holder with a portion of the cooling channel passing through the shim. | 02-03-2011 |
20110033249 | METAL CUTTING SYSTEM FOR EFFECTIVE COOLANT DELIVERY - A metal cutting system with a tool holder, a shim, an insert with a top depression, a top piece and a clamp. A rake face cooling channel for fluid delivery is formed between the top piece and the depression in the insert. A primary discharge slot at the end of the rake face cooling channel delivers fluid from below the cutting edge of the insert. A second cooling channel for delivery of fluid to the flank face is formed between the insert and the shim or is formed between the shim and the tool holder with a portion of the cooling channel passing through the shim. | 02-10-2011 |
20120057942 | METAL CUTTING SYSTEM FOR EFFECTIVE COOLANT DELIVERY - A metal cutting system with a tool holder, a shim, an insert with a top depression, a top piece and a clamp. A rake face cooling channel for fluid delivery is formed between the top piece and the depression in the insert. A primary discharge slot at the end of the rake face cooling channel delivers fluid from below the cutting edge of the insert. A second cooling channel for delivery of fluid to the flank face is formed between the insert and the shim or is formed between the shim and the tool holder with a portion of the cooling channel passing through the shim. | 03-08-2012 |