The laser technology infused in these super multitasking machines of the LASER EX series combine subtractive and additive manufacturing, hardening, and coating of workpiece blanks to the final product - done on one machine - the ultimate process-intensive machine. The machines of MU-V LASER EX series and MULTUS U LASER EX series are capable of milling, turning, grinding, Laser Metal Deposition (LMD) and heat treatment for a wide range of workpiece sizes and shapes. On-machine hardening is faster and causes less distortion than conventional heat treatment, resulting in dramatically increased accuracy and throughput. LASER EX series also enables laser processing from coating to LMD.
The laser technology infused in these super multitasking machines of the LASER EX series combine subtractive and additive manufacturing, hardening, and coating of workpiece blanks to the final product - done on one machine - the ultimate process-intensive machine. The machines of MU-V LASER EX series and MULTUS U LASER EX series are capable of milling, turning, grinding, Laser Metal Deposition (LMD) and heat treatment for a wide range of workpiece sizes and shapes. On-machine hardening is faster and causes less distortion than conventional heat treatment, resulting in dramatically increased accuracy and throughput. LASER EX series also enables laser processing from coating to LMD.
The laser technology infused in these super multitasking machines of the LASER EX series combine subtractive and additive manufacturing, hardening, and coating of workpiece blanks to the final product - done on one machine - the ultimate process-intensive machine. The machines of MU-V LASER EX series and MULTUS U LASER EX series are capable of milling, turning, grinding, Laser Metal Deposition (LMD) and heat treatment for a wide range of workpiece sizes and shapes. On-machine hardening is faster and causes less distortion than conventional heat treatment, resulting in dramatically increased accuracy and throughput. LASER EX series also enables laser processing from coating to LMD.
The laser technology infused in these super multitasking machines of the LASER EX series combine subtractive and additive manufacturing, hardening, and coating of workpiece blanks to the final product - done on one machine - the ultimate process-intensive machine. The machines of MU-V LASER EX series and MULTUS U LASER EX series are capable of milling, turning, grinding, Laser Metal Deposition (LMD) and heat treatment for a wide range of workpiece sizes and shapes. On-machine hardening is faster and causes less distortion than conventional heat treatment, resulting in dramatically increased accuracy and throughput. LASER EX series also enables laser processing from coating to LMD.
The laser technology infused in these super multitasking machines of the LASER EX series combine subtractive and additive manufacturing, hardening, and coating of workpiece blanks to the final product - done on one machine - the ultimate process-intensive machine. The machines of MU-V LASER EX series and MULTUS U LASER EX series are capable of milling, turning, grinding, Laser Metal Deposition (LMD) and heat treatment for a wide range of workpiece sizes and shapes. On-machine hardening is faster and causes less distortion than conventional heat treatment, resulting in dramatically increased accuracy and throughput. LASER EX series also enables laser processing from coating to LMD.
The laser technology infused in these super multitasking machines of the LASER EX series combine subtractive and additive manufacturing, hardening, and coating of workpiece blanks to the final product - done on one machine - the ultimate process-intensive machine. The machines of MU-V LASER EX series and MULTUS U LASER EX series are capable of milling, turning, grinding, Laser Metal Deposition (LMD) and heat treatment for a wide range of workpiece sizes and shapes. On-machine hardening is faster and causes less distortion than conventional heat treatment, resulting in dramatically increased accuracy and throughput. LASER EX series also enables laser processing from coating to LMD.
Experiences from practice and extensive innovations determine the concept of the new multitasking machines MULTUS U3000 and MULTUS U4000. Based on a solid orthogonal flat bed, they offer larger travels in the Y-axis, a second turret (option), higher drive capacities for the rotary (milling) tools as well as the latest OSP controller with larger monitor (19" screen diagonal) and ergonomically optimised operating panel.
Experiences from practice and extensive innovations determine the concept of the new multitasking machines MULTUS U3000 and MULTUS U4000. Based on a solid orthogonal flat bed, they offer larger travels in the Y-axis, a second turret (option), higher drive capacities for the rotary (milling) tools as well as the latest OSP controller with larger monitor (19" screen diagonal) and ergonomically optimised operating panel.
Specifications
Max. turning Ø [mm] 650
Max. turning length [mm] 1.500
Spindle speed [min-1] 4.200 [3.000]
No. of tools 40 [80, 120]
Motor (PREX) [kW] 22/15 [32/22]
Rapid traverse X-Y-Z [m/min] 50/ 40/ 50
Floor space [mm] 5.425 x 2.995
Experiences from practice and extensive innovations determine the concept of the new multitasking machines MULTUS U3000, MULTUS U4000 and MULTUS U5000. Based on a solid orthogonal flat bed, they offer larger travels in the Y-axis, a second turret (option), higher drive capacities for the rotary (milling) tools as well as the latest OSP controller with larger monitor (19" screen diagonal) and ergonomically optimised operating panel.
The Okuma MULTUS B Series machines are general purpose multi-function CNC lathes that are designed to reduce set up time by virtually eliminating repetitive fixturing to improve accuracy and keep non-cutting time to a minimum. They feature the industry’s first Collision Avoidance System software. Combined with Okuma’s OSP Control, this software can run the entire machining simulation and catch potential collisions before they create scrap. Thermal-Friendly Construction assures high accuracy, even in the most complex applications. Options include the W version with sub-spindle, designed to hand the part from one spindle to the other to complete milling and turning operations without changing the part.
The Okuma MULTUS B Series machines are general purpose multi-function CNC lathes that are designed to reduce set up time by virtually eliminating repetitive fixturing to improve accuracy and keep non-cutting time to a minimum. They feature the industry’s first Collision Avoidance System software. Combined with Okuma’s OSP Control, this software can run the entire machining simulation and catch potential collisions before they create scrap. Thermal-Friendly Construction assures high accuracy, even in the most complex applications. Options include the W version with sub-spindle, designed to hand the part from one spindle to the other to complete milling and turning operations without changing the part.
The Okuma MULTUS B Series machines are general purpose multi-function CNC lathes that are designed to reduce set up time by virtually eliminating repetitive fixturing to improve accuracy and keep non-cutting time to a minimum. They feature the industry’s first Collision Avoidance System software. Combined with Okuma’s OSP Control, this software can run the entire machining simulation and catch potential collisions before they create scrap. Thermal-Friendly Construction assures high accuracy, even in the most complex applications. Options include the W version with sub-spindle, designed to hand the part from one spindle to the other to complete milling and turning operations without changing the part.
The Okuma MULTUS B Series machines are general purpose multi-function CNC lathes that are designed to reduce set up time by virtually eliminating repetitive fixturing to improve accuracy and keep non-cutting time to a minimum. They feature the industry’s first Collision Avoidance System software. Combined with Okuma’s OSP Control, this software can run the entire machining simulation and catch potential collisions before they create scrap. Thermal-Friendly Construction assures high accuracy, even in the most complex applications. Options include the W version with sub-spindle, designed to hand the part from one spindle to the other to complete milling and turning operations without changing the part.
The Okuma MULTUS B Series machines are general purpose multi-function CNC lathes that are designed to reduce set up time by virtually eliminating repetitive fixturing to improve accuracy and keep non-cutting time to a minimum. They feature the industry’s first Collision Avoidance System software. Combined with Okuma’s OSP Control, this software can run the entire machining simulation and catch potential collisions before they create scrap. Thermal-Friendly Construction assures high accuracy, even in the most complex applications. Options include the W version with sub-spindle, designed to hand the part from one spindle to the other to complete milling and turning operations without changing the part.
The Okuma MULTUS B Series machines are general purpose multi-function CNC lathes that are designed to reduce set up time by virtually eliminating repetitive fixturing to improve accuracy and keep non-cutting time to a minimum. They feature the industry’s first Collision Avoidance System software. Combined with Okuma’s OSP Control, this software can run the entire machining simulation and catch potential collisions before they create scrap. Thermal-Friendly Construction assures high accuracy, even in the most complex applications. Options include the W version with sub-spindle, designed to hand the part from one spindle to the other to complete milling and turning operations without changing the part.
VTM-YB Series 5-axis combination lathe/machining centers can perform turning, vertical, horizontal, and angled surface machining in one operation without reorienting the part in the chuck. With operator control of spindle direction in relation to the surface of the work piece, side cutting with straight end mills can be used to dramatically reduce cutting time compared with point cutting using ball end mills. Cutting efficiency can be increased significantly and the lifetime of the tooling can be extended, reducing overall production costs. The work spindle is supported at two locations by large diameter roller bearings offering precision control for the production of complex parts. The spindle’s geared head generates high torque capable of sustaining the heavy cutting necessary for parts such as large valve bodies.
VTM-YB Series 5-axis combination lathe/machining centers can perform turning, vertical, horizontal, and angled surface machining in one operation without reorienting the part in the chuck. With operator control of spindle direction in relation to the surface of the work piece, side cutting with straight end mills can be used to dramatically reduce cutting time compared with point cutting using ball end mills. Cutting efficiency can be increased significantly and the lifetime of the tooling can be extended, reducing overall production costs. The work spindle is supported at two locations by large diameter roller bearings offering precision control for the production of complex parts. The spindle’s geared head generates high torque capable of sustaining the heavy cutting necessary for parts such as large valve bodies.
VTM-YB Series 5-axis combination lathe/machining centers can perform turning, vertical, horizontal, and angled surface machining in one operation without reorienting the part in the chuck. With operator control of spindle direction in relation to the surface of the work piece, side cutting with straight end mills can be used to dramatically reduce cutting time compared with point cutting using ball end mills. Cutting efficiency can be increased significantly and the lifetime of the tooling can be extended, reducing overall production costs. The work spindle is supported at two locations by large diameter roller bearings offering precision control for the production of complex parts. The spindle’s geared head generates high torque capable of sustaining the heavy cutting necessary for parts such as large valve bodies.
Okuma has instilled its know-how from double-column machining centers into the VTR-A series of
multitasking machines, giving them unrivaled rigidity and accuracy. The VTR-A series machines show their might in the machining of flat, cylindrical, and difficult-to-machine materials. The “Okuma double column” has dramatically changed multitasking machines. Handles even heavy-duty cutting with capacity to spare. Highest thermal stability in its class. High quality milling. Ease of use born from a shop-floor perspective. In all of these areas the VTR-A series goes beyond conventional concepts of multitasking machines for huge production floor advantages.
Okuma has instilled its know-how from double-column machining centers into the VTR-A series of
multitasking machines, giving them unrivaled rigidity and accuracy. The VTR-A series machines show their might in the machining of flat, cylindrical, and difficult-to-machine materials. The “Okuma double column” has dramatically changed multitasking machines. Handles even heavy-duty cutting with capacity to spare. Highest thermal stability in its class. High quality milling. Ease of use born from a shop-floor perspective. In all of these areas the VTR-A series goes beyond conventional concepts of multitasking machines for huge production floor advantages.
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