☆New Model Release☆ Releasing the SP80E with a maximum molding capacity of 8 tons (2019) OSTERWALDER AG has developed the SP series with high precision, energy efficiency, and space-saving features using direct drive technology (DDT) with electric servo motors since 2009. Over the past 11 years, they have sold 300 units worldwide. The use of servo motors on all axes improves the working environment. The noise level is quieter compared to hydraulic systems. Maintenance costs can also be reduced as hydraulic seal replacements and other maintenance are unnecessary. ~Basic Specifications~ - Maximum molding capacity: 8 tons to 64 tons - Number of axes: 1 upper + 1 lower + core rod + F-axis - Die set: Integrated type - Molding method: Withdraw-al method, fixed die type (limited to SP80) - Repetition accuracy: +/-0.002mm - Interface: imPRESSive (in-house developed) - Options: Cross molding unit / Rotating core rod device imPRESSive was developed with an eye on IoT integration. It can be programmed at intervals similar to operating a smartphone. It includes many features, such as the ability to verify operations before molding through D simulation.

Quick change holder system for machine tools such as lathes and automatic lathes allows anyone to change tools with just one touch!! ● High precision and high rigidity. It features a unique R-surface joint method that is mechanically the most stable. [Static repeatability accuracy = 0.003mm] ● Tool holder exchange is one-touch. It speeds up setup changes and tool exchanges, significantly eliminating idle time on the shop floor. ● Not only does it improve the operating rate of mass production equipment, but it also enables flexibility in equipment machinery, making it ideal for small-batch production. ● All holders of the same size are compatible, and it can accommodate any tooling with hundreds of types of holders. ● Combined with a tool presetter, it allows for centralized management of tools. ● This system is widely used not only in Japan but also around the world, thanks to years of proven performance and trust.

☆★☆New Release Product☆★☆ By adopting a servo motor and ball screw as the main axis, we significantly reduce electricity costs compared to conventional mechanical and hydraulic presses. (Power consumption: 10-15 kW) Some hydraulic drive components utilize inverter motors for pressure control, contributing to electricity cost savings. (Operating oil volume: 250L) The pitless design reduces initial investment costs for the equipment. ☆New System☆FAST System☆ Mold exchange is achieved by removing and attaching only the mold plates instead of the traditional die set exchange, realizing space-saving. It is also easy to expand the die set. ☆Automation☆ With linear servo drive, the gripper speed can be adjusted. We also provide conveyors for external transport. In the future, we plan to release equipment with forming capacities ranging from 100 tons to 500 tons.

☆New Model Release☆ Releasing the SP80E with a maximum molding capacity of 8 tons (2019) OSTERWALDER AG has developed the SP series using direct drive technology (DDT) with electric servo motors since 2009, achieving high precision, energy efficiency, and space-saving designs. Over the past 11 years, they have sold 300 units worldwide. The use of servo motors on all axes improves the working environment. The noise level is quieter compared to hydraulic systems. Maintenance costs can also be reduced as hydraulic seal replacements are no longer necessary. ~Basic Specifications~ - Maximum molding capacity: 8 tons to 64 tons - Number of axes: Upper 1 + Lower 1 + Core rod + F axis - Die set: Integrated type - Molding method: Withdraw-al method, fixed die type (limited to SP80) - Repeatability: +/- 0.002 mm - Interface: imPRESSive (in-house developed) - Options: Cross molding unit / Rotating core rod device imPRESSive was developed with an eye towards IoT integration. It can be programmed at intervals similar to operating a smartphone. It includes many features, such as the ability to verify operations before molding through D simulation.

The BEMA company's automatic coolant nozzle system is a completely new type of coolant supply system that enhances productivity by being installed on machine tools that use coolant oil, such as machining centers/milling machines, NC lathes, and jig grinding machines. In the case of conventional fixed nozzles, it was necessary to manually adjust the injection position for each tool length every time a tool change was made by the ATC. Additionally, many machine users likely set the injection position to the "average" position of each tool to avoid this hassle. With BEMA's coolant nozzle system, the angle of the nozzle is controlled by a built-in servo drive through program control or remote operation, allowing coolant to be supplied to the optimal position for each cutting tool without stopping the operation of the machine tool.

By mounting this unit on automatic lathes, we achieve improved surface roughness within the automatic machining process. No special machinery is required. The surface roughness improvement process using BAUBLIES' roller burnishing is highly reliable, fast, and easy to handle. It can be easily integrated into your existing automatic machining processes. Not only does it improve surface roughness, but it also enhances surface height and is expected to improve wear resistance. In the roller burnishing process, there is no material consumption as it is removed as chips. Therefore, it can improve the yield of material consumption. Roller burnishing economically achieves improved surface roughness. The cycle time required for processing is short, and it provides high surface roughness quality.

The BEMA company's automatic coolant nozzle system is a completely new type of coolant supply system that improves productivity by being installed on machine tools that use coolant oil, such as machining centers/milling machines, NC lathes, and jig grinders. In the case of conventional fixed nozzles, it was necessary to manually adjust the injection position to match the length of each tool every time a tool change was made with the ATC. Additionally, many machine users likely set the injection position to the "average" position of each tool to avoid this hassle. With BEMA's coolant nozzle system, the angle of the nozzle is controlled by a built-in servo drive through program control or remote operation, allowing coolant to be supplied to the optimal position for each cutting tool without stopping the operation of the machine tool.

The BEMA company's automatic coolant nozzle system is a completely new type of coolant supply system that improves productivity by being installed on machine tools that use coolant oil, such as machining centers/milling machines, NC lathes, and jig grinding machines. In the case of conventional fixed nozzles, it was necessary to manually adjust the injection position to match the length of each tool every time a tool change was made by the ATC. Additionally, many machine users may be operating with the injection position set to the "average" position of each tool to avoid this hassle. With BEMA's coolant nozzle system, the angle of the nozzle can be controlled by a built-in servo drive through program control or remote operation, allowing coolant to be supplied to the optimal position for each cutting tool without stopping the operation of the machine tool.

The BEMA company's automatic coolant nozzle system is a completely new type of coolant supply system designed to be installed on machine tools that use coolant oil, such as machining centers, milling machines, NC lathes, and jig grinding machines, thereby improving productivity. In the case of conventional fixed nozzles, it was necessary to manually adjust the injection position for each tool length every time a tool change was made using the ATC. Many machine users likely set the injection position to the "average" position of each tool to eliminate this hassle. With BEMA's coolant nozzle system, the angle of the nozzle is controlled by a built-in servo drive through program control or remote operation, allowing coolant to be supplied to the optimal position for each cutting tool without stopping the operation of the machine tool.

The BEMA company's automatic coolant nozzle system is a completely new type of coolant supply system designed to improve productivity by being installed on machine tools that use coolant oil, such as machining centers/milling machines, NC lathes, and jig grinders. In the case of conventional fixed nozzles, it was necessary to manually adjust the injection position to match the length of each tool every time a tool change was made by the ATC. Many machine users likely set the injection position to the "average" position of each tool to avoid this hassle. With BEMA's coolant nozzle system, the angle of the nozzle is controlled by a built-in servo drive through program control or remote operation, allowing coolant to be supplied to the optimal position for each cutting tool without stopping the operation of the machine tool.

Quick change holder system for machine tools such as lathes and automatic lathes allows anyone to change tools with just one touch!! ● High precision and high rigidity. It features a unique R-surface joint method that is mechanically the most stable. [Static repeatability accuracy = 0.003mm] ● Tool holder replacement is one-touch. It speeds up setup changes and tool replacements, significantly eliminating idle time on the shop floor. ● Not only does it improve the operating rate of mass production equipment, but it also enables flexibility in equipment, making it ideal for small-batch production of various types. ● All holders of the same size are compatible, and it can accommodate any tooling with hundreds of types of holders. ● Combined with a tool presetter, it allows for centralized management of tools. ● This system has been widely used both domestically and internationally due to its long-standing track record and trust.

The BEMA company's automatic coolant nozzle system is a completely new type of coolant supply system designed to improve productivity by being installed on machine tools that use coolant oil, such as machining centers/milling machines, NC lathes, and jig grinding machines. In the case of conventional fixed nozzles, it was necessary to manually adjust the injection position to match the length of each tool every time a tool change was made by the ATC. Many machine users may also be operating with the injection position set to the "average" position of each tool to avoid this hassle. With BEMA's coolant nozzle system, the angle of the nozzle can be controlled via program control or remote operation using an integrated servo drive, allowing coolant to be supplied to the optimal position for each cutting tool without stopping the operation of the machine tool.

The BEMA company's automatic coolant nozzle system is a completely new type of coolant supply system that improves productivity by being installed on machine tools that use coolant oil, such as machining centers/milling machines, NC lathes, and jig grinders. In the case of conventional fixed nozzles, it was necessary to manually adjust the injection position to match the length of each tool every time a tool change was made with the ATC. Additionally, many machine users likely set the injection position to the "average" position of each tool to avoid this hassle. With BEMA's coolant nozzle system, the angle of the nozzle is controlled by a built-in servo drive through program control or remote operation, allowing coolant to be supplied to the optimal position for each cutting tool without stopping the operation of the machine tool.

By mounting this unit on automatic lathes, we achieve improved surface roughness within the automatic machining process. No special machinery is required. The surface roughness improvement process using BAUBLIES' roller burnishing is highly reliable, fast, and easy to handle. It can be easily integrated into your existing automatic machining processes. Not only does it improve surface roughness, but it also enhances surface finish and is expected to improve wear resistance. In the roller burnishing process, there is no material consumption as chips are removed. Therefore, it can improve the yield of material consumption. Roller burnishing achieves economic improvements in surface roughness. The cycle time required for processing is short, and it provides high surface roughness quality.

By equipping this unit on automatic lathes, we achieve improved surface roughness within the automatic machining process. No special machinery is required. The surface roughness improvement process using BAUBLIES' roller burnishing is highly reliable, fast, and easy to handle. It can be easily integrated into your existing automatic machining processes. Not only does it improve surface roughness, but it also enhances surface height and is expected to improve wear resistance. In the roller burnishing process, there is no material consumption as chips are removed. Therefore, it can improve the yield of material consumption. Roller burnishing economically achieves improved surface roughness. The cycle time required for processing is short, while maintaining high surface roughness quality.

By mounting this unit on automatic lathes, we achieve improved surface roughness within the automatic machining process. No special machinery is required. The surface roughness improvement process using BAUBLIES' roller burnishing is highly reliable, fast, and easy to handle. It can be easily integrated into your existing automatic machining processes. Not only does it improve surface roughness, but it also enhances surface height and is expected to improve wear resistance. In the roller burnishing process, there is no material consumption as chips are removed. Therefore, it can improve the yield of material consumption. Roller burnishing achieves economic improvements in surface roughness. The cycle time required for processing is short, and it provides high surface roughness quality.

The BEMA company's automatic coolant nozzle system is a completely new type of coolant supply system that enhances productivity by being installed on machine tools that use coolant oil, such as machining centers/milling machines, NC lathes, and jig grinding machines. In the case of conventional fixed nozzles, it was necessary to manually adjust the injection position for each tool length every time a tool change was made using the ATC. Many machine users may also be operating with the injection position set to the "average" position of each tool to avoid this hassle. With BEMA's coolant nozzle system, the angle of the nozzle can be controlled via program control or remote operation using an integrated servo drive, allowing coolant to be supplied to the optimal position for each cutting tool without stopping the operation of the machine tool.

Quick change holder system for machine tools such as lathes and automatic lathes allows anyone to change tools with just one touch!! ● High precision and high rigidity. It features a unique R-surface joint method that is mechanically the most stable. [Static repeatability accuracy = 0.003mm] ● Tool holder replacement is one-touch. It speeds up setup changes and tool replacements, significantly eliminating idle time on the shop floor. ● Not only does it improve the operating rate of mass production equipment, but it also enables flexibility in equipment machinery, making it ideal for small-batch production. ● All holders of the same size are compatible, and it can accommodate any tooling with hundreds of types of holders. ● Combined with a tool presetter, it allows for centralized management of tools. ● This system is widely used not only in Japan but also around the world, thanks to years of proven performance and trust.

The BEMA company's automatic coolant nozzle system is a completely new type of coolant supply system that improves productivity by being installed on machine tools that use coolant oil, such as machining centers/milling machines, NC lathes, and jig grinding machines. In the case of conventional fixed nozzles, it was necessary to manually adjust the injection position according to the length of each tool every time a tool change was made by the ATC. Additionally, many machine users may have set the injection position to the "average" position of each tool to save this hassle. With BEMA's coolant nozzle system, the angle of the nozzle is controlled by a built-in servo drive through program control or remote operation, allowing coolant to be supplied to the optimal position for each cutting tool without stopping the operation of the machine tool.

Quick change holder system for machine tools such as lathes and automatic lathes allows anyone to change tools with just one touch!! ● High precision and high rigidity. It features a unique R-surface joint method that is mechanically the most stable. [Static repeatability accuracy = 0.003mm] ● Tool holder exchange is one-touch. It speeds up setup changes and tool exchanges, significantly eliminating idle time on the shop floor. ● Not only does it improve the operating rate of mass production equipment, but it also enables flexibility in equipment machinery, making it ideal for small-batch production. ● All holders of the same size are interchangeable, and hundreds of types of holders can fit any tooling. ● Combined with a tool presetter, it allows for centralized management of tools. ● This system is widely used not only in Japan but also around the world, thanks to years of proven performance and trust.

Quick change holder system for machine tools such as lathes and automatic lathes allows anyone to change tools with just one touch!! ● High precision and high rigidity. It features a unique R-surface joint method that is mechanically the most stable. [Static repeatability accuracy = 0.003mm] ● Tool holder replacement is one-touch. It speeds up setup changes and tool exchanges, significantly eliminating idle time on the shop floor. ● Not only does it improve the operating rate of mass production equipment, but it also enables flexibility in equipment, making it ideal for small-batch production. ● All holders of the same size are compatible, and hundreds of types of holders can fit any tooling. ● When combined with a tool presetter, centralized management of tools is possible. ● This system has been widely used not only in Japan but also around the world, thanks to its long-standing track record and trust.

Quick change holder system for machine tools such as lathes and automatic lathes allows anyone to change tools with just one touch!! ● High precision and high rigidity. It features a unique R-surface joint method that is mechanically the most stable. [Static repeatability accuracy = 0.003mm] ● Tool holder exchange is one-touch. It speeds up setup changes and tool replacements, significantly eliminating idle time on the shop floor. ● Not only does it improve the operating rate of mass production equipment, but it also enables flexibility in equipment machinery, making it ideal for small-batch production of various types. ● All holders of the same size are compatible, allowing for adaptation to any tooling with hundreds of types of holders. ● Combined with a tool presetter, it enables centralized management of tools. ● This system is widely used not only in Japan but also around the world, thanks to years of proven performance and trust.

The BEMA company's automatic coolant nozzle system is a completely new type of coolant supply system designed to improve productivity by being installed on machine tools that use coolant oil, such as machining centers/milling machines, NC lathes, and jig grinding machines. In the case of conventional fixed nozzles, it was necessary to manually adjust the injection position to match the length of each tool every time a tool change occurred via the ATC. Many machine users likely set the injection position to the "average" position of each tool to avoid this hassle. With BEMA's coolant nozzle system, the angle of the nozzle is controlled by a built-in servo drive through program control or remote operation, allowing coolant to be supplied to the optimal position for each cutting tool without stopping the operation of the machine tool.

The BEMA company's automatic coolant nozzle system is a completely new type of coolant supply system that improves productivity by being installed on cutting equipment that uses coolant oil, such as machining centers and lathes. In the case of conventional fixed nozzles, it was necessary to manually adjust the injection position for each tool length every time a tool change was made by the ATC. Many machine users likely set the injection position to the "average" position of each tool to avoid this hassle. With BEMA's coolant nozzle system, the angle of the nozzle can be controlled through program control or remote operation using an integrated servo drive, allowing coolant to be supplied to the optimal position for each cutting tool without stopping the machine's operation.

The BEMA company's automatic coolant nozzle system is a completely new type of coolant supply system that improves productivity by being installed on cutting equipment that uses coolant oil, such as machining centers and lathes. In the case of conventional fixed nozzles, it was necessary to manually adjust the injection position for each tool length every time a tool change occurred via the ATC. Many machine users likely set the injection position to the "average" position of each tool to avoid this hassle. With BEMA's coolant nozzle system, the angle of the nozzle can be controlled via program control or remote operation using an integrated servo drive, allowing coolant to be supplied to the optimal position for each cutting tool without stopping the machine's operation.

The BEMA company's automatic coolant nozzle system is a completely new type of coolant supply system that improves productivity by being installed on cutting equipment that uses coolant oil, such as machining centers and lathes. In the case of conventional fixed nozzles, it was necessary to manually adjust the injection position for each tool length every time a tool change was made via the ATC. Additionally, many machine users likely set the injection position to the "average" position of each tool to eliminate this hassle. With BEMA's coolant nozzle system, the angle of the nozzle can be controlled by a built-in servo drive through program control or remote operation, allowing coolant to be supplied to the optimal position for each cutting tool without stopping the machine's operation.

The BEMA company's automatic coolant nozzle system is a completely new type of coolant supply system that enhances productivity by being installed on cutting equipment that uses coolant oil, such as machining centers and lathes. In the case of conventional fixed nozzles, it was necessary to manually adjust the injection position to match the length of each tool every time a tool change occurred via the ATC. Additionally, many machine users likely set the injection position to the "average" position of each tool to avoid this hassle. With BEMA's coolant nozzle system, the angle of the nozzle can be controlled via program control or remote operation using an integrated servo drive, allowing coolant to be supplied to the optimal position for each cutting tool without stopping the machine's operation.

BEMA P1 / P2 is a new coolant injection nozzle system! Without coolant hoses, the automatic cooling nozzles efficiently hit the desired points on the cutting tool tips with coolant oil, as follows: • Centering drills, NC spotting drills • Drill tools • Milling tools • Reamer tools • Tapping tools • Others We will be exhibiting at the following trade show. Please stop by when you visit. ◇◆Technical Show Yokohama 2020◆◇ Event period: February 5 (Wed) - 7 (Fri), 2020 Exhibition venue: Pacifico Yokohama Exhibition Hall A, B, C https://www.tech-yokohama.jp/ Booth number: e-19

Equipped on lathes, automatic lathes, etc., the following three types of units make screw processing easy. - Threading die head (screw cutting from the longitudinal direction) - Thread rolling head (screw rolling from the longitudinal direction) - Thread rolling attachment (screw rolling from the cross direction) We will be exhibiting at the "Technical Show Yokohama 2020." Please be sure to stop by our booth when you visit.

BEMA P1 / P2 is a new coolant injection nozzle system! Without coolant hoses, the automatic cooling nozzle efficiently hits the desired points on the cutting tool tips with coolant oil, as follows: • Centering drills, NC spotting drills • Drill tools • Milling tools • Reamer tools • Tap tools • Others Challenges of traditional coolant hoses: Most milling machines have one or more coolant hoses, and each angle is manually directed by the operator towards the tool tip. However, the directed coolant hoses often shift direction during machine operation for the following reasons: • Vibration causes the angle of the coolant hose to shift • Flying chips hit and change the angle of the coolant hose • Clamping fixtures and other objects hit and change the angle of the coolant hose → This leads to insufficient cooling of tools such as mills, milling, taps, and drills. Additionally, chip removal becomes inadequate. → The focal distance of the coolant nozzle needs to be manually reset every time the tool is changed.