No external guide needed! Ultra-high rigidity actuator 'Plate slider type: ball pinion'
The "Ball Pinion" is used as a drive mechanism for Cartesian coordinate robots, laser processing machines, various inspection devices, and more. Utilizing the "Monozukuri Subsidy" for the fiscal year 2013, we embarked on the development of a linear drive device that operates with a unique mechanism, and in 2015, we developed a proof-of-concept model for the new mechanism's operating principle. Since then, with support from the national government and Aichi Prefecture, we have developed the commercially available "Plate Slider Type: Ball Pinion." Our company aims to cultivate the "Ball Pinion" into a product that serves as the axis (axle) of machines. 【Features】 ■ Operates at high speed ■ High rigidity of the sliding part ■ Capable of large-scale and multifunctional design ■ Easy design through unitization ■ Simple assembly *For more details, please refer to the PDF materials or feel free to contact us.
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basic information
【User Benefits】 ■Reduction of production time ・Reduction of production costs ■Tasks that require multiple machines can be performed with a single machine, saving space ・Reduction of capital investment ■No need to separately select guide and drive shafts ・Reduction of design costs ■Reduction of assembly time ・Reduction of assembly costs *For more details, please refer to the PDF document or feel free to contact us.
Price range
P3
Delivery Time
Applications/Examples of results
[Usage] ■ Used as a drive device for linear coordinate robots, laser processing machines, palletizers, 3D printers, and various inspection equipment. *For more details, please refer to the PDF document or feel free to contact us.
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Company information
Our company was established in July 2000 in Toyoyama Town, Nishikasugai District, Aichi Prefecture, and we design various transport devices, image inspection devices, solvent coating devices, and other equipment used in automotive parts manufacturing lines. In June 2014, we began developing a linear drive device that operates with a completely different mechanism from conventional ones, and in 2015, we created a proof-of-concept model demonstrating the operating principle of the new mechanism. In June 2019, we worked on commercializing the linear drive device, and in March of this year, we produced a prototype of the commercial model. This fiscal year, we are building a production system with the goal of commercialization within fiscal year 2021, while also engaging in PR activities such as participating in exhibitions to acquire customers.
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