Prototypes

We often receive requests of prototypes on the premise of mass production. Many technicians discuss the drawings shown to us. Next, we derive the optimum process by restructuring the program in order to minimize the risk of defectives. Next, we make the optimum plan for mass production. By focusing on the purpose of use or shape, we offer advice on matching the quality of the material. The following are examples of the results of prototypes.

Field Intended Use Quality of Material
Relating to automobiles Solenoid parts SUM23
Relating to automobiles Valve parts SUM23
Relating to automobiles Motor parts KFS103
Relating to automobiles Rotation sensor parts C3604
Relating to automobiles Shaft parts SUS440C
Relating to automobiles Collar parts Ti-6AL-4V
Relating to ships Solenoid parts S20C
Relating to construction machines Solenoid parts SUM23
Relating to construction machines Hydraulic mechanism parts SUM23
Relating to construction machines Hydraulic mechanism parts SUM23
Relating to construction machines Rotation sensor parts C3604
Relating to medical devices Parts for endoscope couplers SUS303
Relating to medical devices Connector parts SUS303
Relating to medical devices Parts for therapeutic instruments SUS316L
Relating to medical devices Parts for therapeutic instruments Ti-Ta
Relating to medical devices Parts for therapeutic instruments Ni-Ti
Relating to optical instruments Parts adjacent to lens A5056
Relating to optical instruments Cam pipe parts A5056
Relating to fuel cells Pressure sensor parts SUS316L
Relating to fuel cells Coupler parts SUS316L
Relating to sensors Temperature sensor parts C3604
Relating to sensors Optical measurement parts A5052