Here you will find our D-shaft products.
The Studica Robotics Intake D-Shaft Hub Kit can be used to create intake systems and is ideal for the FIRST Technical Challenge (FTC) and World Robotics Olympiad (WRO). Can be used with the Silicone Rubber Tubing #76410 (sold separately).
The 6mm ID Round Flanged Bearing fits any of the channel and flat brackets with the common hole pattern having a center hole of 14mm. The inside diameter will fit any of the D-Shaft axles.
The Studica Robotics Face D-Shaft Bearing Block can be mounted on any channel and bracket allowing for a 6mm ID through hole for 6mm shafts (axles). The block has a permanently installed Standard Sealed Bearing and has 8 x M3 tapped through holes for easy mounting.
The Studica Robotics 1-1 Motor D-Shaft Kit can be used with the Studica Maverick or any FTC legal motor such as the Neverest Classic (6600 RPM) or the REV HD Hex motor (6000 RPM). The kit includes a faceplate which supports the Studica Robotics building platform. The shaft is press-fit onto the motor's shaft. It is recommended that the shaft be supported by a bearing (part # 76302 for the Studica building system).
The Studica Robotics 6mm D-Shaft Hub (4 pack) is used to connect any Studica wheel and/or motor with a 6mm shaft.
The Studica Robotics 6mm D-Shaft Servo Hub 25T is made of anodized 6061-T6 Aluminum and is used to connect a servo motor to a D-Shaft axle.
Made of aluminum, the Studica Robotics Clamping 6mm D-Shaft Hub is used with flex and drive wheels.
The Studica Robotics Light Weight 6mm D-Shaft Hub (2 pack) are used with 6mm D shafts. They have a 5mm set screw for tight clamping and seven M3 tapped mounting holes.
The Studica Robotics enhanced D-shaft wheel hub kit is ideal for use with the Omni and Mecanum wheels for a strong axle hold.
The Studica Robotics 6mm D-Shaft Low Profile Clamping Hub is an ideal fit for our motors.
The Studica Robotics Clamping 6mm D-Shaft Hub - v2 is used with flex and drive wheels and is improved for the absolute strongest hold.
The Studica Robotics D-Shaft Coupling has an ID of 6mm and an OD of 12mm. It can be used with the 6mm D-Shaft Axle and a 6mm shaft DC motor.
The Studica Robotics D-Shaft Collar is 6mm ID and 12mm OD. The inside diameter will fit any of the D-Shaft axles.
The Studica Robotics 6mm D-shaft collar clamp cay be used with the 6mm D-Shape Shaft to secure wheels in their position.
The Studica Robotics 6mm D-shaft collar clamp (2-piece) has a 6mm D-hole and dimensions of 20mm x 8mm.
The Studica Robotics 30 Tooth D-Shaft Gear is ideal for use with robotics design builds.
A Studica Robotics 90 Tooth D-Shaft Gear for use with robotics design builds.
The 6mm diameter D -Shaft is made of stainless steel and is used throughout our building system as drive components. The D-Shaft profile is used with pulleys, gears and hubs when tightening the set screws and creating a non-slip connection.
The 6mm diameter D-Shaft is made of stainless steel and is used throughout our building system as drive components. The D-Shaft profile is used with pulleys, gears and hubs when tightening the set screws and creating a non-slip connection.
The 6mm x 140mm D -Shaft is made of stainless steel and is used throughout our building system as drive components. The D-Shaft profile is used with pulleys, gears and hubs when tightening the set screws and creating a non-slip connection.
The 6mm x 96mm D-Shaft is made of stainless steel and is used throughout our building system as drive components. The D-Shaft profile is used with pulleys, gears and hubs when tightening the set screws and creating a non-slip connection.
The Studica Robotics 6mm x 432mm D-Shaft is made of stainless steel and is used throughout our building system as drive components. The D-Shaft profile is used with pulleys, gears and hubs when tightening the set screws and creating a non-slip connection.
The Studica Robotics 12 Tooth 5mm Pitch GT2 D-Shaft Pulley is ideal for your robotics design builds.
The Studica Robotics 24 Tooth 5mm Pitch GT2 D-Shaft Pulley is ideal for your robotics design builds.
The Studica Robotics 20 Tooth GT2-6mm Timing Belt D-Shaft Pulley can be used with any of the GT2 belts.
The Studica Robotics 30 Tooth GT2-6mm Timing Belt D-Shaft Pulley can be used with any of the GT2 belts in your robotics builds.
The Studica Robotics 40 Tooth GT2-6mm Timing Belt D-Shaft Pulley can be used with any of the GT2 belts in your robotics builds.
The Studica Robotics 60 Tooth GT2-6mm Timing Belt D-Shaft Pulley can be used with any of the GT2 belts in your robotics builds.
The Studica Robotics 80 Tooth GT2-6mm Timing Belt D-Shaft Pulley can be used with any of the GT2 belts in your robotics builds.
The Studica Robotics 10mm OD round groove D-shaft pulley is for use with your robot design builds.
The Studica Robotics 20mm OD round groove D-shaft pulley is for use in robot design builds.
The Studica Robotics 30mm OD round groove D-shaft pulley is for use with robotics design builds.
The Studica Robotics 40mm OD round groove D-shaft pulley is for use with your robotics design builds.
The Studica Robotics 50mm OD round groove D-shaft pulley is for use with your robotics design builds.
The Studica Robotics 60mm OD round groove D-shaft pulley is for use with your robotics design builds.
This Studica Robotics 1mm nylon spacer 24-pack is used to space gears, sprockets, wheels, and other parts along a 6mm D-shaft. Mix and match with various spacer lengths.
This 20mm Spacer is used to space gears, sprockets, wheels, and other parts along a 6mm D-shaft. Mix and match various spacer lengths.
This 1mm Spacer is used to space gears, sprockets, wheels, and other parts along a 6mm D-shaft. Mix and match various spacer lengths.
This 1mm Spacer is used to space gears, sprockets, wheels, and other parts along a 6mm D-shaft. Mix and match various spacer lengths.
The Studica Robotics Rack and Pinion D-Shaft Set (2 Pack) includes 2 Racks, 2 Pinions, and 4 Glides. The rack hole mounting pattern matches that of the Studica Robotics channels, flat beams, square beams and flat brackets so it's very easy to mount onto the Studica Robotics structures.