Our robotics parts include beams, brackets, channels, couplers, electronics, fasteners, gears, hubs, motors, mounts, plates, pulleys & belts, sprockets & chains and wheels to assist you with your creative and unique designs.
The Studica Robotics Power Switch Plate is for use with the Power Switch (part# 70183).
Learn How to Control Motors, Sensors & Actuators with LabVIEW & NI myRIO.
The Robotics Sensor & Motor Training Kit from Studica Robotics is an affordable turnkey solution that allows you to teach your students how to control sensors and motors using LabVIEW and NI myRIO. It includes two project boards, one with different motors and the other board with most of the standard robotics sensors.
(NI myRIO, LabView and computer are not included).
The Studica Robotics Servo Mount Flat Plate is designed to mount the Multi-Mode Smart Servo (part #75002) to the Studica building structure.
The Studica Robotics Servo Mount Offset Plate is used to mount the Multi-Mode Smart Servo (part #75002) to the Studica building structure.
This shaft clamping hubs is designed to use together with the 36mm encoder DC motor. Driven by the encoder motors, this hub sends the power to the executive device (e.g. wheel). It comes with one 4mm threaded hole and two 4mm holes, allowing you to connect with encoder motors easily.
Slider Plate can be connected with Slider Beam2424 -752 to build a high-precision linear motion structure (see demo). It comes with various screws and mounting holes, allowing you to connect on other structures easily.
Threaded Shaft is the connection part between linkages and Angular sensor. You can measure the angle of linkages together with the threaded shaft and Angular sensor. The threaded shaft is unable to turn as connected to the linkage, so you just need to fix the threaded shaft on the linkage with a nut. The angle of the shaft is adjustable by 90 degrees a time, so you can adjust the initial angle of the angular sensor.
The Studica Robotics X Bracket (2-pack) is perfect for connecting four channels pieces together. Each of the 4 sections is 48mm wide and the overall dimensions are 144mm x 144mm.
The Studica Robotics 30-tooth gear is ideal for use with robotics design builds.
The Studica Robotics 38mm Omni Wheel was designed as an odometry wheel that can fit inside most channel sizes. For ease of use, three cores were designed to fit the 6mm D-Shaft, 5mm Hex Shaft, and 7mm Hex Shaft. The wheel is open for easy use in any ecosystem with the provided different-sized cores.
The Studica Robotics 38mm Omni Wheel (3 pack) was designed as an odometry wheel that can fit inside most channel sizes. For ease of use, three cores were designed to fit the 6mm D-Shaft, 5mm Hex Shaft, and 7mm Hex Shaft. The wheel is open for easy use in any ecosystem with the provided different-sized cores.
The Studica Robotics 3mm pattern spacer (10 pack) is designed for use with your Robotics builds and design.
The Studica Robotics 432mm L-Beam (2-pack) has a width and height of 14mm. It is strong while light weight. It can be easily cut to your own custom size. The hole pattern matches the hole patterns in the Studica U-Channel, Low Profile U-Channel, and the various plates. Ideal for rapid prototyping.
The Studica Robotics 6mm D-shaft collar clamp (2-piece) has a 6mm D-hole and dimensions of 20mm x 8mm.
The Studica Robotics 96mm U-Channel (2-pack) is 3mm thick and has a 48mm x 48mm profile. As with the other Studica Robotics building components, it has the common hole pattern which makes it easy to connect to other structure with very little or no additional machining required. You can easily connect to other channel, extrusions, bushings, bearing, mounting brackets and more so you can quickly assemble and disassemble robots and automated systems.
The Studica Robotics Face 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.