The Studica Servo Arm can be used with the Multi Mode Servo, Multi Mode Servo 200, or most servos with a 25 Tooth gear.
Specifcations:
The Studica Servo Hub Pro can be used with the Multi Mode Servo, Multi Mode Servo 200, or most servos with a 25 Tooth gear.
The Motor Mount Plate is used with the Maverick 12V DC Gear Motor (Part# 75001) to attach it inside the anyone of the U Channels 76010 to 76018. This is an example of a chassis with 4 motors mounted inside the U-Channel using a Motor Mounting Plate.
Used with Studica Omni and Mecanum wheels for a strong axel hold.
Specifications:
· 450mm Length
· 3 position
· TJC8 MH-FC on one end
· TJC8 FH-MC on the other end
· Twisted cable
· Colors: White, Red, Black (red in middle)
· 24AWG Guage
Compliant Stars are the perfect thing for intake mechanisms. The soft material gives way to allow rigid objects to be manipulated easily. A line of multiple stars on a driven hex shaft creates a very effective roller that ignores variations in the objects being driven. The multiple-spoke design allows the star to act as a brush, creating more surface area to interact with and grab objects. This makes for high-performance intakes and internal conveyors. A shaft collar may be used to make absolutely sure the wheels stay clear of other mechanisms or maintain consistent spacing. Molded into the star are several guidelines. Cut the star at the lines (or elsewhere) to create more compact mechanisms.
Different durometer ratings give each Compliant Star unique characteristics. Green stars (35A durometer) are the softest and most compliant around objects, while orange (40A), maroon (45A), and blue (50A) wheels are increasingly firm. Black (60A) is quite firm, while the Gray (80A) is nearly rigid. The increased firmness also allows the latter wheels to carry a higher RPM rating
The NEW 40:1Tetrix Max; TorqueNADO Motor Gearboxes give more rpm when compared to the 60:1 gearbox included with the TorqueNADO motor. These gearboxes are designed with the same 37 mm diameter as the original 60:1 gearbox, while using the same 6 mm D-shaft and alignment pins, so getting the additional speed you need is a breeze.
Φ29.0mm*16.0mm thick6*M3 thread tapping through(including 2*M3 thread for M3 SHCS)Φ6.0mm D holeAL6061-T6
The Studica Servo Arm Extended can be used with the Multi Mode Servo, Multi Mode Servo 200, or most servos with a 25 Tooth gear.
The Servo Horn 25T is made of anodized 6061-T6 Aluminum and is used with the Multi-Mode Smart Servo (75002) and the Studica building structure.
Includes,
The Studica Multi-Mode Smart Servo features all-steel gears and large amounts of torque. This angular programmable Servo can fill a variety of roles on your robot or project. In standard mode, it operates on a +/- 150-degree range. Using the Studica Smart Robot Servo Programmer (sold separately) the Multi-mode Smart Servo can be configured to run in continuous, standard, and custom angular mode. In continuous rotation mode, the servo will have proportional speed control based on the PWM signal that you send with your servo controller.
Programming the Smart Servo using the Smart Servo Programmer
CAD File
The Servo Standard Front Mounting Bracket is one option to mount the Multi-Mode Smart Servo (75002) to the Studica building structure.
The Servo Mount Flat Plate is one option to mount the Multi-Mode Smart Servo (75002) to the Studica building structure.
The Servo Mount Offset Plate is one option to mount the Multi-Mode Smart Servo (75002) to the Studica building structure.
The 6mm Servo Hub 25T is made of anodized 6061-T6 Aluminum and is used to connect a servo motor to a D-Shaft axel.
The Studica Fast Multi-Mode Smart Servo features all-steel gears and large amounts of torque. This angular programmable Servo can fill a variety of roles on your robot or project. In standard mode, it operates on a +/- 150-degree range. Using the Studica Smart Robot Servo Programmer (sold separately) the Fast Multi-mode Smart Servo can be configured to run in continuous, standard, and custom angular mode. In continuous rotation mode, the servo will have proportional speed control based on the PWM signal that you send with your servo controller.