-The baby is designed from the ABB palletizing robot, the principle of the same structure, range of motion is greater than the other arm.
– hard aluminum alloy frame material selection to thicken the nc machining, and don\’t take other shops of material ratio, different material thickness.
-the whole arm with five MG996R metal gear steering gear, And two MG90S metal gear steering gear . The bottom of the joint use of 2 steering gear drive, Aggressive 2 times, 2 steering gear drives more than a single Steering gear drive more stable .
-All joints using high quality bearing links, better performance.
-The machine arm with the main control board fixed base, with the arm movement, even more beautiful and convenient.
-The design of the baby size and precision, especially suitable for teaching and experiment.
The arm base adopts the high quality of all steel bearing fixed base fixed machine arm movements are no longer shaking, better bearing performance.
-The product standard clamp with fixed disk, the user can according to the characteristics of raw materials to DIY sucker, electromagnet, fork, gripper, clamping device etc.
Fixed load arm burn the mechanical arm\’s length is not the longer the better. The more long, of the rudder load, directly affect the steering gear life and load over the General Assembly steering circuit, damage to the steering gear. Mechanical properties of a qualitative directly influence the mechanical arm strength is small, can load is small. The mechanical arm based on general metal steering gear and steering circuit to calculate the optimal size, play to the steering gear for best performance. The arm base using high-quality full steel bearing is fixed, the base machine arm movement stopped shaking, load-bearing performance better. At the bottom of the joint use of the two servo driven, the intensity of the 2 times, 2 a servo driven than a single actuator drive more stable.
– 1 x 798 Mechanical Arm
– 5 x MG966R Servo
– 2 x MG90S Servo
Note: Our product itself comes in parts and will need assembly