Diaphragm actuators
The diaphragm actuators are easy to fabricate, however, precision and dexterity are required.
Here is our step-by-step procedure for fabricating the DEAs:
Figure 14: Procedure for fabricating diaphragm actuators
In total, 4 pairs of circular actuators (8 single actuators) are needed to move all 4 legs of the robot (1 pair for each leg).
Figure 15: 8 completed diaphragm actuators
Other components
The T-shaped components, the legs and the C-shaped components were modelled using 3ds Max software and 3D printed. 4 T-shaped components, 4 C-shaped components and 4 legs are needed to complete the structure of the robot.
To ensure that the horizontal motion of the T-shaped component translates to forward and backward motion of the leg, a pin support has to be established between the tip of the protruding segment of the T-shaped component and the top of the leg. Thus, a blind hole is made at the tip of each T-shaped component as shown in (see Figure 16), where a screw can be inserted to pin the leg to the T-shaped component. The flat circular bases at the two other ends of the T-shaped components are to reduce the stress on the already taut circular actuators and thus reduce the risk of rupture.
Figure 16: T-shaped component
For the leg, shown in Figure 17, the through hole at the top of the leg allows us to pin the top of the leg to the T-shaped component using a screw. Similarly, the slot in the middle of the leg enables us to establish a pin support between the middle of the leg and the edge of acrylic board that holds all the actuators in position. The slot allows the connection between the middle of the leg and the edge of the board become a sliding pin support to accommodate changes in the distance between the tip of the T-shaped component and the pin at the edge of the board while the actuators are being activated. The hemispherical base of the leg is so that the leg can partially roll on the ground, which reduces the resistance to motion arising from drag.
Figure 17: Leg
The C-shaped component is pictured in Figure 18. Its purpose is to provide external compressive stress onto the pair of acrylic rings to counter the tension experienced by the highly stretched out diaphragm actuators.
Figure 18: C-shaped component