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Manufacturing and Assembly:

We utilized several different materials and manufacturing processes in the manufacturing and assembly of our machine. At the bottom of this page, there are several images of our final product along with a video to showcase the motions.

Manufacturing:

Cylinder and Spacer: The cylinder was made of ABS and cut with a band saw. It was attached to the wooden pillar with two 3.5 inch wood screws. The cylinder was also spaced from the wooden pillar via a 3D printed PLA spacer. One of the surfaces on this spacer was flat to sit flush with the wooden pillar and the other surface was curved to fit with the profile of the cylinder.  

Base: The base was created using 2x4 inch blocks of wood. This wood was cut using a band saw to size, and counter bores were made with a hand drill press to house large hex bearings. The two pillars were approximately 1 ft in height, while the base was 1.5 ft in length. The pillars were screwed into the base using angle brackets and wood.

Cams and followers: The cams were made from 3D printed PLA and had a design to press fit a 3/8 inch hex nut inside. The cam follower was also made from 3D printed PLA and was affixed to the top of the valve stem.

Cylinder cap: The cylinder cap was made from 3D printed PLA to house the valves and valve springs. The openings for the valves were hexagonal to fit a 3/8 inch size hex nut snugly. This was so that when the valves were actuated they would not move in an undesired direction.

Valves: Our valves were created by using a Dremel cut bolt that could accommodate nuts, springs, and spacing sleeves. We decided on this design because of its adjustability and affordability, it would be easy to cut the bolt down with a Dremel as well as adjust valve position by rotating the nut to a different placement.

Piston: The piston was made from 3D printed PLA, it was sized to fit well within the 3.49 inch inner diameter of the cylinder.

Piston linkages: The linkages were originally made of laser cut wood and rotated on an aluminum shaft cut with a band saw. After some testing, the linkage material was changed to aluminum cut using a band saw. Holes were drilled using a drill press and rotary bearings were press fit into the bores. These linkages were attached to the piston with an aluminum dowel cut using a band saw.

Timing pulleys: This project utilized 2 timing pulleys to translate rotary motion from the input crank to the camshaft. The pulleys were made of 3D printed PLA with the cam pulley having a 2 to 1 ratio to the crankshaft pulley. The camshaft pulley has 4 holes at the outer edges of the radius to accommodate screws to attached to the Lazy Susan rotary bearing. It also has a hexagonal hole in the center to accommodate a locking hex nut. The crank pulley was press fit onto the aluminum rotary crankshaft.

Camshaft: The camshaft was a threaded rod that could translate back and forth within the cam pulley and hexagonal bearing in the wooden support pillar. There are hexagonal nuts within the cam pulley and hex bearing that stay in place, these allow for the camshaft to spin and thread back and forth.

Miscellaneous Parts:

Rotary input handle: The input handle was made from 3D printed PLA.

Lazy Susan: The Lazy Susan bearing was fixed to the wooden support pillar and allowed to rotate with the camshaft pulley. It was affixed to the wooden support using wood screws and to the cam pulley using machine screws.

Shafts: All dowel shafts were 6061 Aluminum and cut with either a band saw. The camshaft was a threaded mild steel rod and cut using a rotary abrasive saw.



Assembly:

The machine was assembled first by affixing the cylinder and spacer to a support pillar without installing the pillar onto the base. The 3D printed cams were screwed onto the camshaft and put into place with locking nuts. Then, the camshaft was installed into the hex bearing on both pillars and fixed into place with locknuts. Within the linkage components, rotary bearings were press-fit into all applicable machined holes. The crankshaft is split into 2 parts, the linkages and piston were installed using the pre-cut dowel pins. Both sides of the crankshaft were then press-fit into the piston linkages while also being press-fit into place in the two vertical support pillars. After this, the cam pulley and Lazy Susan were installed, the Lazy Susan was drilled into the support pillar with the piston cylinder assembly. The cam pulley was affixed to the camshaft and bolted on to the Lazy Susan. The crank pulley was then press fit onto the crankshaft. These pillars were then attached to the base first using the angle brackets. After they were secured onto the base they were drilled into place from the bottom using 3.5-inch-long wood screws. After securing the base, the timing belt was affixed to the pulleys. The valves and valve cap were then placed on-top of the cylinder. To finish off the assembly the crank handle was press fit onto the input side of the crankshaft.




Widget Connector
urlhttps://www.youtube.com/watch?v=gKlfpeJHsrQ&feature=youtu.be

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