Franklin Cupboard Hinge
Franklin made solid gear, but the small plastics are always the first to go — and the cupboard hinge is a regular on our bench. With your sample on the bench this is a realistic reproduction job.

Franklin made solid gear, but the small plastics are always the first to go — and the cupboard hinge is a regular on our bench. With your sample on the bench this is a realistic reproduction job.
Why these break
Original hinges go brittle and snap at the knuckle. UV exposure breaks down the polymer chains in the original material. By the time the surface looks chalky or faded, the strength underneath is already gone.
How we reproduce them
Bring in the broken part and we'll reverse engineer it — usually with a design tweak that addresses why it failed in the first place, not just a copy of the weak original.
We print these in Nylon. Nylon is slippery and fatigue-resistant, which makes it the right choice for parts that pivot, slide or flex thousands of times.
As with everything in our library: whether a part can be reproduced depends on size, load, heat, material, and having a decent sample to work from. Send photos first — the assessment costs you nothing, and we'll tell you honestly if a genuine spare is the better option.
Part details
| Manufacturer | Franklin |
|---|---|
| Vehicle / equipment type | Caravan / pop-top |
| Common failure mode | Original hinges go brittle and snap at the knuckle |
| Typical use case | Direct replacement for the original cupboard hinge on the Franklin. |
Printing & reverse engineering
| Can print directly | No |
|---|---|
| Can scan from broken sample | Yes |
| Can redesign / improve | Yes |
| Recommended material | Nylon |
| Alternative materials | PETG |
| Print technology | FDM |
| Difficulty | Medium |
| Estimated print time | 1–2 hours |
| Estimated cost range | $10 – $24 |
| Expected lifespan | 5+ years, even on moving parts |
| Outdoor suitable | No |
| Heat resistant | No |
| Load bearing | Depends |
| Requires post-processing | No |
Ask us about this part
Many plastic parts can be recreated, repaired, redesigned, or printed, depending on size, load, heat, material, and available samples.
