In various Asian cultures, the number nine is revered, symbolizing longevity, eternity, and completeness. Inspired by this profound cultural significance, the Nonagonal Flower Pot emerges as a celebration of the number nine's symbolic power. It's a testament to the enduring allure of geometric perfection and the deep meanings ascribed to numbers across different traditions. This pot isn't just a home for your plants; it's a tribute to the universal language of numbers and their resonant beauty.
Crafted with a precise nonagon shape, each side of the pot tilts at a subtle 6º angle, giving it a dynamic appearance that changes with the light. The wide, flat rim, reminiscent of classic terracotta craftsmanship, ensures stability and adds an elegant finish. Functionality is woven into the design through carefully placed drainage holes and stabilization ribs, ensuring the health and vigor of your plants. The sides are deliberately plain, offering a canvas for personalization, inviting you to imbue the pot with your creative flair.
Update 2024-06-05: Added a showcase folder.
For a harmonious gardening ensemble, pair your Nonagonal Flower Pot with the Nonagon Plant Saucer. This combination not only looks aesthetically pleasing but also keeps your gardening space neat and efficient.
Finding the perfect model amidst the large number of variants has never been easier! Take a look at the detailed PDF catalog in the "Other Files" section in the “Files” tab. This catalog provides a visual overview of all the models in this project, complete with dimensions, to help you quickly find exactly what you need.
But it's more than just a visual treat; the catalog includes organized tables that let you easily compare models based on specific parameters. Once you've spotted the model that meets your criteria, just search for its filename on the project page to easily download the right file.
In the files section, you'll find PrusaSlicer example projects, offering basic settings as a starting point for your prints. For more detailed information, please refer to the table below:
Parameter | Description |
---|---|
Orientation | Refer to the example project. |
Nozzle Size | 0.4mm, 0.6mm, 0.8mm (see below) |
Layer Height | Adjust according to nozzle size |
Filament Materials | Recommended: PETG, ASA |
Perimeters | 2 to 3, based on wall thickness |
Infill | 15% (check slicer settings) |
The pot is designed to print effectively with 0.4mm, 0.6mm, and 0.8mm nozzles, accommodating all wall thicknesses. Select a layer height appropriate for your nozzle size, and always review the sliced result before printing. Aim for the walls to be printed solely with perimeter lines, free of infill. For prints using a 0.4mm nozzle, consider increasing the number of perimeters to three or more for optimal results.
The models not only have different sizes, but also three side thicknesses.
S17
(1.68mm): The thinnest variant is best suited for rigid filament. It is ok for smaller pots, but definitely too weak for pots that are equal or greater than 200mm in height.S20
(2.0mm): The medium thickness gives more stability and works well for soft materials like PETG. A good compromise, for medium sized indoor pots.S25
(2.5mm): My recommendation. This thickness provides excellent structural support for the sides of the pot, even for very large prints. These prints withstand outdoor conditions, even when moved filled with heavy wet soil.Reflecting the variety in nature, the Nonagonal Flower Pots are designed to accommodate diverse plant sizes and preferences. The example filename LR2414-P9-S25-H200-D260.3mf
decodes as follows:
P9
represents the nonagonal structure, with nine sides.S25
indicates the thickness of the sides, set at 2.5mm for structural integrity.H200
and D260
denote the pot's height and diameter, respectively.All the 3D models for the saucer can be found in the “Files” tab, nestled under the “Other Files” category. To streamline your experience, I've organized them into separate ZIP files based on file format—choose from STL, 3MF, or STEP files according to your needs. Simply download the ZIP file that corresponds with the format you require.
I sell the Fusion 360 design for this and other plant saucers in the Printables store. By buying this design, you are supporting future designs and make all the free downloadable content possible.
Printables Store: Flower Pots - Fusion 360 Designs
Interested in my designs? Browse through my collection of 3D models:
👉 https://metikumi.com/3d-models/
Stay connected on social media for the latest updates and work-in-progress insights:
The Nonagonal Flower Pot embodies a unique blend of cultural resonance and modern design sensibilities. It stands as a symbol of completeness and eternal beauty, offering a distinctive home for your plants. This pot invites you to engage with the rich tapestry of meanings behind the number nine while providing a practical and customizable option for your gardening needs.
Happy planting!
No. Either the bottom thickness depends on the side thickness, or it is fixed for all models. In most slicer software, you can easily change this dimension.
Move the model into the printer bed, by changing the Z position to a negative value. The slicer will then cut that section off. So, if the bottom is 2.4mm thick, you can move the model to negative 0.6mm, what gives you a new bottom thickness of 1.8mm.
Make sure to check the sliced result for any side effects before printing!
For the best look, choose a saucer that has a gap between 10-20mm between the pot and the rim. As the matching saucer has the same rim with that the pot, you can simply look at the difference from the top to the bottom side.
The following contains the rounded values, how many millimetres the bottom is inset at the side. It is a theoretical line, which does not include the rim.
Height (mm) | 6º Inset (mm) | 8º Inset (mm) |
---|---|---|
100 | 10 | 14 |
125 | 13 | 17 |
150 | 16 | 21 |
175 | 18 | 24 |
200 | 21 | 28 |
250 | 26 | 35 |
300 | 31 | 42 |
350 | 37 | 49 |
If you have a pot with a diameter of 260mm and a height of 200mm, that has a 6º angle at the side, the inset is about 21mm. That would compare to a diameter of 218 at the bottom.
So, if you print a saucer with 240mm diameter, 22mm larger than this imaginary diameter, it adds about 11mm to each side, which looks neat.
To verify your choice, load the pot and saucer into the same slicer project so that they overlap in the centre of the printer bed. That way you can visually confirm if your choice looks good.
The author marked this model as their own original creation.