Thanks to this mod, you'll be able to place the filament spool on the side of your Ender 3 V3 KE and avoid the constant excessive vibrations that can occur when having 1 KG of filament located on the top of the Z-axis.
If you're looking for a model without a filament sensor for your Ender 3 V3 KE, or if you have an Ender 3 V3 SE, my other mod might interest you. You can find it here.
When importing the files into your slicer, specify that they should be treated as a single piece. Alternatively, you can use the STL files to slice them if you prefer.
The print consists of 2 parts, a remix of the model created by @Tchaarm_1553187 to which I added a small guide with a 4 mm opening to accommodate a Teflon tube, and another module that can be placed in either of the two corners where the 4 mm Teflon tube would also be connected.
With these two small connections, you can create an arc with the PTFE tube pronounced enough for the filament insertion to be completely straight into the filament sensor, and thus descend directly towards the extruder.
The openings for placing the PTFE tube have enough tolerance, eliminating the need for extra adjustments, and it should be snug enough to prevent movement during extrusions.
The sensor part will require supports; the 3MF file already has the correct position and built-in supports. The side part will not need supports or anything similar.
I recommend this mod if you want to have a lateral filament load integrated into the printer itself, using the official holder: https://www.printables.com/model/711231-ender-3-v3-ke-filament-spool-side-mount-toolless
Download the files and load them into your preferred slicer. Be cautious, as the relative positions of the parts may shift if the software doesn't correctly detect the 3MF files. If that's the case, it's better to use the STL files.
The 3MF files are pre-configured with the correct position and include supports for printing the piece that connects to the sensor.
Turn on the printer and enjoy a smoother printing experience with reduced wobbling.
UPDATES
The author remixed this model.
The main differences are: