Z-axis stabilizer bars

Z-axis stabilizer bars

cults3d

This model of stabilizer bars for the Z axis has a quite important robustness, the upper supports connect with 3 screws to the Z and X axis and to the spindle bearing, in the lower axis it connects to the main profiles holding in turn the upper casing and holding the lower casing, the bars are fastened with screws for their exact adjustment. The model also has protectors and covers for cables and power strips in this way we have everything protected at once. The bottom cover could be slid off without any problems. The models have the adjustable holes to be valid in any version of artillery x1 since in the tests performed varied according to the version having to make a standard model to remedy this problem. I include several modifications according to the version of printer artilley x1 because they vary the position of the limit switches, screws, etc... I include 3 models for bar types 10mm 12mm 14mm, recommended 12mm iron or steel bars. I include models with the square trimmed at the request of users since having installed the CONTROL3D Z-axis carriages the standard model collides with them. (https://www.thingiverse.com/thing:4344699) (manufacturer, designer, mechanic, expert, who has a channel on youbue, https://www.youtube.com/channel/UC_i4m-pDROARtY3cmgrJhDA go through your channel as it is one of the most experts in this country) I include TPU gasket model in case you rent wants to add it to the brackets. Printing with enough stiffness and resistant material is recommended, as it has to achieve the desired thing which is stability, my configuration and is the one I recommend was layer height 0.2 nozzle 0.4, 4 wall perimeters + 4 top + 4 bottom and 35% minimum filler in PETG. It is a costly set in time and material as it will be 500g approximately but you will only have to print once so I recommend making it sturdy and firm. The screws may vary in distance depending on the area and need but I will indicate the ones used and the minimum measurements, many of the original screws can be used but due to the poor quality of the screws I recommend putting new ones in as needed. The screws I needed were as follows: 2 x m3*20mm (bottom fastening for the electronic cover). 2 x m4*16mm (upper outer stud bars) 4 x m4*8mm (upper inside stud and lower inside stud bars) 2 x m4*10mm (lower outer stud bars) 8 x m5*20mm (lower fastening to the main frame) 4 x m5*12mm (Z-axis bracket fastening) 2 x m5 T-nut (Z-axis bracket attachment) 2 x m5*50mm (fastening Z-axis to upper outer X-axis) 4 x m5*8mm (Z-spindle bearing clamp) 4 x m5*10mm(clamping Z-spindle bearing bracket to chassis) 2 x 10/12/14mm*59.7cm max(steel/iron rods) the tests performed are quite remarkable on the beta-testers as with other types of fasteners they always had oscillation. I hope they can get the same use out of it as in the cases already installed. Remember that it may need some variation or modification and I would be happy to hear them to implement it. ####################################################################### This model of stabilizer bars for the Z axis has a fairly strong robustness, the upper supports connect with 3 screws to the Z and X axis and to the spindle bearing, on the lower axis it connects to the main profiles while holding the upper housing and Holding the bottom case, the bars are fastened with screws for their exact fit. The model also has protectors and covers for cables and current tapes, so we have everything protected at once. The bottom cover could be removed by sliding without problems. The models have adjustable holes to be valid in any version of artillery x1 since in the tests you carry out they varied according to the version having to make an standard model to correct this problem. I include several modifications depending on the artilley x1 printer version because the position of the limit switches, screws, etc. vary. I include 3 models for types of bars 10mm 12mm 14mm, recommended 12mm bars iron or steel I include models with the square cut out at the request of users, since having the CONTROL3D Z-axis carriages installed, the standard model collides with them. (https://www.thingiverse.com/thing:4344699) (manufacturer, designer, mechanic, expert, who has a channel on youbue, https://www.youtube.com/channel/UC_i4m-pDROARtY3cmgrJhDA go through his channel since it is one of the most experts in this country) I include a TPU gasket model in case they want to add it to the supports. Printing with enough rigidity and resistant material is recommended, since it has to achieve the desired stability, my configuration and it is what I recommend was layer height 0.2 nozzle 0.4, 4 wall perimeters + 4 upper + 4 lower and 35% minimum fill in PETG It is expensive set in time and material since they will be approximately 500g but you will only have to print once so I recommend making it robust and firm The screws can vary in distance according to the area and the need, but I will indicate the ones used and the minimum measures, many of the original screws can be used, but due to their poor quality, I recommend putting new ones as needed. The screws that I needed were the following: 2 x m3 * 20mm (bottom bracket for electronic cover) 2 x m4 * 16mm (upper outer stud bars) 4 x m4 * 8mm (inner top stud and bottom inner studs) 2 x m4 * 10mm (outer lower stud bars) 8 x m5 * 20mm (lower fastening to the general picture) 4 x m5 * 12mm (Z axis bracket bracket) 2 x m5 T-nut (bracket for Z axis bracket) 2 x m5 * 50mm (fastening Z axis to upper X axis outside) 4 x m5 * 8mm (clamping Z spindle bearing) 4 x m5 * 10mm (fastening Z axis bearing Z axis bearing to chassis) 2 x 10/12 / 14mm * 59.7cm maximum (steel / iron bars the tests carried out are quite remarkable in the beta-testers since with other types of fastening they always had oscillation I hope they can get the same utility as in the already installed cases Remember that it may need some variation or modification and I would be delighted to hear it to implement it.

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