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  5.        <title>Thingiverse - Things Tagged With 'The Zesty Nimble'</title>
  6.        <description><![CDATA[Cool things we think you'll like from Thingiverse.com]]></description>
  7.        <link>https://www.thingiverse.com/tag:The Zesty Nimble</link>
  8.        <lastBuildDate>Thu, 28 Mar 2024 13:30:36 +0100</lastBuildDate>
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  11.        <copyright>Copyright 2024, Thingiverse.com</copyright>
  12.        <item>
  13.            <title>HevORT - Advanced DIY 3D Printer - Main Page</title>
  14.            <link>https://www.thingiverse.com/thing:3532039</link>
  15.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:3532039"><img src="https://cdn.thingiverse.com/assets/90/b7/35/bf/f0/large_preview_HevORT_Poster.png"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p><a rel="ugc nofollow" href="https://forums.hevort.com/index.php"><img src="https://github.com/MirageC79/HevORT/blob/master/images/HevORT%20Logo.png?raw=true" height="48" width="48" alt="image" style="float: left;"></a>  </p>
  16. <h2><strong> Join the Support Discussion Forum now to get latest news and more insights on the HevORT.</strong></h2>
  17. <p><a rel="ugc nofollow" href="https://www.facebook.com/HevORT"><img src="https://github.com/MirageC79/HevORT/blob/master/images/FB_HLogo.png?raw=true" height="48" width="48" alt="image" style="float: left;"></a>  </p>
  18. <h2><strong> Join the Discussion Group on Facebook now and exchange about the HevORT.</strong></h2>
  19. <p><a rel="ugc nofollow" href="https://miragec79.github.io/HevORT/"><img src="https://github.com/MirageC79/HevORT/blob/master/images/Coverflat.png?raw=true" alt="WikiBanner"></a><br><em>Click the banner to access <a rel="ugc nofollow" href="www.hevort.com">HevORT.com</a></em></p>
  20. <h1>WHAT'S SPECIAL ABOUT THE HevORT?</h1>
  21. <ul><li>Wide and Tall front view to the print zone with no cross member or motors in the way.</li>
  22. <li>Optimized MGN12 rail integration with minimized moment between nozzle and linear axis.</li>
  23. <li>Motors are located outside the heated chamber.</li>
  24. <li>Bigger print area for same frame dimension as Hypercube (Exluding electronics enclosure)</li>
  25. <li>Very rigid Frame and XYGantry Tested up to 500mm/s true print speed.<br>
  26. See the test here: <a rel="ugc nofollow" href="https://youtu.be/SpZlMYXZW-o">https://youtu.be/SpZlMYXZW-o</a></li>
  27. <li>Self Leveling Z Axis with no binding and constraint for better stability and repeatability.<br>
  28. See how can it speed up your production here: <a rel="ugc nofollow" href="https://www.youtube.com/watch?v=aL7pEEHTTe4">https://www.youtube.com/watch?v=aL7pEEHTTe4</a></li>
  29. <li>Steep angle capacity for future Non-Planar printing.</li>
  30. </ul><h2>SPECIFICATIONS:</h2>
  31. <ul><li>CoreXY</li>
  32. <li>Print Area (Scalable): 315x315x315</li>
  33. <li>MGN12 Rails for X and Y</li>
  34. <li>Self Leveling heated bed (mecanically controlled by 3 independent Nema17 Stepper Motors)</li>
  35. <li>Zesty Nimble Direct Extruder</li>
  36. <li>Zesty Kryo hot end watercooler</li>
  37. <li>BLTouch Z probe</li>
  38. <li>DuetWifi + Duex5</li>
  39. <li>120VAC heated Bed</li>
  40. <li>Dibond enclosure</li>
  41. <li>BerdAir part fan (compressor)</li>
  42. </ul><h2>Visit <a rel="ugc nofollow" href="http://www.hevort.com">HevORT.com</a> to start your build!</h2></div></div>]]></description>
  43.            <author>MirageC</author>
  44.            <pubDate>Wed, 10 Apr 2019 20:48:58 +0100</pubDate>
  45.            <guid>https://www.thingiverse.com/thing:3532039</guid>
  46.            <enclosure url="https://www.thingiverse.com/download:6339250" length="104084" type="application/sla"/>
  47.        </item>
  48.        <item>
  49.            <title>Mockup of the Zesty Nimble V1: Lightweight direct drive extruder</title>
  50.            <link>https://www.thingiverse.com/thing:1843195</link>
  51.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:1843195"><img src="https://cdn.thingiverse.com/renders/59/1a/ab/e8/88/8261735bcedda6139f42aad6323839a1_preview_large.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>The New Nimble V2 family is here. <a rel="ugc nofollow" href="/thing:3924926">Nimble Version 2 family</a><br>
  52. The Nimble V1 is no longer sold.</p>
  53. <p>The Nimble Mock-up file is a blocky version of the Nimble. The positioning of the screws is correct as is the filament and the Drive cable position. This will be the final shape. Overall it is the smallest it has ever been and I think we have reached the minimal practical shape. It is the Right hand shape. Of course in real life the Nimble is ambidextrous, it can be made to me a right handed or a left handed version. But these mock-up files do not allow for that, so we have added a left handed version as well.</p>
  54. <p><strong>The Nimble Extruder</strong><br>
  55. With an installed weight of less than 27 grams on your carriage/effector the Zesty Nimble is smallest and lighest extruder you can buy, it has ample torque and is installable in multiple orientations.</p>
  56. <p>The Nimble is available at: <a rel="ugc nofollow" href="https://zesty.tech">https://zesty.tech</a></p>
  57. <p>You can eliminate the bowden cable and print any material available. It is so small, 2 easily fit on top of a Chimera or Cyclops.</p>
  58. <p>We have all sorts of adapters available for different hot ends and printers. If the right adapter is not there for you, we will design a new one for you. </p>
  59. <p>The Nimble adapter is the basic adapter we use to adapt to the various hot ends. We are adding a lot more adapters. Be aware that the Nimble is still being updated and the adapter can still change.</p>
  60. <p>The Mount block for the Nimble is the idealised shape to lock the Nimble in place around the filament. This is the perfect shape but if it is too complex, it can be simplified. Of course the large round base is just an example of how it can be used. </p>
  61. <p>See it in action:<br>
  62. Printing<br><a rel="ugc nofollow" href="https://www.youtube.com/watch?v=r_dDvlhzBZw">https://www.youtube.com/watch?v=r_dDvlhzBZw</a></p>
  63. <p>Ambidexterity<br><a rel="ugc nofollow" href="https://www.youtube.com/watch?v=EVk5cfnrU6Y">https://www.youtube.com/watch?v=EVk5cfnrU6Y</a></p>
  64. <p>Push force<br><a rel="ugc nofollow" href="https://www.youtube.com/watch?v=VR-2dtpJf_o">https://www.youtube.com/watch?v=VR-2dtpJf_o</a></p></div></div>]]></description>
  65.            <author>ZestyTech</author>
  66.            <pubDate>Sat, 22 Oct 2016 08:51:29 +0100</pubDate>
  67.            <guid>https://www.thingiverse.com/thing:1843195</guid>
  68.            <enclosure url="https://www.thingiverse.com/download:3158958" length="5833367" type="application/sla"/>
  69.        </item>
  70.        <item>
  71.            <title>Zesty Nimble - drive cable clips, reverse bowden clips, berd air tube, etc</title>
  72.            <link>https://www.thingiverse.com/thing:2360297</link>
  73.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:2360297"><img src="https://cdn.thingiverse.com/renders/ec/81/8d/65/f5/d6b812c54e45eef3d299b9983f21870b_preview_large.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>These clips are for running a reverse bowden to your Nimble extruder, there are options that also manage your wiring harness and berd air tubing if you have that.</p></div></div>]]></description>
  74.            <author>ZestyTech</author>
  75.            <pubDate>Fri, 02 Jun 2017 08:45:57 +0100</pubDate>
  76.            <guid>https://www.thingiverse.com/thing:2360297</guid>
  77.            <enclosure url="https://www.thingiverse.com/download:4763759" length="33684" type="application/sla"/>
  78.        </item>
  79.        <item>
  80.            <title>Nimble V1 print head for Creality type.</title>
  81.            <link>https://www.thingiverse.com/thing:3558524</link>
  82.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:3558524"><img src="https://cdn.thingiverse.com/renders/68/e7/88/3d/fb/bcc59952b84279ab6928255e316c88a0_preview_large.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><h4>Nimble family Version 1 is no longer sold, we have announced Version 2.</h4>
  83. <p>For the print head kit for the Nimble Version 2 family, have a look at <a rel="ugc nofollow" href="/thing:3925473">Nimble and Sidewinder V2 mounts for the Creality type print heads</a></p>
  84. <h4>Changelog</h4>
  85. <p>-28 Added Dual fan duct for the Mosquito.<br>
  86. -27 The BL Touch now has a mount that will allow it to be used with the Ducting 5015 Dual Sensor. It places the BL Touch far enough away to clear the duct. Offset in X is 44mm.<br>
  87. -26 Thank to Li, we rebuilt the Dual ducting for the 5015 fans. It now fits better and gives a little more space.<br>
  88. -25 Added a Dual 5015 duct that allows a new induction sensor.<br>
  89. -24 R2 figured out that the Ducting_4010 hits the fan mount in the V6 mount, so I changed the duct.<br>
  90. -23 Added mount for the Chimera/Cyclops+ Aqua hot ends. Also added a 5015 duct for it.<br>
  91. -22 Modified the 5015 ducting to better distribute the air flowing around the nozzle.<br>
  92. -21 In some cases a spacer is needed for the BL Touch, so I added one.<br>
  93. -20 Removed all CR-10Pro parts, as we were notified that the Nimble will not work on a CR-10Pro. The stepper driver cannot handle the speeds required. We are working on a solution.<br>
  94. -19 Modified the induction sensor mounts to also fit on a CR-10Pro. Offset changed by 2.5 mm forwards in Y<br>
  95. -18 Added a modified shroud if you are mounting a Microswiss hotend on a CR10Pro.<br>
  96. -17 Added modified ducts for the Mosquito hotend. Also had to modify the hotend shroud.<br>
  97. -16 Added the duct for a 4020 radial fan. (Thanks, cmcconkle!)<br>
  98. -15 Updated the V6 Shroud for better airflow around the heat sink.<br>
  99. -14 Added a fan duct for two 5015 fans.<br>
  100. -13 Added the Mosquito shroud for on the CR10Pro type x carriage.<br>
  101. -12 Changed the ducting all over. The ducts will work on V6 and V6 Volcano. All the ducts will also work on Ender5. The 5015 ducts will hold the fan with no additional supports needed.<br>
  102. -11 Finally got my hands on a good 5015 fan and have now modified the ducting a bit to fit better.<br>
  103. -10 Created a new 5015 duct for part cooling. This one will fit on the Ender 5 and I think CR-X. Any carriage where the belt connectors sit on the front face.  Thanks Jay<br>
  104. -9 Updated the BL Touch mount. It was too low for the V6 mount. I could have simply change the V6 mount, but that would have meant everybody needed to print a complete new mount, the BL Touch mount is a lot smaller, so I changed that.  Thanks BySeven.<br>
  105. -8 Thanks to Pumpal, found an error in the nut pocket for the sensor mounts. Fixed and updated. Used this moment to also make the nut easier to slide in.<br>
  106. -7 Added the 12 mm induction mount. For the Ezable mini kit<br>
  107. -6 Added a hotend shroud for the Slice Engineering Mosquito hotend. It can be used the standard 25x25 fan that comes with the Mosquito or you can use a 40x40 fan.<br>
  108. -5 Added a Mount Block for the V6 on a CR10Pro carrier. Only the mount block is different. The rest of the parts are identical to the other V6 mount.<br>
  109. -4 That was hard work! Added a mount for the E3D V6. This meant a complete rework of all the ducting models. And that caused a rework of all the other hotend shrouds.<br>
  110. -3 Added Hotend shroud for the CR-10Pro type backing plate. Also added a 5015 brace for on the Pro.<br>
  111. -2 Added two ducting forms, having a spot to attach an endoscope. Also added a fan brace for the 5015 fan.<br>
  112. -1 Changed both ducting parts to give enough space for a 40x40x20 hot end cooling fan. </p>
  113. <h4>Description</h4>
  114. <p>Modular print head to mount a Zesty Nimble on the Creality type print heads. This covers a wide range of printers.<br>
  115. The hot end mount is compatible with both the original hotend and the MicroSwiss hotend. </p>
  116. <p>There are two other versions, for the Sidewinder.<br>
  117. With the drive cable pointing backwards: <a rel="ugc nofollow" href="/thing:3629284">https://www.thingiverse.com/thing:3629284</a><br>
  118. With the drive cable pointing to the left: <a rel="ugc nofollow" href="/thing:3629235">https://www.thingiverse.com/thing:3629235</a></p>
  119. <p>There are two versions of ducting, one for the original fan and one for a 5015 radial fan.</p>
  120. <p>Also included is a mount for the BL Touch and a mount for an induction sensor, like the one mounted on the CR-10Pro.<br>
  121. The offset for the BL-Touch is: X+30.3 Y+2.4<br>
  122. For the induction sensor it is: X+35.2 Y-6.8 </p>
  123. <p>All sensor mounts and ducting is height adjustable. </p>
  124. <p>Printing:<br>
  125. Only the hotend shroud needs to be printed with support. Make sure you switch off the support generation when printing the ducting.<br>
  126. The exit holes in the ducting have little braces to make the printing easier. Remove these before installing it.<br>
  127. All of these parts can be printed using PLA. The temperatures stay low enough not to bother the PLA. </p>
  128. <p>Additional fasteners:<br>
  129. Over and above the fasteners that come with the Nimble or are re-used from the print head, you will need:<br>
  130. 4 x M3 nuts<br>
  131. 3 x M3x10<br>
  132. For the 5015 Fan you will need 1 x M3x25<br>
  133. And depending on which shroud you are using, you will need a few M3x30 long.<br>
  134. For our USA friends, it is easiest to buy a kit like this:<br><a rel="ugc nofollow" href="https://www.amazon.com/iExcell-Metric-DIN912-Stainless-Assortment/dp/B07J44YXV3">M3 fastener kit</a></p>
  135. <p>For the print head kit for the Nimble Version 2 family, have a look at <a rel="ugc nofollow" href="/thing:3925473">Nimble and Sidewinder V2 mounts for the Creality type print heads</a></p>
  136. <p>The STL models are checked and optimised. The parts that need a different orientation to print properly are rotated to the preferred printing position. </p>
  137. <h4>The Nimble Extruder</h4>
  138. <p>With an installed weight of less than 27 grams on your carriage/effector the Zesty Nimble is the smallest and lightest extruder you can buy, it has ample torque and can be mounted in multiple orientations.</p>
  139. <p>The Nimble is available from <a rel="ugc nofollow" href="https://zesty.tech">Zesty Technology.</a></p></div></div>]]></description>
  140.            <author>ZestyTech</author>
  141.            <pubDate>Fri, 12 Apr 2019 10:54:34 +0100</pubDate>
  142.            <guid>https://www.thingiverse.com/thing:3558524</guid>
  143.            <enclosure url="https://www.thingiverse.com/download:7065028" length="297784" type="application/sla"/>
  144.        </item>
  145.        <item>
  146.            <title>Zesty Nimble Gimbal for BLV mgn Cube</title>
  147.            <link>https://www.thingiverse.com/thing:3753756</link>
  148.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:3753756"><img src="https://cdn.thingiverse.com/renders/d7/a5/98/ae/fe/0f746e3101fb98bd7ae054e6224e04b2_preview_large.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>Update: I have added a 2020 profile version of the outer ring. I have not printed it but I have little doubt that it will have issues.</p>
  149. <p>Basic gimbal for the Zesty Nimble. It is designed to mount on the rear 2040 profile. Four 623zz bearings were used. Mount the middle ring with a two 16mm m3 screws mounted against and through the bearings to the nut on the outer ring. Then use two 20mm m3 for the center ring mount. Mount stepper bracket as standard.</p>
  150. <p>Design influenced by Additive Detroit on Youtube.</p>
  151. <p>Pictures are of prototype gimbal.</p></div></div>]]></description>
  152.            <author>neebick</author>
  153.            <pubDate>Thu, 18 Jul 2019 03:21:30 +0100</pubDate>
  154.            <guid>https://www.thingiverse.com/thing:3753756</guid>
  155.            <enclosure url="https://www.thingiverse.com/download:6779993" length="666584" type="application/sla"/>
  156.        </item>
  157.        <item>
  158.            <title>[Updated 2020.02.06] Ender 3 / CR-10 Zesty Nimble V1 E3D V6 5015 Fang Duct with BLTouch / EZABL ...</title>
  159.            <link>https://www.thingiverse.com/thing:3492958</link>
  160.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:3492958"><img src="https://cdn.thingiverse.com/assets/f0/c5/99/0a/39/large_preview_Image1.png"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>No one had a working fang duct setup for the Zesty Nimble, so I made one from Lion4H's fangs. I also added KenNox's 5050 LED mount and mediaman's BLTouch and EZABL mounts. This utilizes the stock E3D V6 fan. I have also included the 2 other untouched parts you need from ZestyTech to assemble this mount.</p>
  161. <p>Note: I do not own an EZABL so I built that version model using a 3D model. Please leave feedback in the comments.</p>
  162. <p>More Ender 3 models at <a rel="ugc nofollow" href="/vampyrex13/collections/my-ender-3-models">https://www.thingiverse.com/vampyrex13/collections/my-ender-3-models</a>.</p>
  163. <h2>Updates</h2>
  164. <p>&bull; 2020.02.06: The ducts without the LED mount have been re-uploaded after discovering my master model got corrupted on TinkerCAD. The file sizes a larger due to the process I had to use to restore them.</p>
  165. <p>&bull; 2019.09.06: Added BLTouch ducts EZABL without the LED mount. Also added a no probe duct with and without the LED mount.</p>
  166. <p>&bull; 2019.06.26: Included the two original ZestyTech files you need.</p>
  167. <p>&bull; 2019.05.02: Fixes to EZABL version (airflow obstruction removed).</p>
  168. <p>&bull; 2019.04.05: Fixes to BLTouch version (small airflow obstruction removed, minor cosmetic adjustments, and probe moved 2mm closer to hotend) and a new EZABL version added.</p>
  169. <h2>Hardware Notes</h2>
  170. <p>&bull; I went with a fairly quiet 24V dual ball bearing fan from <a rel="ugc nofollow" href="https://www.amazon.com/gp/product/B07DQ7F1T7/">https://www.amazon.com/gp/product/B07DQ7F1T7/</a>.</p>
  171. <h2>Printing Notes</h2>
  172. <p>&bull; Just print it in the supplied orientation with supports. Make sure you use a support brim or raft or it may come loose from the bed. If you have issues with printing the LED mount, lower the Support Overhang Angle in Cura to 60.</p>
  173. <h2>Installation Notes</h2>
  174. <p>&bull; Please note the orientation of the heat block in my pictures. It should be facing towards the left so that heater and thermistor wires come out that back.</p>
  175. <p>&bull; Instead of sliding the duct down onto Zesty Nimble mount, I found it easier to gently pull apart the two duct mounting rails so it could be slid over the mount from the front.</p>
  176. <p>&bull; Make sure all your wires (aside from the 5015 fan wires) are behind the duct before mounting it. There is a space to the left of the stock E3D V6 fan for all the wires to run.</p>
  177. <h2>Marlin Firmware Notes</h2>
  178. <p>&bull; For the BLTouch, use the below. Measure after installing in case of printing variations.</p>
  179. <p>X_PROBE_OFFSET_FROM_EXTRUDER -46 (was -49 prior to 2019.04.05 update)<br>
  180. Y_PROBE_OFFSET_FROM_EXTRUDER -5</p>
  181. <p>&bull; I do not own an EZABL, so the below is based off the model position. Please let me know if this is correct.</p>
  182. <p>X_PROBE_OFFSET_FROM_EXTRUDER -51<br>
  183. Y_PROBE_OFFSET_FROM_EXTRUDER -4</p>
  184. <p>&bull;  If using Unified Bed Leveling with a correctly centered 235x235 bed size, use the below setting so that the probe can reach the the back, left, and front edges. The right edge will need to be extrapolated using G29 P3.</p>
  185. <p>MESH_INSET 25</p>
  186. <h2>Buy Me a Coffee?</h2>
  187. <p>Do you like my work? You can buy me a coffee at <a rel="ugc nofollow" href="https://ko-fi.com/vampyrex13">https://ko-fi.com/vampyrex13</a>.</p></div></div>]]></description>
  188.            <author>vampyrex13</author>
  189.            <pubDate>Fri, 15 Mar 2019 04:50:30 +0100</pubDate>
  190.            <guid>https://www.thingiverse.com/thing:3492958</guid>
  191.            <enclosure url="https://www.thingiverse.com/download:6980240" length="1124684" type="application/sla"/>
  192.        </item>
  193.        <item>
  194.            <title>Simple clip</title>
  195.            <link>https://www.thingiverse.com/thing:2372878</link>
  196.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:2372878"><img src="https://cdn.thingiverse.com/renders/f6/e0/c1/6b/c0/c1a6f5b9995e6e46342dd9d472856baa_preview_large.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>Small clip that you can use to hold the Nimble together while installing. This clip makes it a little bit easier. Can be removed after installation as it adds weight to your print head or effector. OK&lt; it is less than a gram, but still.</p>
  197. <p><strong> The Nimble Extruder</strong><br>
  198. With an installed weight of less than 27 grams on your carriage/effector the Zesty Nimble is smallest and lightest extruder you can buy, it has ample torque and can be mounted in multiple orientations.</p>
  199. <p>The Nimble is available from <a rel="ugc nofollow" href="https://zesty.tech">Zesty Technology.</a> </p></div></div>]]></description>
  200.            <author>ZestyTech</author>
  201.            <pubDate>Thu, 08 Jun 2017 11:59:56 +0100</pubDate>
  202.            <guid>https://www.thingiverse.com/thing:2372878</guid>
  203.            <enclosure url="https://www.thingiverse.com/download:3791035" length="489084" type="application/sla"/>
  204.        </item>
  205.        <item>
  206.            <title>Nimble V2 and Sidewinder V2</title>
  207.            <link>https://www.thingiverse.com/thing:3924926</link>
  208.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:3924926"><img src="https://cdn.thingiverse.com/assets/fa/4f/8c/09/8b/large_preview_featured_preview_NimbleV2-email.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>New and improved<br>
  209. The Nimble V2 product line: Lighter, stronger, easier to use, and back in black! (in Pre-Sale)</p>
  210. <p>What did we change? Everything, and nothing. </p>
  211. <p>Everything in the sense that we improved the design, the gear ratio, the weight, and increased common parts. Nothing in the sense of still the lightest, easiest to use and best remote direct drive extruder around.</p>
  212. <p>Improvements:<br>
  213. -Volume down by almost 10%<br>
  214. -Gear ratio reduced to 20:1<br>
  215. -Redesigned easier to use breech<br>
  216. -Unified mounting footprint<br>
  217. -Stronger and stiffer than ever before<br>
  218. -Back in black</p>
  219. <p>The lower gear ratio requires 1/3 fewer steps/mm for the extrusion stepper meaning better suitability for older controllers.</p>
  220. <p>The redesigned breech is easier to operate. And fits in both the Nimble and Sidewinder in the V2 line.<br>
  221. The new Nimble bodies have increased density, increased tensile strength, and nearly 10C increase in heat deflection temperature making it stronger and stiffer and more suited to heated build chambers than ever before. It's also back in black again.</p>
  222. <p>On top of all that the V2 range weighs even less!</p>
  223. <p>These mock-up models can be used to see how well the Nimble V2 family will fit on your printer. You can also use them to design a mount or adapter for your printer. </p>
  224. <p>Of course, we kept the Nimble ambidextrous. This means you can use the same Nimble both left-handed and right-handed. The Sidewinder V2 is only right-handed. It has the same bolt hole pattern as the right-handed Nimble V2. You can design an adapter for the right-handed Nimble and the Sidewinder will fit. Now that is added flexibility!<br>
  225. If you really need a left-handed Sidewinder V2, let us know.</p>
  226. <p>The Nimble and Sidewinder V2 are available from <a rel="ugc nofollow" href="https://zesty.tech">Zesty Technology.</a> </p></div></div>]]></description>
  227.            <author>ZestyTech</author>
  228.            <pubDate>Sat, 19 Oct 2019 13:09:32 +0100</pubDate>
  229.            <guid>https://www.thingiverse.com/thing:3924926</guid>
  230.            <enclosure url="https://www.thingiverse.com/download:7146861" length="90684" type="application/sla"/>
  231.        </item>
  232.        <item>
  233.            <title>Nimble and Sidewinder V2 mounts for the Creality type print heads</title>
  234.            <link>https://www.thingiverse.com/thing:3925473</link>
  235.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:3925473"><img src="https://cdn.thingiverse.com/assets/75/0d/20/ad/e2/large_preview_CR-10_head_overview.png"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>Modular print head to mount a Nimble V2 or Sidewinder V2 on the Creality type print heads. This covers a wide range of printers. The Standard hot end mount is compatible with both the original hot-end and the MicroSwiss hot-end.<br>
  236. In total, the Standard, MicroSwiss, E3D-V6, and Mosquito hot-ends are supported. For the E3D-V6 you can choose to use the standard fan and duct or use a different shroud and install a 40x40 fan. The Mosquito mount can hold the standard fan or a 40x40 fan. </p>
  237. <p>Since the introduction of Version 2 of the Nimble and Sidewinder, they share the mounting points. This means that these mounts are suitable for both the Nimble V2 and the Sidewinder V2.<br>
  238. The Nimble V2 has a drive cable that exits vertically, while in the Sidewinder V2 the drive cable exits horizontally. </p>
  239. <h5>Changelog:</h5>
  240. <ul><li>1 Initial release. </li>
  241. <li>2 Tweaked the BL Touch sensor to give it a little more space with the 5015 duct.</li>
  242. <li>3 Added a mount for the standard Tornado hot-end.</li>
  243. <li>4 Modified the CR-10 standard hot end mount. One nut pocket was off-center.</li>
  244. <li>5 Added a PDF describing the various options.</li>
  245. <li>6 Tweaked the slots in the V2 Ducting 5015, to allow more space for a Volcano hot-end.</li>
  246. <li>7 Added the Dual 5015 duct (You guys like a lot of wind!) Only for the V6 and Mosquito mounts.</li>
  247. <li>7 Modified the Mosquito mount to allow the M3x30 screws supplied with the Nimble V2 to grab the nuts. Also moved the sensor mount to give the ducts more space. Thanks Richard.</li>
  248. </ul><p>You will need various M3 fasteners, depending on which version you need.<br>
  249. For our USA friends, it is easiest to buy a kit like this:<br><a rel="ugc nofollow" href="https://www.amazon.com/iExcell-Metric-DIN912-Stainless-Assortment/dp/B07J44YXV3">M3 fastener kit</a></p>
  250. <p>The STL models are checked and optimised. The parts that need a different orientation to print properly are rotated to the preferred printing position. </p>
  251. <h4>The Nimble Extruder Version 2</h4>
  252. <p>These parts are <strong>ONLY</strong> for the Nimble and Sidewinder Version 2.<br>
  253. With an installed weight of less than 25 grams on your carriage/effector the Zesty Nimble is the smallest and lightest extruder you can buy, it has ample torque and can be mounted in multiple orientations.</p>
  254. <p>The Nimble is available from <a rel="ugc nofollow" href="https://zesty.tech">Zesty Technology.</a></p></div></div>]]></description>
  255.            <author>ZestyTech</author>
  256.            <pubDate>Sat, 19 Oct 2019 17:29:41 +0100</pubDate>
  257.            <guid>https://www.thingiverse.com/thing:3925473</guid>
  258.            <enclosure url="https://www.thingiverse.com/download:7232155" length="663784" type="application/sla"/>
  259.        </item>
  260.        <item>
  261.            <title>NEMA-17 1:4 step-up gearbox for remote direct drive</title>
  262.            <link>https://www.thingiverse.com/thing:4848302</link>
  263.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:4848302"><img src="https://cdn.thingiverse.com/assets/c6/17/5f/08/c4/large_preview_IMG_20210505_160728-cropped.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><h1>Introduction</h1>
  264. <p>Remote direct drive extruders like the Flex3Drive (and its clone the Zesty Nimble) use large reduction gearing at the toolhead side to keep high torque from the extruder hob off the flex shaft. This has a side effect of seriously limiting the speed/acceleration of retraction and Linear Advance/Pressure Advance moves. For me, this pretty much defeated the purpose of switching to direct drive. So, I designed and built this gearbox to bring the net reduction down to 1:10. This has made it possible to do 1 mm retractions in under 50 ms (32 mm/s, 2000 mm/s&sup2; acceleration), and to use a very low smooth_time of 10 ms with Klipper's Pressure Advance, for accurate extrusion at high speed and acceleration.</p>
  265. <p>The gearbox design is modular, consisting of an extender bracket to get the gears to the end of the motor shaft and to allow assembly on the motor in-place, a shaft coupler that engages the planetary carrier with a square drive, the gears themselves including a split ring gear, and spacers which can be used if needed.</p>
  266. <p>The motor end of the extruder's flex drive shaft inserts directly into the sun gear. The square hole in the sun gear is nominally 3.2 by 3.2 mm, and is designed for the flex shaft that ships with the Flex3Drive G5. Before printing and assembling the rest of the gearbox, make sure your shaft fits the sun gear. It should be easy to modify if it doesn't.</p>
  267. <p>There are two versions of the planetary gears drive. One is designed for press fit with 683ZZ bearings for smooth motion and distribution of force across the gear, but requires more hardware for assembly. The other has 2 mm holes in the gears, for use with metal shaft. The version with bearings should run smoother and not develop slop as it wears, but the no-hardware version is nice if you want to test before buying components, and seems viable for long-term use with TPU gears.</p>
  268. <p>I'm using this on an Ender  3 with the 22 mm extruder motor shaft length and D flat cut in the shaft, but installation should be possible on any NEMA 17 motor with a 5 mm shaft diameter, using appropriate spacers and positioning of the coupler.</p>
  269. <h1>Non-printed parts needed for assembly</h1>
  270. <p>Shaft pinch coupler:</p>
  271. <ul><li>1x M3 nut</li>
  272. <li>1x 8mm M3 bolt</li>
  273. </ul><p>Mount to motor:</p>
  274. <ul><li>4x 8mm M3 bolts (possibly longer depending on bracket and spacers)</li>
  275. </ul><p>Main assembly:</p>
  276. <ul><li>4x M3 nuts</li>
  277. <li>4x 20mm M3 bolts (possibly longer if using spacers)</li>
  278. </ul><p>Planetary gear set (only if building the version with bearings):</p>
  279. <ul><li>3x 683ZZ bearings</li>
  280. <li>3x 8mm M3 bolts, button head preferred</li>
  281. <li>3x M3 nuts</li>
  282. <li>3x M3 washers (can be printed if you don't have any)</li>
  283. </ul><h1>Print material</h1>
  284. <p>Gears: PETG or TPU is ideal. If using TPU, it should be a hard variety, and printed with proper wall settings so that the part comes out solid. PLA works but is not recommended; it will be very noisy to operate.</p>
  285. <p>Structural parts: PETG or PLA.</p>
  286. <p>ABS should not be used for any parts unless you have a compatible (non-oil-based) lubricant.</p>
  287. <h1>Lubrication</h1>
  288. <p>Gears should be lubricated before attempting to operate. Any automotive grease is good; red high-temperature STP was what I had on hand. Operate the gears by hand, or with a drill or rotary tool, before installing to ensure they can turn freely.</p>
  289. <h1>Recommended print settings</h1>
  290. <p>Gears: 0.10-0.12 mm layers, 3 walls, recommend reducing to 0.35 mm outer wall to allow a contiguous second wall in teeth. Use 5 walls for the no-bearings version of the planet gears to get a solid part. This is especially important if printing in TPU.</p>
  291. <p>Carrier and coupler: 4 walls, 0.20 mm layers.</p>
  292. <p>Extender: 3 walls, supports, 0.20-0.25 mm layers.</p>
  293. <p>Spacers (if needed): 3 walls, 0.20-0.25 mm layers.</p>
  294. <p>Infill percentage can be low (e.g. 10%) for all parts since the strength comes from walls not infill.</p>
  295. <p>All parts require fairly tight dimensional accuracy, and are designed for 0.1 mm clearances (most places, in both directions, so 0.2 mm total). If your printer is not well tuned, you may need to apply some horizontal offsets to get parts that fit together. I recommend 0.4 mm nozzle/line width (except as mentioned above) but nothing in the design depends on single-line walls, so other sizes close to 0.4 are probably okay to use.</p>
  296. <h1>Planetary gears assembly</h1>
  297. <h2>Bearings version</h2>
  298. <ol><li>Mount bearings to the carrier with washers so that the outer race does not rub on the carrier body when it turns.</li>
  299. <li>Press 2 planet gears just slightly onto their bearings.</li>
  300. <li>Hold sun gear in place.</li>
  301. <li>Fit third planet gear to sun gear and press it onto its bearing enough to hold it.</li>
  302. <li>Press all three planet gears the rest of the way onto their bearings.</li>
  303. </ol><h2>No-bearings version</h2>
  304. <ol><li>Cut 3 10mm shafts from 2mm diameter metal rod (commonly sold for toy car axles, etc.).</li>
  305. <li>Ensure shafts fit in upper and lower carrier holes. If they don't, drill the holes slightly by hand or with a power tool, but be careful not to make a hole all the way through.</li>
  306. <li>Insert one shaft into each hole of lower carrier.</li>
  307. <li>Lubricate the shafts.</li>
  308. <li>Sit 2 planet gears on the end of their shafts.</li>
  309. <li>Hold sun gear in place.</li>
  310. <li>Fit third planet gear to sun gear and place it on the end of its shaft.</li>
  311. <li>Press all three planet gears the rest of the way down.</li>
  312. <li>Clip upper carrier to lower carrier, fitting the shafts to their corresponding holes.</li>
  313. </ol><p>After assembling the planetary gears, lubricate them well.</p>
  314. <h1>Installation</h1>
  315. <ol><li>Press fit 4 M3 nuts into the extender bracket.</li>
  316. <li>Attach the exender bracket to the motor where it's mounted using 4 M3 screws.</li>
  317. <li>Press fit 1 M3 nut into the motor shaft coupler and place an M3 screw through it, but don't tighten yet.</li>
  318. <li>Press the coupler into the square on the planetary gear assembly's carrier.</li>
  319. <li>Slide the coupler onto the motor shaft.</li>
  320. <li>Place half of the ring gear on top of the bracket and hold it in place temporarily with screws.</li>
  321. <li>Line up the planetary gear assembly to the ring gear to determine the height to mount the motor shaft coupler at. This should put the top of the coupler's square output drive roughly 1mm below the top of the extender bracker. (If the shaft extends above that such that it would interfere with the sun gear, you'll need to add spacers above or below the bracket.) Tighten the coupler down in place using a hex key to reach it through the openings in the bracket.</li>
  322. <li>Remove the temporary screws holding half of the ring gear and install the full ring gear, placing a spacer and the part provided with your extruder to hold the flex cable housing on top, and fasten the whole assembly with M3 screws.</li>
  323. <li>After ensuring the gears turn correctly without the extruder connected, press the square end of the flex shaft into the sun gear.</li>
  324. </ol><p>If you need to remove/disassemble the gearbox, it can be separated from the coupler to lift it off by applying pressure to the carrier from below, or using needle nosed pliers to grab the carrier and pull it up. Pulling by the gears is not recommended and will probably make the assembly fall apart.</p>
  325. <h1>Videos</h1>
  326. <div><iframe src="https://player.vimeo.com/video/545688442?badge=0&amp;autopause=0&amp;player_id=0&amp;app_id=58479" frameborder="0" allowfullscreen="allowfullscreen" title="Gearbox printing PLA"></iframe></div>
  327.  
  328. <div><iframe src="https://player.vimeo.com/video/545546879?badge=0&amp;autopause=0&amp;player_id=0&amp;app_id=58479" frameborder="0" allowfullscreen="allowfullscreen" title="TPU gears no clatter"></iframe></div>
  329.  
  330. <div><iframe src="https://player.vimeo.com/video/545637169?badge=0&amp;autopause=0&amp;player_id=0&amp;app_id=58479" frameborder="0" allowfullscreen="allowfullscreen" title="Gearbox trial with rotary tool"></iframe></div></div></div>]]></description>
  331.            <author>dalia5</author>
  332.            <pubDate>Thu, 06 May 2021 01:58:15 +0100</pubDate>
  333.            <guid>https://www.thingiverse.com/thing:4848302</guid>
  334.            <enclosure url="https://www.thingiverse.com/download:9534981" length="316406" type="application/sla"/>
  335.        </item>
  336.        <item>
  337.            <title>Rostock Max V2 Nimble Mount</title>
  338.            <link>https://www.thingiverse.com/thing:2365855</link>
  339.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:2365855"><img src="https://cdn.thingiverse.com/renders/05/9d/c7/f3/8a/c0602b64a66d1e5e7128305c19cd4e9d_preview_large.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>Nimble mount for a Rostock Max V2 by SeeMeCNC with the PEEK Hotend.</p>
  340. <p>See <a rel="ugc nofollow" href="/thing:2184991">https://www.thingiverse.com/thing:2184991</a> for firmware settings.</p>
  341. <p>Rotate and print with supports.  Or, if you really want, skip the supports.<br>
  342. 6/6/17 -- Reworked a bit, removed the thin wall.  Id still like to add some material below the worm gear for the nimble, but maybe later.   Ive also included the entire hotend (before the nimble stuff) as an iges, so people can make stuff with it if needed.   SeeMeCNC has some of the files available (the effector and nylon ball ends), but most of the specific ones are not, ie the PEEK Hotend.</p>
  343. <p>For this, youll need to remove the PTC fitting on the top, pull the hotend apart, and replace the PTFE liner with a longer one, which will be cut off after the top is installed.<br>
  344. Added some step by step pics...<br>
  345. Rip the sucker open, remove the old PTFE liner, add new long piece, thread everything on, put the orange piece on, add the nut, add the yellow piece, mount it to the effector, and slice the PTFE tube off.<br>
  346. Done.<br>
  347. Also, add the captive nuts for mounting the nimble.<br>
  348. Your hotend may separate on the bottom of the PEEK portion, thats fine.  Thats  where mine did the first 5 times i opened it up.</p></div></div>]]></description>
  349.            <author>Turpinator</author>
  350.            <pubDate>Mon, 05 Jun 2017 03:42:36 +0100</pubDate>
  351.            <guid>https://www.thingiverse.com/thing:2365855</guid>
  352.            <enclosure url="https://www.thingiverse.com/download:3786368" length="1699884" type="application/sla"/>
  353.        </item>
  354.        <item>
  355.            <title>Nimble V1 Direct drive solution for Chimera/Hypercube Evo</title>
  356.            <link>https://www.thingiverse.com/thing:2617598</link>
  357.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:2617598"><img src="https://cdn.thingiverse.com/renders/af/d4/28/f2/4f/41cca3c78b774cd7c7ae6d5acd117a4a_preview_large.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>Double Direct Drive solution for the Hypercube Evo using a Nimble C/C and a Chimera/Cyclops.<br>
  358. Now you can use the Chimera/Cyclops with a direct drive without the usual weight penalties. This makes for a light and smooth working print head on your HEVO.</p>
  359. <p>The Chimera and the Nimble C/C are bolted together clamping the mount. The mount has two supporting plates that hold the Chimera steady. </p>
  360. <p>Edit: Added Version 2 mount as well. This one has a rails system on the side for the BL Touch mount that I used in the Single mount. The rails system makes it possible to us the BL Touch for the E3D V6 and for the Volcano hot end. Also included are the longer air ducts underneath to compensate for the 9 mm longer hot end. </p>
  361. <p>Edit 2: Added a new Upper fan shroud to fit with the new Dual Nimble adapter. It is called Upper fan shroud V2</p>
  362. <p>Edit 3: Thanks to work done by Nimble users, we have implemented some changes. Mainly modified the air channels and made it all a little more sturdy or fit better. </p>
  363. <p>Edit 4: This work has been used in the new Chimera/Cyclops + mount. The difference is 2 mm. The new Chimera/Cyclops + have a filament path that is 2 mm more, center to center. The CC+ models have this extra 2 mm space. </p>
  364. <p>Edit 4: M12 Proximity sensor mount added.</p>
  365. <p>Edit 5: Added Lower air guide for the Cyclops</p>
  366. <p>The STL models are checked and optimised. The parts that need a different orientation to print properly are rotated to the preferred printing position. </p>
  367. <h4>The Nimble Extruder</h4>
  368. <p>With an installed weight of less than 27 grams on your carriage/effector the Zesty Nimble is smallest and lightest extruder you can buy, it has ample torque and can be mounted in multiple orientations.</p>
  369. <p>The Nimble is available from <a rel="ugc nofollow" href="https://zesty.tech">Zesty Technology.</a> </p></div></div>]]></description>
  370.            <author>ZestyTech</author>
  371.            <pubDate>Tue, 31 Oct 2017 16:27:40 +0100</pubDate>
  372.            <guid>https://www.thingiverse.com/thing:2617598</guid>
  373.            <enclosure url="https://www.thingiverse.com/download:4774921" length="1013284" type="application/sla"/>
  374.        </item>
  375.        <item>
  376.            <title>Nimble V1 and V6 mount for Creality CR-10</title>
  377.            <link>https://www.thingiverse.com/thing:2554334</link>
  378.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:2554334"><img src="https://cdn.thingiverse.com/renders/9e/90/eb/93/ce/e75816dcc2409a81a2a1650df5388f98_preview_large.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>This is an older solution.<br>
  379. Check out this thing for a better, more complete kit: <a rel="ugc nofollow" href="/thing:3558524">Nimble V1 print head for Creality type.</a></p>
  380. <p>For the print head kit for the Nimble Version 2 family, have a look at <a rel="ugc nofollow" href="/thing:3925473">Nimble and Sidewinder V2 mounts for the Creality type print heads</a></p>
  381. <p>Complex mount to mount the Nimble extruder and a E3D V6 hot end on the Creality CR-10.<br>
  382. This is based on the work done by Chito on this thing: <a rel="ugc nofollow" href="/thing:2494642">https://www.thingiverse.com/thing:2494642</a></p>
  383. <p>There are various fan mounts, including a mount to use the Berd-Air system. There are two sensor options, a BL Touch and a Ezable. If you need more sensors, drop me a line. </p>
  384. <p>The mount is attached to the carriage plate using the 2 mount points and a screw that slides into the threaded hole in the plate. The screw needed is an M3x6 and can be tightened through the mount body.<br>
  385. If you have any issues or comments on this thing, feel free to contact me. </p>
  386. <p>There is also a Nimble Sidewinder version available: <a rel="ugc nofollow" href="/thing:2663204">https://www.thingiverse.com/thing:2663204</a></p>
  387. <p>Edit 3: Added a BL Touch mount for use on the Volcano hot end, as it is 8 mm taller.</p>
  388. <p>Edit2: Careful, the Fang style cooler probably will not fit. It will hit the cross bar at the top.</p>
  389. <p>Edit: What is this fascination with fang style coolers in the CR-10 community?<br>
  390. Anyway, you asked, we promised and as promised, delivered. Only caveat here, I have not printed this thing out, so test at your own "risk"<br>
  391. I have added a fang style cooler and a special V6 clamp and it now also holds the 40x40 fan for the V6 and the ducting to guide it to the heat-sink. I thought it would be better to split the forces between the fang and the clamp.<br>
  392. To mount, install the Mount, Slide the Fang down into the grooves on the side and tighten the bolts through the Fang lightly. Then mount the V6, Clamp and the Nimble. Adjust the height of the Fang and tighten the 2 bolts. Mount the fan on top and mount the Hot end fan last. There is a little loop to tie-wrap the fan cable to the Clamp. Check the Fang height again and you are done. </p>
  393. <p>The STL models are checked and optimised. The parts that need a different orientation to print properly are rotated to the preferred printing position. </p>
  394. <h4>The Nimble Extruder</h4>
  395. <p>With an installed weight of less than 27 grams on your carriage/effector the Zesty Nimble is smallest and lightest extruder you can buy, it has ample torque and can be mounted in multiple orientations.</p>
  396. <p>The Nimble is available from <a rel="ugc nofollow" href="https://zesty.tech">Zesty Technology.</a> </p></div></div>]]></description>
  397.            <author>ZestyTech</author>
  398.            <pubDate>Wed, 27 Sep 2017 07:23:10 +0100</pubDate>
  399.            <guid>https://www.thingiverse.com/thing:2554334</guid>
  400.            <enclosure url="https://www.thingiverse.com/download:5283884" length="297284" type="application/sla"/>
  401.        </item>
  402.        <item>
  403.            <title>HEVO Mount for the Nimble V1 and a V6</title>
  404.            <link>https://www.thingiverse.com/thing:2585290</link>
  405.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:2585290"><img src="https://cdn.thingiverse.com/renders/5d/3d/63/48/7c/7edb5beba9ba97d17237226dccd4d3e5_preview_large.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>The New Nimble V2 family is here. <a rel="ugc nofollow" href="/thing:3924926">Nimble Version 2 family</a><br>
  406. The Nimble V1 is no longer sold.<br>
  407. There is a V2 mount available for the HEVO. <a rel="ugc nofollow" href="/thing:3953512">Nimble V2 mount kit for CoreXY</a></p>
  408. <p>An Hypercube Evo mount that combines a E3D V6 and the Zesty Nimble into a compact direct drive solution for the HEVO.</p>
  409. <p>It uses the standard blower and duct to cool the printed part, and the standard fan for the V6.</p>
  410. <p>The mount is attached to the X carriage the standard way, with 4 dowel pins and the insert.<br>
  411. The clamp uses 2x M3x25 screws and nuts to clamp the V6. The Nimble uses the standard supplied screws and the BT Touch bracket uses a M3x12 mm screw and nut to attach to the main mount.<br>
  412. For the offset of the BL Touch, looking at the nozzle from the front, the BL Touch is 25.6 mm to the left and 18.8 mm back.</p>
  413. <p>Edit: A mount for the standard induction sensor is now available as well.</p>
  414. <p>Edit 2: It seems I needed to make more space for the optical sensors. Thanks Bartolomeus! I have added some space there. That is the only change for V1.1</p>
  415. <p>Edit 3: Added a IR sensor mount for the DC42 differential IR sensor board. It is a bit of a flat block, but should print fine. I added a stiffening rib to make it a little less floppy.<br>
  416. Also added a plain shape for a DIY sensor mount, so you can design your own. </p>
  417. <p>The BL Touch mount has a sliding rail system to allow for fine tuning up and down. The bracket CAD file can be used to modify the bracket to fit any other sensor. If you have a specific sensor you want to mount, just let me know in the comments and I will add it. </p>
  418. <p>Edit 4: Added a main mount that is changed in the following ways: The BL Touch is mounted on the other side, the original position took too much X space. Also, the mount is no longer fixed with pins and inserts, but simple bolts going through and through. Meaning you will need to use a carriage that has space for nuts on the inside. </p>
  419. <p>Edit 5: Added a mount that has a captive M3 nut in the base, instead of the inserts. For the rest no changes.</p>
  420. <p>Edit 6: Added a main mount for the Nimble Sidewinder V1. New mount and new V6 Clamp. But beware this is only for V1. For the V1.1 (most of you have V1.1) have a look at this thing: <a rel="ugc nofollow" href="/thing:3082806">https://www.thingiverse.com/thing:3082806</a></p>
  421. <p>As always, any comments, suggestions and such are welcome.</p>
  422. <p>The STL models are checked and optimised. The parts that need a different orientation to print properly are rotated to the preferred printing position. </p>
  423. <h4>The Nimble Extruder</h4>
  424. <p>With an installed weight of less than 27 grams on your carriage/effector the Zesty Nimble is smallest and lightest extruder you can buy, it has ample torque and can be mounted in multiple orientations.</p>
  425. <p>The Nimble is available from <a rel="ugc nofollow" href="https://zesty.tech">Zesty Technology.</a> </p></div></div>]]></description>
  426.            <author>ZestyTech</author>
  427.            <pubDate>Sat, 14 Oct 2017 07:18:12 +0100</pubDate>
  428.            <guid>https://www.thingiverse.com/thing:2585290</guid>
  429.            <enclosure url="https://www.thingiverse.com/download:4310932" length="617584" type="application/sla"/>
  430.        </item>
  431.        <item>
  432.            <title>Hypercube Evolution Insulated Enclosure</title>
  433.            <link>https://www.thingiverse.com/thing:2988070</link>
  434.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:2988070"><img src="https://cdn.thingiverse.com/assets/e9/6f/a4/99/d0/large_preview_IMG_20191027_163347.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>My design of a insulated enclosure for a standard Hypercube Evolution 3D Printer with an build volume of 300x300x300mm.<br>
  435. In my Hypercube i've included an extra space for the electronics in the bottom with 100mm extra heigth (Stand extrusion length 600mm).</p>
  436. <p>3D Printed parts:<br>
  437. 32 x Distance 10mm (for left and right enclosure plates)<br>
  438. 13 x Distance 25mm (for rear enclosure plate)<br>
  439. 4 x Distance hinge (for mounting the hinges to the front plate)<br>
  440. 2 x Door handle<br>
  441. 2 x Magnet holder</p>
  442. <p>Parts what you need:</p>
  443. <ul><li>4 x Multi hinge for 30x30mm extrusion (<a rel="ugc nofollow" href="https://www.ebay.de/itm/Scharnier-Kombischarnier-Kunststoff-30-30-nicht-aushangbar-48-x-59-mm-schwarz/251637007543?hash=item3a96bc04b7:g:HxkAAOSwVFlUCOz7">https://www.ebay.de/itm/Scharnier-Kombischarnier-Kunststoff-30-30-nicht-aushangbar-48-x-59-mm-schwarz/251637007543?hash=item3a96bc04b7:g:HxkAAOSwVFlUCOz7</a>)</li>
  444. <li>4 x Magnet 12x8x2mm</li>
  445. <li>Insulating mat 10mm thickness (<a rel="ugc nofollow" href="https://www.amazon.de/D%C3%A4mmschaummatte-selbstklebend-verschiedenen-Gr%C3%B6%C3%9Fen-1000x500x10mm/dp/B011L30X6K/ref=sr_1_17?ie=UTF8&amp;qid=1531299576&amp;sr=8-17&amp;keywords=d%C3%A4mmschaummatte">https://www.amazon.de/D%C3%A4mmschaummatte-selbstklebend-verschiedenen-Gr%C3%B6%C3%9Fen-1000x500x10mm/dp/B011L30X6K/ref=sr_1_17?ie=UTF8&amp;qid=1531299576&amp;sr=8-17&amp;keywords=d%C3%A4mmschaummatte</a>)</li>
  446. <li>M4 Screws</li>
  447. <li>M6 Screws</li>
  448. <li>M4 Nuts for 30x30 extrusion</li>
  449. <li>M6 Nuts for 30x30 extrusion</li>
  450. </ul><p>Enclosure plates:<br>
  451. I've used 3mm Alu DiBond plates with a white surface, the front door is made of 4mm Plexiglas.<br>
  452. I've integrated a power switch (Terminal mounting diameter of 28,5x21,5mm) and two switches (Bore diameter 6mm) for switch on/off the lighting and some fans.<br>
  453. Dimensional drawings can be found in the file area in the "Enclosure_cut.pdf", for milling I've also uploaded all frame parts as a .dxf file.</p>
  454. <p>Chamber heater:<br>
  455. Goal of this project was to get a heated chamber for my HEVO to print ABS, ASA, etc. without any warping.<br>
  456. Maximum chamber temperature goal was 70&deg;C.<br>
  457. To heat up the chamber I've integrated 2 ptc heater in the bottom plate of the enclosure: <a rel="ugc nofollow" href="https://www.amazon.de/gp/product/B07BK1VQTP/ref=ppx_yo_dt_b_asin_title_o03_s00?ie=UTF8&amp;psc=1">https://www.amazon.de/gp/product/B07BK1VQTP/ref=ppx_yo_dt_b_asin_title_o03_s00?ie=UTF8&amp;psc=1</a><br>
  458. The ptc heater are controlled in a combination of a seperated temperature controller and a heater output of the Duet mainboard. The seperated temperature controller is used to limit the PTC heater temperature to 100&deg;C and the heater output of the Duet is used to control the chamber temperature.<br>
  459. Both controller outputs have MosFet's connected to switch the heater power: <a rel="ugc nofollow" href="https://www.amazon.de/gp/product/B07L5577CD/ref=ppx_yo_dt_b_asin_title_o02_s00?ie=UTF8&amp;psc=1">https://www.amazon.de/gp/product/B07L5577CD/ref=ppx_yo_dt_b_asin_title_o02_s00?ie=UTF8&amp;psc=1</a><br>
  460. To temperature sensors are required, one which is integrated in one of the ptc heaters and is connected to the seperated heater controller and one to measure the chamber temperature (placed in height of the print head) which is connected to the Duet.<br>
  461. My experience has shown that the standard air cooling for the E3D V6 is not working so I've upgraded my E3D V6 with a water cooled cold end (Selfmade).</p>
  462. <p>Updates:<br>
  463. 2018-07-11</p>
  464. <ul><li>Updated distances that they will fit into the 3030 extrusion together with the nuts. </li>
  465. <li>Uploaded a new magnet holder type for easier fixing the magnets inside, just put the magnets together with a usable glue for your printed material into the printed magnet holder.</li>
  466. <li>Uploaded .DXF files for the enclosure panels made of 3mm Alu DiBond</li>
  467. <li>Uploaded .DXF files for front door and magnetic steel plate mounted at the front door</li>
  468. <li>Uploaded .PDF dimension files</li>
  469. </ul><p>2018-07-19<br>
  470. -Added additional cutout in front panel with 45x45mm for Omron temperature controller for build volume heating</p>
  471. <p>2019-10-27<br>
  472. Updated design with a top cover which is also made of 3mm Alu Dibond with an integrated filament sensor and exhaust fans in the back.<br>
  473. For the top cover 5 aditional 25mm and 10 aditional 10mm distances are needed!<br>
  474. For the front door you also need 2 aditional hinge distances and 2 aditional hinges! Also a aditional door sheet and a door handle is needed!<br>
  475. The filament sensor on the top of the cover is made to integrate the Duet laser filament monitor. To route in the filament you need 2 M5 4mm fittings for example from SMC.<br>
  476. For the exhaust fans there can be used fans with mounting hole diameters of 82,5x82,5mm.<br>
  477. The aditional 12mm hole in the cover backpanel is used for a mounting fitting (SMC KQE04-00) to route in the air pressure for the component cooling (Berd Air).<br>
  478. If you are using a water cooling you may also need 2 more 12mm holes to integrate the same fittings which are used for the component cooling, one for water IN and one for water OUT.<br>
  479. Design for a integrated HEPA filter actually outstanding!</p></div></div>]]></description>
  480.            <author>Wayne91</author>
  481.            <pubDate>Thu, 05 Jul 2018 06:26:56 +0100</pubDate>
  482.            <guid>https://www.thingiverse.com/thing:2988070</guid>
  483.            <enclosure url="https://www.thingiverse.com/download:7180731" length="25729" type="application/pdf"/>
  484.        </item>
  485.        <item>
  486.            <title>Anycubic I3 Mega Zesty Nimble/SKR1.3/E3D V6 Conversion</title>
  487.            <link>https://www.thingiverse.com/thing:3893796</link>
  488.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:3893796"><img src="https://cdn.thingiverse.com/assets/aa/68/fd/9b/47/large_preview_photo_2019-10-03_09-03-10.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>Hey guys!</p>
  489. <p>This is pretty much my biggest upload. </p>
  490. <p>In this post, I will be doing my best to detail how I managed to upgrade the Anycubic I3 Mega to include The Zesty Nimble (a remote direct drive extruder), the E3D V6 all-metal hot-end, two 4010 blower fans, the 32 bit SKR1.3, 5 TMC 2208 Stepper Drivers, and the TFT 35 V2.0 Touchscreen.  </p>
  491. <p>The benefits are amazing:<br>
  492. The printer is relatively silent<br>
  493. Print speeds are drastically faster and more precise<br>
  494. More marlin features can be enabled, giving more control over the printer with no chance of stalling or overworking the processor<br>
  495. More control is given over SD printing with a higher functioning touch screen<br>
  496. Z-height is improved with a smaller carriage<br>
  497. Rigidity is improved with a shorter hotend<br>
  498. Cooling is greatly enhanced, making overhangs easier/safer<br>
  499. Flexible filament printing is easily accomplished</p>
  500. <p>Purchased Items:<br>
  501. SKR 1.3 Mainboard<br>
  502. TFT35 V2.0<br>
  503. 5 TMC 2208 V3.0 Stepper Drivers<br>
  504. E3D V6 hotend (direct drive package)<br>
  505. Zesty Nimble (95cm cable)<br>
  506. Winsinn 4010 Blower Fans with Air Guides<br>
  507. Assorted test leads (for extending wires)<br>
  508. Heat shrink<br>
  509. Wire Strippers<br>
  510. Assorted M3 nut and bolt set (varying lengths)<br>
  511. Drill<br>
  512. Stepper bit (through 11/16" dia)<br>
  513. 3mm drill bit</p>
  514. <p>Printed Items:<br>
  515. V6 to Nimble Adapter<br>
  516. Extruder Adapter<br>
  517. Trigorilla to SKR Adapter</p>
  518. <p>So, I pretty much did this build for my own printing abilities with the potential side goal of making this an actual Thing here, so some information may be hard to follow. </p>
  519. <p>Reference all photos to make sure you properly understand what's been accomplished, and if you can't make sense, DM me or post a comment.</p>
  520. <p>Steps: </p>
  521. <ol><li>Make sure you have all the purchased items.</li>
  522. <li>Print all printed items in as high a temperature plastic as you can</li>
  523. <li>Mount the SKR board on the Trigorilla to SKR Adapter using 4 screws and nuts </li>
  524. <li>Assemble the motor, spindle, and drive cable to the Extruder Adapter</li>
  525. <li>Place TMC2208 drivers into the SKR board, making sure of the orientation and ensuring jumper placement to enable UART</li>
  526. <li>Change board voltage jumper to 5v and flash the firmware from downloads, then change the jumper back (Note: You will need atom to do this. Google search/youtube how to flash<br>
  527. -------This completes the basic setup of the electronics and major new components...</li>
  528. <li>Remove the existing hot end, hotend metal shroud, temp sensor, and fan, noting all connections</li>
  529. <li>Using the stepper and drill, drill the mounting hole for the old stepper until the hole is 11/16" dia</li>
  530. <li>Mockup the mount of the nimble drive on the top plate of the carriage as in the photos and drill two holes through the nimble bolt holes and through the metal plate so that the two match</li>
  531. <li>Assemble the E3D v6 (see E3D for proper assy) and mount it to the carriage using supplied nimble hardware and the V6 to Nimble Adapter. (Note: make sure to test fit before tightening, and ensure even tightening to prevent damage or inducing angle in the hotend alignment) Feed all wires through grating and strip/ heat shrink wires as needed from photos</li>
  532. <li>Take a 4010 blower, put an air guide on it and place it on the inside of the metal hotend shroud and align it to roughly where it would blow air at the nozzle tip when mounted</li>
  533. <li>Using the drill and 3mm bit, gently park the bottom two holes of the fan, then drill the housing out and "wobble" the drill bit up and down to make an ovular slot allowing for adjustment later, if needed. </li>
  534. <li>Once repeated for the left and right sides of the shroud, go ahead and mount the fans using the 3mm bolts. </li>
  535. <li>Cut and strip the leads coming off both fans, twist them together, and then twist and heat-shrink them to the leads of the stock fan connector. (Note: You'll need to cut and strip the stock fan connector's leads as well)</li>
  536. <li>Go ahead and install the flex drive of the nimble to the extruder motor and the top of the nimble direct-drive and secure using the supplied hardware<br>
  537. -----This completes all of the mechanical setup necessary to get the machine running. TFT35 will come later on.</li>
  538. <li>Carefully turn the machine on its side and remove the bottom cover. </li>
  539. <li>Remove the trigorilla board and MAKE NOTE OF EVERY CONNECTION (Note: The wiring of the I3 Mega uses a lot of similarly colored wires and a few misc shared bundles)</li>
  540. <li>Using the photographs to the best of your abilities (also commenting uncertainties to me), transfer all trigorilla wires to the new board. Some wires will need extending and at least one harness cable will need to be partially jumpered, but this is a working setup. Please disregard all bltouch wiring. (NOTE: I made a mistake when installing my main power connections and got the polarity reversed, so red will be black and black will be red for you, but the board is reverse polarity protected, so no major worries)</li>
  541. <li>Making sure of all connections, route the main power from the PSU to the board and power up the machine. </li>
  542. <li>Using the supplied USB cable, connect to the printer and check temperatures and end-stops (m119 while holding down the end stops). Make all necessary adjustments or corrections and consider gluing the leads in place so that they don't wiggle out over time. </li>
  543. <li>Once verified as working, disconnect from the printer, turn off the power supply, and gently place the board to the side</li>
  544. <li>Remove the stock LCD touchscreen by unbolting it and peeling it out of its housing</li>
  545. <li>Attach the data cable supplied to the TFT35 and connect the other end to the board after running the wire through the opening in the front of the printer where the old screen used to be</li>
  546. <li>Mount the screen temporarily with adhesive, or in my case, by aligning it over the old opening and using the drill and 3mm bit to make two holes in the metal case for long hardware to be used to clamp it down</li>
  547. <li>Ensure the connection is proper and not reversed by powering up the unit and waiting for it to connect. (Note: This usually takes a few seconds, and if the connection is reversed, the screen won't turn on)</li>
  548. <li>Bolt the plate back on to the bottom of the printer and flip it back over</li>
  549. <li>Fully calibrate the printer... PID tune the bed, reset the gantry height using the screws on the Z-axis, relevel the bed with the four corners, and double-check all connections and hardware locations.</li>
  550. <li>Print and test, consider using Cura and my supplied profile.</li>
  551. <li>Consider liking and commenting for the effort and making a Paypal donation to offset costs and figuring everything out.</li>
  552. </ol><p>paypal.me/jbrow532</p>
  553. <p>I genuinely hope this helps transform this platform for you all and that it at least inspires those who are maybe unsure of their machine to question what makes it work and what more it could do!</p>
  554. <p>Thanks, everybody! Enjoy!</p></div></div>]]></description>
  555.            <author>Jbrow532</author>
  556.            <pubDate>Thu, 03 Oct 2019 13:23:36 +0100</pubDate>
  557.            <guid>https://www.thingiverse.com/thing:3893796</guid>
  558.            <enclosure url="https://www.thingiverse.com/download:7082577" length="585408" type="application/sla"/>
  559.        </item>
  560.        <item>
  561.            <title>Nimble V1 adapter for Smart Effector </title>
  562.            <link>https://www.thingiverse.com/thing:2453322</link>
  563.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:2453322"><img src="https://cdn.thingiverse.com/renders/1b/5d/b1/a9/fe/3eb55579af2b616739783cdb906138aa_preview_large.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>This adapter is specifically to mount the Nimble on the new PCB effector that Escher3D is developing with Think3dPrint3d. It uses a new hot end mount that is developed by E3D.<br>
  564. Have a look at the new effector [here.]<br>
  565. (<a rel="ugc nofollow" href="https://duet3d.com/wiki/Smart_effector_and_carriage_adapters_for_delta_printer">https://duet3d.com/wiki/Smart_effector_and_carriage_adapters_for_delta_printer</a>)</p>
  566. <p>Simply bolt the adapter to the hot end mount and bolt the Nimble to the adapter.</p>
  567. <p>In case your printer is in pieces, or you want perfect precision, you can also get this adapter via <a rel="ugc nofollow" href="http://shpws.me/OPJV">Shapeways.</a></p>
  568. <h4>Edit 1:</h4>
  569. <p>Added Version 2 to the models. The method of attaching the Hot end to the PCB effector has changed, so the mounting method of the adapter needs to change. It is now done with 6.6 mm standoffs. The adapter has 3 holes for M2.5 and the PCB has 3 2.9 mm holes.<br>
  570. The adapter fits on top of the hot end and has a 5 mm deep hole in the bottom for the PTFE tube.<br>
  571. This way you clamp the PTFE tube into the hot end when you bolt the adapter down.<br>
  572. Alternate model has 3 integrated legs to make it easier to mount. Will be a bit more difficult to print, though.</p>
  573. <h4>Edit 2:</h4>
  574. <p>Added a little pipe holder for use with a Berd-Air like part cooling system.<br>
  575. It is slightly off center to allow the LED in the corner to still shed some light on the printed parts. It uses the Magnetic ball bolts to clamp it to the PCB and has a little rest for the tubing. You can use a tie-wrap to clamp the tubing to the rest.   </p>
  576. <h4>Edit 3:</h4>
  577. <p>The standoff of 6.6 mm was not enough, needed to be 7.6 mm.<br>
  578. So changed the files to reflect this and you now need version V2.1 is you want the integrated legs.</p>
  579. <h4>Edit 4:</h4>
  580. <p>Added version V2.2. The only difference is that the leg closest to the 6 wire black plug is lowered to be below the latch or clip of the plug. Thus making it easier to unlatch and less prone to breaking. For now only the STL as the real fix (turn the plug around) is easy to implement and will be probably changed in future versions of the Smart Effector.</p>
  581. <h4>Edit 5:</h4>
  582. <p>Added version V2.4. I followed DJDemonD's suggestion and added a 12 sided hole in the bottom to lock the hot end mounting nut in place.  Here is DJ's mount: <a rel="ugc nofollow" href="/thing:2740387">https://www.thingiverse.com/thing:2740387</a><br>
  583. Also added a split version, with Top and Bottom half, so it can be printed and then glued together. You will need to add a little support under one of the bolt holes.<br>
  584. I didn't the Step files for that, as it is too easy to make that yourself. </p>
  585. <h4>Edit 5:</h4>
  586. <p>Firebug alerted me to the fact that E3D now supply a plastic nut that is 17 mm wide across the flats, so I added a new Bottom Part and complete mount, to incorporate that change, </p>
  587. <h3>The Nimble Extruder</h3>
  588. <p>With an installed weight of less than 27 grams on your carriage/effector the Zesty Nimble is smallest and lightest extruder you can buy, it has ample torque and can be mounted in multiple orientations.</p>
  589. <p>The Nimble is available from <a rel="ugc nofollow" href="https://zesty.tech">Zesty Technology.</a> </p></div></div>]]></description>
  590.            <author>ZestyTech</author>
  591.            <pubDate>Wed, 26 Jul 2017 12:57:39 +0100</pubDate>
  592.            <guid>https://www.thingiverse.com/thing:2453322</guid>
  593.            <enclosure url="https://www.thingiverse.com/download:4711293" length="924784" type="application/sla"/>
  594.        </item>
  595.        <item>
  596.            <title>NEMA 17 Multiplier - Mount</title>
  597.            <link>https://www.thingiverse.com/thing:2380353</link>
  598.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:2380353"><img src="https://cdn.thingiverse.com/renders/ec/c8/4d/5c/e5/b786ca63a982ce2257336088aad17f94_preview_large.JPG"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>Experimenting with a 1:3 stepper multiplier for my home made flex drive... I think this could be the solution for the limitations we put on our steppers while using the high gear ratios for flex drive systems...</p>
  599. <p>This is a work in progress!</p>
  600. <p><a rel="ugc nofollow" href="https://youtu.be/OVoQS61h9xQ">https://youtu.be/OVoQS61h9xQ</a></p>
  601. <p>60T Pulley:<br><a rel="ugc nofollow" href="https://www.amazon.com/gp/product/B06WP6SX4W/ref=oh_aui_detailpage_o00_s00?ie=UTF8&amp;psc=1">https://www.amazon.com/gp/product/B06WP6SX4W/ref=oh_aui_detailpage_o00_s00?ie=UTF8&amp;psc=1</a></p>
  602. <p>20T Pulley:<br><a rel="ugc nofollow" href="https://www.amazon.com/dp/B01IMR6OR0/ref=cm_sw_r_cp_api_wmAuzbG0NGNHZ">https://www.amazon.com/dp/B01IMR6OR0/ref=cm_sw_r_cp_api_wmAuzbG0NGNHZ</a></p>
  603. <p>75T Belt (150mm)<br><a rel="ugc nofollow" href="https://www.amazon.com/gp/product/B014QJQMJ8/ref=oh_aui_detailpage_o00_s00?ie=UTF8&amp;psc=1">https://www.amazon.com/gp/product/B014QJQMJ8/ref=oh_aui_detailpage_o00_s00?ie=UTF8&amp;psc=1</a></p>
  604. <p>Coupler:<br><a rel="ugc nofollow" href="https://www.amazon.com/gp/product/B01913RU1S/ref=oh_aui_detailpage_o08_s00?ie=UTF8&amp;psc=1">https://www.amazon.com/gp/product/B01913RU1S/ref=oh_aui_detailpage_o08_s00?ie=UTF8&amp;psc=1</a></p>
  605. <p>Bearing (2 for each multiplier):<br><a rel="ugc nofollow" href="https://www.amazon.com/gp/product/B00Y5W3JYS/ref=od_aui_detailpages00?ie=UTF8&amp;psc=1">https://www.amazon.com/gp/product/B00Y5W3JYS/ref=od_aui_detailpages00?ie=UTF8&amp;psc=1</a></p>
  606. <p>5mm Rod:<br><a rel="ugc nofollow" href="https://www.amazon.com/gp/product/B01MTKNWZB/ref=oh_aui_detailpage_o06_s01?ie=UTF8&amp;psc=1">https://www.amazon.com/gp/product/B01MTKNWZB/ref=oh_aui_detailpage_o06_s01?ie=UTF8&amp;psc=1</a></p>
  607. <p>My steppers are set to 0.9A, 16th step StealthChop, 1.5mm retract @ 40mm/s...</p></div></div>]]></description>
  608.            <author>DanCook3D</author>
  609.            <pubDate>Mon, 12 Jun 2017 15:08:51 +0100</pubDate>
  610.            <guid>https://www.thingiverse.com/thing:2380353</guid>
  611.            <enclosure url="https://www.thingiverse.com/download:3861560" length="1497671" type="application/sla"/>
  612.        </item>
  613.        <item>
  614.            <title>Hypercube BLV Conversion</title>
  615.            <link>https://www.thingiverse.com/thing:4068795</link>
  616.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:4068795"><img src="https://cdn.thingiverse.com/assets/30/da/86/e4/1e/large_preview_BLV-1.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>These are the parts I used/modified/created to do a BLV conversion on my Hypercube.</p>
  617. <p>Thanks goes out to <a rel="ugc nofollow" href="/Tech2C">Tech2C</a> for the original Hypercube design and to <a rel="ugc nofollow" href="/EdNiedziejko">EdNiedziejko</a> for the BLV Fusion work he did in melding the <a rel="ugc nofollow" href="/thing:1752766">Hypercube</a> and the <a rel="ugc nofollow" href="/thing:3382718">BLV mgn Cube</a>. I also want to thank the team at <a rel="ugc nofollow" href="/ZestyTech">ZestyTech</a> for their support, guidance and willingness to help out.</p>
  618. <p>I went through several iterations on some of these before finally arriving at what is currently posted. The carrier plate was heavily customized and combines a basic blank plate with the generic Zesty Nimble V2 mount and cooling clamp. I opted to use the rear duct fan as I feel it provides better cooling than the more compact one that is included with the V2 design - albeit at a cost of a reduced Y dimension.</p>
  619. <p>I opted to use the 40mm fan cover after breaking fins on a couple fans. This also reduces the Y dimension but I recessed the mounting cap head screws to lessen the impact.</p>
  620. <p>The mount for the induction probe has been lengthened and also moved forward 5mm to provide clearance for the fan duct. The mating face has also been narrowed to provide clearance when mounting it to the carrier.</p>
  621. <p>The belt clamp for the front carrier is a very tight fit but once in place with the belts tightened down should rarely, if ever, need to be adjusted again.</p>
  622. <p>Additional detail can be fount at <a rel="ugc nofollow" href="/make:741908">https://www.thingiverse.com/make:741908</a></p></div></div>]]></description>
  623.            <author>tgmorris99</author>
  624.            <pubDate>Thu, 26 Dec 2019 16:28:49 +0100</pubDate>
  625.            <guid>https://www.thingiverse.com/thing:4068795</guid>
  626.            <enclosure url="https://www.thingiverse.com/download:7444992" length="702505" type="application/octet-stream"/>
  627.        </item>
  628.        <item>
  629.            <title>Nimble and Sidewinder V2 mount CR-10 type print heads </title>
  630.            <link>https://www.thingiverse.com/thing:3364139</link>
  631.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:3364139"><img src="https://cdn.thingiverse.com/assets/dd/24/83/5b/83/large_preview_CR-10_Mount_kit.png"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>These parts can be used to mount a <a rel="ugc nofollow" href="https://zesty.tech/products/the-nimble-v2">Nimble V2</a> or a <a rel="ugc nofollow" href="https://zesty.tech/products/the-nimble-sidewinder-v2">Sidewinder V2</a> on a CR-10 type print head.</p>
  632. <p>The Nimble or Sidewinder V2 mounts on the standard printhead, no need to change hot end or anything else. Simply unscrew the bowden connector, mount the block and use the screw to tighten it to the hot end. Then mount the Nimble or Sidewinder. We wrote a manual for the installation. You can find it <a rel="ugc nofollow" href="http://zestytechnology.readthedocs.io/en/latest/printers/index.html">here</a> That manual is for the Sidewinder V1 but most of the steps are the same for the V2 Family. It will be clear when you mount it.</p>
  633. <p>The parts are not designed to be printed with FDM, but you can give it a try. They can also be purchased from our <a rel="ugc nofollow" href="http://shpws.me/RCpf">Shapeways shop</a>. This gives you SLS printed nylon parts that are really strong.<br>
  634. If you want to have more flexibility in mounting fans, different hot ends or sensors, have a look at our complete system with different mounts for V6, Mosquito and MicroSwiss. Also included are fan duct for 5015 fans. <a rel="ugc nofollow" href="/thing:3925473">https://www.thingiverse.com/thing:3925473</a>  </p>
  635. <h4>Changelog:</h4>
  636. <ul><li>1 Initial release. </li>
  637. </ul><p>The STL models are checked and optimised. The parts that need a different orientation to print properly are rotated to the preferred printing position. </p>
  638. <h4>The Nimble Extruder</h4>
  639. <p>With an installed weight of less than 27 grams on your carriage/effector the Zesty Nimble is the smallest and lightest extruder you can buy, it has ample torque and can be mounted in multiple orientations.</p>
  640. <p>The Nimble is available from <a rel="ugc nofollow" href="https://zesty.tech">Zesty Technology.</a></p></div></div>]]></description>
  641.            <author>ZestyTech</author>
  642.            <pubDate>Fri, 18 Jan 2019 09:42:37 +0100</pubDate>
  643.            <guid>https://www.thingiverse.com/thing:3364139</guid>
  644.            <enclosure url="https://www.thingiverse.com/download:7349865" length="3637884" type="application/sla"/>
  645.        </item>
  646.        <item>
  647.            <title>Reverse Bowden Holder</title>
  648.            <link>https://www.thingiverse.com/thing:2347799</link>
  649.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:2347799"><img src="https://cdn.thingiverse.com/renders/e8/fb/be/e7/36/7825eb355280ca4268c610c34b29f3b7_preview_large.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>A simple reverse bowden holder. </p>
  650. <p>Edit 1: We changed the sleeve, so we needed to change the bowden clip. Added two in fact. One for the new sleeve (Reverse Bowden clip V1.1) and added one that can be mounted using the screw next to the breech. (Reverse Bowden clip Screw)<br>
  651. Be aware that the screw then might need to be longer, as the clip will add 4 mm to the required length. </p>
  652. <p>The Nimble is a direct drive extruder and does not need a bowden tube, in fact it replaces the need for a bowden tube all together. But some people like to guide the filament to the Nimble using a kind of reverse bowden tube.<br>
  653. This holder will fit over the drive cable and the other end will hold the bowden tube over the breech opening of the Nimble. The same part can also be used at the stepper end. Separate clips are available to clip the reverse bowden tube to the drive cable along the complete length and hold the wires (for hot end and fans) as well.  </p>
  654. <h3>The Nimble Extruder</h3>
  655. <p>With an installed weight of less than 27 grams on your carriage/effector the Zesty Nimble is smallest and lightest extruder you can buy, it has ample torque and can be mounted in multiple orientations.</p>
  656. <p>The Nimble is available from <a rel="ugc nofollow" href="https://zesty.tech">Zesty Technology.</a></p></div></div>]]></description>
  657.            <author>ZestyTech</author>
  658.            <pubDate>Sat, 27 May 2017 07:36:20 +0100</pubDate>
  659.            <guid>https://www.thingiverse.com/thing:2347799</guid>
  660.            <enclosure url="https://www.thingiverse.com/download:4739936" length="767984" type="application/sla"/>
  661.        </item>
  662.        <item>
  663.            <title>Improved Fan Duct for Nimble print head for Creality type</title>
  664.            <link>https://www.thingiverse.com/thing:3767658</link>
  665.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:3767658"><img src="https://cdn.thingiverse.com/assets/a9/76/51/7b/a1/large_preview_IMG_0837.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>NEW IMPROVED V2 AND V3 ADDED!<br>
  666. (see below for details)</p>
  667. <p>I recently mounted a Zesty Nimble extruder to my Ender 3 Pro and so I downloaded and printed Zesty's geometry "Nimble print head for Creality type" (<a rel="ugc nofollow" href="/thing:3558524">https://www.thingiverse.com/thing:3558524</a>) to mount the new extruder and try out their cooling solution.<br>
  668. I'm pretty happy with the geometry, I like the compact size and clean design of the heat brake fan shroud and I really like the mount for the BLTouch, but I wasn't particularly thrilled with the geometry for the 4010 part cooling fan duct.<br>
  669. My problems with the part cooling duct in that design are (1) with the fan mounted on the side, it unevenly distributes air pressure to the two nozzles, (2) it's a relatively bulky fan duct, and (3) the mount for the stock 4010 fan was a poor fit. (At least it was when I printed it. Your experience may vary.)<br>
  670. I previously had used a Petsfang Bullseye (<a rel="ugc nofollow" href="/thing:2759439">https://www.thingiverse.com/thing:2759439</a>) which I was quite happy with and so I thought I'd see if I couldn't incorporate the elements that I liked from that duct into a design that would fit Zesty's hot end shroud geometry.<br>
  671. This is what I've come up with. (It's not really a remix; more of a replacement part; but I thought I'd label it a remix to make sure it got linked back to the original design.)<br>
  672. It moves the part cooling fan to the front, centered on the hot end so as to provide a perfectly even air flow distance to the left and right duct nozzles. The ducts provide really even and directed air flow and the mounting slots offer plenty of room to adjust the ducts up or down to get them perfectly aimed. The ducts are quite short which keeps the entire shroud very light (much lighter than my old Bullseye duct was). The part fan is mounted at a 45 degree angle so as to give the heat brake fan unimpeded air flow, which also gives an added bonus of giving clear access to the upper right and lower left mounting screws. (Two screws is plenty to hold that fan secure.)<br>
  673. All in all, I'm super happy with this design so I thought I'd share it in case anyone else wanted to try it too.<br>
  674. The duct prints very easily in its upright orientation but you will need to use support (from the bed only). I recommend that you use PETG or ABS as PLA has a low melting temp and can be prone to cracking. I printed mine in PETG and I'm very happy with it.</p>
  675. <p>UPDATE:<br>
  676. I've added a second version (NimbleDuctV2.stl) that is even more compact and which should work with the EZABL probe as well as the BLTouch. This version also moves the duct nozzles so that they are 180 degrees opposite one another. (V1's ducts are just a little less than 180 degrees.) Like the first version, it also has a perfectly symmetrical duct path but it's even more compact and about 5% lighter. If you liked the first one, I think you'll like this one even more.</p>
  677. <p>FINAL UPDATE:<br>
  678. I've add a THIRD version (NimbleDuctV3.stl) that has less restricted air flow and moves the ducts so that they're almost 120 degrees offset. I also slightly improved the aim of the air jets.<br>
  679. THIS CHANGE IS THE RESULT OF ACTUAL AIRFLOW TESTING! I ran smoke through the ducts to observe airflow behavior and I found two things: (1) that I wasn't getting as much air flow as I thought I was, and (2) that with the ducts facing directly into one another, the air flow around the nozzle became quite turbulent. Offsetting them 120 degrees apart allows the air streams to collide just at the bottom of the nozzle and vent cleanly toward the back of the machine. In my tests, this has resulted in significantly improved overhangs and bridging. (Your mileage may vary.)<br>
  680. By the way, the bottom of the ducts should be just under 3 mm above the bottom of your nozzle. To adjust mine, I drop the nozzle until it's right where I would print my first layer and then I slip a 3mm spacer (two of the small metal wrenches that come with the ender 3 stacked should do) under each duct while I tighten the mounting screws.<br>
  681. This third version also should not collide with any of the bed probes.</p></div></div>]]></description>
  682.            <author>HFoG</author>
  683.            <pubDate>Wed, 24 Jul 2019 17:28:41 +0100</pubDate>
  684.            <guid>https://www.thingiverse.com/thing:3767658</guid>
  685.            <enclosure url="https://www.thingiverse.com/download:6807168" length="2046084" type="application/sla"/>
  686.        </item>
  687.        <item>
  688.            <title>Hypercube Evolution Mk3 Orion and Nimble</title>
  689.            <link>https://www.thingiverse.com/thing:2934231</link>
  690.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:2934231"><img src="https://cdn.thingiverse.com/renders/f6/ae/25/15/ef/7c45e1bedc008bd7d4111cce7f86215c_preview_large.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>I designed a mount for my Hypercube Evolution to fit the Orion module from precision piezo and the Nimble from Zesty. I use the groove version of the Orion module. For cooling the coldend i use a Nocuta 40x20mm fan. I put the fan on the right side, because i use the left side for the endstop switch.</p>
  691. <p>I've also added the STL from the Original Prusa Mk3 fan duct.</p>
  692. <p>As X carriage i would recommend the upgraded version from NedalLive <a rel="ugc nofollow" href="/thing:2437440">https://www.thingiverse.com/thing:2437440</a>. I use just three instead of five screws to attach the mount to the carriage.</p>
  693. <h1>Note:</h1>
  694. <p>Please use DIN 562 squarethin nuts for this mount, you will need about 10 m3 squarethin nuts and about 5 m3 DIN 934 hex nuts.</p>
  695. <h1>Updates:</h1>
  696. <blockquote>
  697. <p>-STEP files included<br>
  698. -Removed the brass inserts<br>
  699. -Removed some leftover edges from an other modification I'm working on<br>
  700. -fixed a hole on top of the 40mm fan<br>
  701. -Moved the hole for the nut on the bottom left corner a bit up, so the part will not crack there as easy as before<br>
  702. -Added the old holes for the original mount, now it has 5 fixing points </p>
  703. <h1>R3 Update</h1>
  704. <p>-&gt;Changed the version to a 45&deg; angle style, like the R3 from the original Prusa design<br>
  705. -&gt;Added also a 45&deg; Volcano fan design</p>
  706. </blockquote>
  707. <p>If you are looking for a version without the orion module, take a look at this awesome mount: <a rel="ugc nofollow" href="/thing:3044328">https://www.thingiverse.com/thing:3044328</a></p></div></div>]]></description>
  708.            <author>Robotics92</author>
  709.            <pubDate>Mon, 28 May 2018 10:26:38 +0100</pubDate>
  710.            <guid>https://www.thingiverse.com/thing:2934231</guid>
  711.            <enclosure url="https://www.thingiverse.com/download:5409606" length="452284" type="application/sla"/>
  712.        </item>
  713.        <item>
  714.            <title>Nimble Gimbal - Gimbaling Extruder Motor Mount for Zesty Nimble</title>
  715.            <link>https://www.thingiverse.com/thing:2796437</link>
  716.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:2796437"><img src="https://cdn.thingiverse.com/renders/61/93/35/12/34/60d40bb54b1d5c23f6b048e4b7d40947_preview_large.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>Single axis gimbaling mount for mounting the extruder motor for a <a rel="ugc nofollow" href="https://zesty.tech/">Zesty Nimble</a> </p>
  717. <p>Lowers amount of force that drive cable can exert on Nimble body and printer motion system. <a rel="ugc nofollow" href="https://youtu.be/qfjgy3MI5Gg">https://youtu.be/qfjgy3MI5Gg</a></p>
  718. <p>12 June 2018 - Design (123D), stl and stp files for Style B version all included in Nimble_Gimbal_Style_B.zip file.  Design, stl and stp files for original version are in Nimble_Uni_Gimbal_Motor_Mount_42mm_Threaded.zip</p>
  719. <p>6 April 2018 - Updated with Style B captive nut version, anti-vibration washers and strain relief.  Style B is easier to assemble as axle is a free bolt installed from the external face of the arm which allows assembly/disassembly with the arms attached to panel.  Also, no tapping required. </p>
  720. <p>Very much work in progress - Style A (original) for 40mm length Nema 17 motor.  Design and step files included in zip.  Style B for any motor size.</p>
  721. <p><strong>Parts</strong> - Style A:</p>
  722. <ul><li>M3 x 12mm Button/Socket Head Cap Screw - for bearing axles (Qty 2)</li>
  723. <li>M3 Lock Nut (Qty 2)</li>
  724. <li>M3 Washer OD &lt; 5.75mm, ideally 1mm thick - <a rel="ugc nofollow" href="https://www.aliexpress.com/item/100Pcs-DIN125-ISO7089-M3-White-Plastic-Nylon-Washer-Plated-Flat-Spacer-Seals-Washer-Gasket-Ring/32825859558.html?spm=a2g0s.9042311.0.0.7UqcRv">these Nylon "DIN125/ISO7089" ones work well</a> - for bearing standoffs (Qty 4)<br><a rel="ugc nofollow" href="https://www.aliexpress.com/item/Free-Shipping-10PCS-683ZZ-ABEC-7-3x7x3MM-High-Quality-Miniature-Ball-Bearings-683ZZ/556954870.html?spm=a2g0s.9042311.0.0.Noqi8k">683 Bearing</a> - 3mm x 7mm x 3mm (Qty 2)</li>
  725. <li>M5 x 12mm (+/-) Button/Socket Head Cap Screw - for mounting Zesty motor bracket (Qty 4) </li>
  726. <li>M5 x length to suit your mounting surface - for fixing arms (Qty 6)</li>
  727. </ul><p><strong>Parts</strong> - Style B:</p>
  728. <ul><li>M3 x 10mm Button/Socket Head Cap Screw - for bearing axles (Qty 2)</li>
  729. <li>M3 x <strong>2mm longer</strong> (typically 8mm) than your current (typically 6mm) motor mount bolts if using strain relief (Qty 2)</li>
  730. <li>M3 Lock Nut (Qty 2)</li>
  731. <li>M5 Lock Nut (Qty 10)</li>
  732. <li>M3 Washer OD &lt; 5.75mm, ideally 1mm thick - <a rel="ugc nofollow" href="https://www.aliexpress.com/item/100Pcs-DIN125-ISO7089-M3-White-Plastic-Nylon-Washer-Plated-Flat-Spacer-Seals-Washer-Gasket-Ring/32825859558.html?spm=a2g0s.9042311.0.0.7UqcRv">these Nylon "DIN125/ISO7089" ones work well</a> - for bearing standoffs (Qty 2)<br><a rel="ugc nofollow" href="https://www.aliexpress.com/item/Free-Shipping-10PCS-683ZZ-ABEC-7-3x7x3MM-High-Quality-Miniature-Ball-Bearings-683ZZ/556954870.html?spm=a2g0s.9042311.0.0.Noqi8k">683 Bearing</a> - 3mm x 7mm x 3mm (Qty 2)</li>
  733. <li>M5 x 12mm to 14mm (+/-) Button/Socket Head Cap Screw - for mounting Zesty motor bracket (Qty 4) </li>
  734. <li>M5 x length (isolation washers take up 2mm for each face and need 8-9mm insertion into arm) to suit your mounting surface - for fixing arms (Qty 6)</li>
  735. </ul><p><strong>Tools</strong></p>
  736. <ul><li>M3 Tap (Style A only)</li>
  737. <li>2.4mm drill (Style A only)</li>
  738. <li>M5 Tap (Style A only)</li>
  739. <li>4.2mm drill (Style A only)</li>
  740. <li>3mm drill (Style B only)</li>
  741. <li>5mm drill</li>
  742. <li>10mm(13/32") drill (Isolation Washers only)</li>
  743. <li>Small File</li>
  744. <li>Bearing press of some sort,  <em>i.e.</em> a socket with an outer diameter just under 7mm and an inner diameter &gt; 4.5mm</li>
  745. </ul><p><strong>Instructions</strong> - Style A<br>
  746. Size bearing housing to 6.9mm ("0.272") ~ remember the rueful expression that goes something like <em>"... i bored it twice and it is still too big..."</em><br>
  747. Carefully press bearings into arms.<br>
  748. Assemble arms onto gimbal, ensure good alignment so that gimbal pivots freely.<br>
  749. Then locate holes for arms on mounting surface.<br>
  750. Then mount motor - fit is snug around Zesty motor mount bracket so may have to relieve radius where arms join body.</p>
  751. <p><strong>Instructions</strong> - Style B<br>
  752. See exploded diagram.<br>
  753. Size bearing housing to 6.9mm ("0.272") ~ remember the rueful expression that goes something like <em>"... i bored it twice and it is still too big..."</em><br>
  754. Carefully press bearings into arms.<br>
  755. Size 3mm and 5mm holes if required.<br>
  756. Insert nuts.<br>
  757. Assemble arms onto gimbal, ensure good alignment so that gimbal pivots freely.  Note that a single washer goes between the bearing and the motor mount on each side.<br>
  758. Then locate holes for arms on mounting surface.<br>
  759. Inner arm bolt holes are 68mm apart on centre and bolt holes are 20mm on centre within the arms.</p>
  760. <p><em>Vibration Washers</em><br>
  761. Panel holes need to be a 10mm+ (13/32").  A little bigger is probably better than smaller.<br><strong><em>Note that in order to minimize vibration transmission, mounting bolts on arms are best just tightened enough to prevent things from flopping around.</em></strong></p>
  762. <p><strong>Printing</strong><br>
  763. Mount and Arms: PETG recommended for toughness and ability to absorb vibration due to its lower flexural modulus but PLA or anything else with good layer adhesion should be fine. Overall vertical shell thickness of ~1mm and 20% infill should be good.  Did not use support. Dimensional accuracy important for captive nuts.</p>
  764. <p>Isolation Washers: X60 recommended (you have a Nimble, you CAN print it no problem!!) TPU (i.e. NinjaFlex) or soft TPE should work but keep perimeter wall thickness low (&lt;0.5mm??).  With the X60 i went with a 0.3mm nozzle and 0.2mm extrusion width, 3 perimeters, 0.125 layer height and 5 top/bottom layers.</p></div></div>]]></description>
  765.            <author>slonold</author>
  766.            <pubDate>Fri, 16 Feb 2018 17:46:04 +0100</pubDate>
  767.            <guid>https://www.thingiverse.com/thing:2796437</guid>
  768.            <enclosure url="https://www.thingiverse.com/download:4800484" length="3816084" type="application/sla"/>
  769.        </item>
  770.        <item>
  771.            <title>Nimble V2 mount kit for Cartesian and CoreXY printers</title>
  772.            <link>https://www.thingiverse.com/thing:3953512</link>
  773.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:3953512"><img src="https://cdn.thingiverse.com/assets/5c/21/cb/e4/80/large_preview_Cartesian_overview.png"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>Modular print head to mount a Nimble V2 or cartesian or CoreXY type print heads. This covers a wide range of printers, like the Hypercube, D_Bot etc. The Generic mount can be used to design your own mount. Simply add the backplate needed to mount it on the carriage.<br>
  774. Added here are mounts for the HEVO, D-Bot and a i3 backplate.</p>
  775. <p>There is a 5015 fan mount and a duct that fits both the E3D V6 and the Mosquito. Also included are 3 different sensor mounts for the bed leveling sensor.</p>
  776. <p>Both mounts (for the V6 and for the Mosquito) can be used with the standard hot-end fan or a 40x40 fan, using the relevant part. </p>
  777. <p>Since the introduction of Version 2 of the Nimble and Sidewinder, they share the mounting points. This means that these mounts are suitable for both the Nimble V2 and the Sidewinder V2.<br>
  778. The Nimble V2 has a drive cable that exits vertically, while in the Sidewinder V2 the drive cable exits horizontally. </p>
  779. <h5>Changelog:</h5>
  780. <ul><li>1 Initial release. </li>
  781. <li>2 Tweaked the BL Touch sensor to give it a little more space with the 5015 duct.</li>
  782. <li>3 Cleaned up the Air Ducting part.</li>
  783. <li>4 Added a Hevo Mount with an M3 locknut opening, instead of insert.</li>
  784. <li>5 Added a default mount and fan frame for a Volcano hot end. </li>
  785. </ul><p>You will need various M3 fasteners, depending on which version you need.<br>
  786. For our USA friends, it is easiest to buy a kit like this:<br><a rel="ugc nofollow" href="https://www.amazon.com/iExcell-Metric-DIN912-Stainless-Assortment/dp/B07J44YXV3">M3 fastener kit</a></p>
  787. <h5>Note: Some of the holes are blanked with a 0.2 mm layer. This is to allow the nut pockets to be printed properly. It is easier to bridge a flat surface than to bridge a surface with a hole in it.</h5>
  788. <p>The STL models are checked and optimised. </p>
  789. <h4>The Nimble Extruder Version 2</h4>
  790. <p>These parts are <strong>ONLY</strong> for the Nimble and Sidewinder Version 2.<br>
  791. With an installed weight of less than 25 grams on your carriage/effector the Zesty Nimble is the smallest and lightest extruder you can buy, it has ample torque and can be mounted in multiple orientations.</p>
  792. <p>The Nimble is available from <a rel="ugc nofollow" href="https://zesty.tech">Zesty Technology.</a></p></div></div>]]></description>
  793.            <author>ZestyTech</author>
  794.            <pubDate>Sun, 03 Nov 2019 09:20:00 +0100</pubDate>
  795.            <guid>https://www.thingiverse.com/thing:3953512</guid>
  796.            <enclosure url="https://www.thingiverse.com/download:7208404" length="505784" type="application/sla"/>
  797.        </item>
  798.        <item>
  799.            <title>Nimble Gimbal For 2020 Delta Frame</title>
  800.            <link>https://www.thingiverse.com/thing:2800798</link>
  801.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:2800798"><img src="https://cdn.thingiverse.com/renders/be/e4/b6/23/95/c9ec3f87ef231a43e02b97c7d94c7c01_preview_large.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>I saw slonold's Nimble Gimbal and liked the Idea. slonold did a great job on his design. I needed to modify it for my application.</p>
  802. <ol><li>I needed to make the arms wider at the bottom so it would mount on a 2020 aluminum<br>
  803. extrusion beam.</li>
  804. <li>I want to use M4 bolts to attach the arms to the 2020 beam so I increased the M3 holes<br>
  805. to M4. (A little over kill)</li>
  806. <li>I have a dozen 624 bearings and wanted to utilize them. I increased the size of the<br>
  807. bearing housing to accommodate the 13mm x 5mm bearing size of the 624's.</li>
  808. <li>Also used four bearings instead of the two in the original design. (A little over kill)</li>
  809. </ol><p>Needed supplies:<br>
  810. Print one set of arms and one extruder_mount_bracket.<br>
  811. 6 M4 x 16mm bolts, 4 for the arms to bolt to the 2020 beam and 2 for the bearings.<br>
  812. 4 M4 x 20mm bolts for mounting the Zesty Extruder Motor mount to the gimbal bracket.<br>
  813. 18 M4 flat washers (8 for the 4 bolts to mount the Zesty Motor mount to the gimbal bracket<br>
  814. (optional), 4 for the M4 bolts that mount the arms to the 2020 beam (optional) and 6 for<br>
  815. the M4 bolts that make up the two bearing assemblies).<br>
  816. 6 M4 nylon lock nuts, 4 for the Zesty motor mount to gimbal bracket and 2 for the arms to<br>
  817. gimbal bracket.<br>
  818. 4 M4 'T' nuts for the M4 bolts the attach the arms to the 2020 beam.<br>
  819. 4 624 size bearings.<br>
  820. Assembly Instructions:<br>
  821. Assemble the bearings first by using 1 M4 x 16mm bolt, 3 M4 washers and 1 nylon lock nut. Slide 1 M4 washer onto the bolt followed by a 624 bearing, then another M4 washer followed by a 2nd 624 bearing. Then slide the third M4 washer and lastly the nylon lock nut. Now tighten the bearing assembly. Make one more assembly.<br>
  822. Take 1 bearing assembly and insert it into the bearing housing on the motor bracket button head first. Do the same for the other bearing assembly.<br>
  823. Please see the provided photos for assembly.</p></div></div>]]></description>
  824.            <author>quadcells</author>
  825.            <pubDate>Thu, 22 Feb 2018 11:01:54 +0100</pubDate>
  826.            <guid>https://www.thingiverse.com/thing:2800798</guid>
  827.            <enclosure url="https://www.thingiverse.com/download:4664353" length="803384" type="application/sla"/>
  828.        </item>
  829.        <item>
  830.            <title>Nimble V2 Smart effector mount</title>
  831.            <link>https://www.thingiverse.com/thing:3953888</link>
  832.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:3953888"><img src="https://cdn.thingiverse.com/assets/c1/04/c8/42/26/large_preview_Smart_effector.png"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>This adapter is specifically to mount the Nimble V2 on the very smart PCB effector that Escher3D is developing with Think3dPrint3d. It uses a hot end mount that is developed by E3D.<br>
  833. Have a look at the effector [here.]<br>
  834. (<a rel="ugc nofollow" href="https://duet3d.com/wiki/Smart_effector_and_carriage_adapters_for_delta_printer">https://duet3d.com/wiki/Smart_effector_and_carriage_adapters_for_delta_printer</a>)</p>
  835. <p>In regards to the nut used to mount the hot end to the Smart Effector. There are two sizes of nuts used, unfortunately. 19 mm Across the Flats (AF) and 17 AF. Pick the right one.<br>
  836. Simply bolt the adapter to the hot end mount and bolt the Nimble to the adapter.</p>
  837. <p>In case your printer is in pieces, or you want perfect precision, you can also get this adapter via <a rel="ugc nofollow" href="http://shpws.me/RxYz">Shapeways.</a></p>
  838. <p>Changelog:</p>
  839. <ul><li>1 Initial release</li>
  840. <li>2 Changed the mount slightly (cleaning up a mistake) and added mount for larger 19AF nut </li>
  841. <li>3 Modified the fan mount and duct a lot. There was a chance of hitting an arm in some positions, so now the fan mount is flatter and avoids that issue.</li>
  842. <li>4 Deleted all the fan duct options and added a completely new system.</li>
  843. <li>5 There was a mistake in the mount, two columns had 2,9 mm holes instead of 3,5. Fixed now. Thanks, Hergonoway. </li>
  844. </ul><h4>Part cooling Fan system</h4>
  845. <p>There is a Fan Base, this mounts to the smart effector. Depending on which fan you use, the 5015 or the 4020 radial fans, you use that Fan Frame, to mount the fan on the Fan Frame. The relevant duct is attached at the same time.<br>
  846. The Fan Base has slots to allow for duct height adjustment. It has enough adjustment to handle the height difference between a V6 standard hot end and a Volcano. </p>
  847. <h3>The Nimble V2 Extruder</h3>
  848. <p>With an installed weight of less than 26 grams on your carriage/effector the Zesty Nimble V2 is smallest and lightest extruder you can buy, it has ample torque and can be mounted in multiple orientations.</p>
  849. <p>The Nimble is available from <a rel="ugc nofollow" href="https://zesty.tech">Zesty Technology.</a> </p></div></div>]]></description>
  850.            <author>ZestyTech</author>
  851.            <pubDate>Sun, 03 Nov 2019 13:51:22 +0100</pubDate>
  852.            <guid>https://www.thingiverse.com/thing:3953888</guid>
  853.            <enclosure url="https://www.thingiverse.com/download:7588403" length="739484" type="application/sla"/>
  854.        </item>
  855.        <item>
  856.            <title>Hypercube Evolution, My vers. DualHotend, XCarriage YCarriage 10mm Horizontal Rods, ZAxis 10mm ...</title>
  857.            <link>https://www.thingiverse.com/thing:3271213</link>
  858.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:3271213"><img src="https://cdn.thingiverse.com/renders/3d/01/c5/e7/4e/645e3dff344bd802b1af2e681ee2a4ea_preview_large.JPG"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>Meine Version vom HyperCube Evolution basiert zum grossen Teil auf der grossartigen Arbeit von Scott_3D. <a rel="ugc nofollow" href="/thing:2254103">https://www.thingiverse.com/thing:2254103</a></p>
  859. <p>Verfahrbereich der Achsen ist X335 Y318 Z330</p>
  860. <p>inklusive komplette St&uuml;ckliste Bom</p>
  861. <p>die Elektronikteile sind nicht enthalten</p>
  862. <p>Die Aluprofile und F&uuml;hrungsstangen habe ich bei Motedis bestellt::<br>
  863. 11 x    Aluprofil 30x30 B-Typ Nut 8 L&auml;nge:435 mm<br>
  864. 4  x    Aluprofil 30x30 B-Typ Nut 8 L&auml;nge:570 mm<br>
  865. 2  x    Aluprofil 20x20 B-Typ Nut 6 L&auml;nge:430 mm<br>
  866. 3  x    Aluprofil 20x20 B-Typ Nut 6 L&auml;nge:235 mm<br>
  867. 2  x  X-F&uuml;hrungsstange &Oslash;10x490<br>
  868. 2  x  Y-F&uuml;hrungsstange &Oslash;10x434<br>
  869. 4  x  Z-F&uuml;hrungsstange &Oslash;10x432</p>
  870. <p>Unter dem Drucker habe ich ca. 100mm Platz f&uuml;r die Elektronik</p>
  871. <p>deutsche facebook Gruppe: <a rel="ugc nofollow" href="https://www.facebook.com/groups/HypercubeEvoDeutsch">https://www.facebook.com/groups/HypercubeEvoDeutsch</a></p>
  872. <p>englische facebook Group: <a rel="ugc nofollow" href="https://www.facebook.com/groups/Hypercubeevolution/">https://www.facebook.com/groups/Hypercubeevolution/</a></p>
  873. <p>in den Facebook Gruppen gibt es eine Exzel Configurations Datei die auf dem aktuellen Stand gehalten wird mit der man alle Einkaufteile zusammenstellen kann und die Aluprofill&auml;ngen einfach berechnen kann.</p>
  874. <p>In meiner Version verwende ich Horizontale X-Achsen, Riemenspanner, Mechanische Endstopps, Dual Nimble Extruder, Dual E3Dv6 Hotend, XYZ-Achsen mit 10mm Stangen. Anstelle von Einpressmuttern verwende ich Sicherungsmuttern. <a rel="ugc nofollow" href="https://www.schrauben-expert.de/DIN-985-Sicherungsmutter-Edelstahl-A2">https://www.schrauben-expert.de/DIN-985-Sicherungsmutter-Edelstahl-A2</a></p>
  875. <p>Befestigungsteile Set - Enth&auml;lt die meisten Normteile<br><a rel="ugc nofollow" href="https://www.amazon.de/Sortiment-Edelstahl-Zylinderschrauben-innensechskant-Innensechskantschrauben/dp/B00YN10QME/ref=sr_1_5?ie=UTF8&amp;qid=1503096483&amp;sr=8-5&amp;keywords=m3+innensechskant+sortiment">https://www.amazon.de/Sortiment-Edelstahl-Zylinderschrauben-innensechskant-Innensechskantschrauben/dp/B00YN10QME/ref=sr_1_5?ie=UTF8&amp;qid=1503096483&amp;sr=8-5&amp;keywords=m3+innensechskant+sortiment</a></p>
  876. <p>Belt tensioning<br>
  877. einzeln verstellbare Riemen<br>
  878. 2 Sicherungsmutter M3<br>
  879. 2 Senkschraube M3x20<br><a rel="ugc nofollow" href="https://www.schrauben-expert.de/Senkschraube-DIN-7991-88-M3-x-20-verzinkt">https://www.schrauben-expert.de/Senkschraube-DIN-7991-88-M3-x-20-verzinkt</a></p>
  880. <p>Update 26.12.2018<br>
  881. Y_Carriage_L Y_Carriage_R, Y-Achse f&auml;hrt mehr ins minus. Ausnahme oberhalb Lager.</p>
  882. <p>Update 13.04.2019 St&uuml;ckliste eingef&uuml;gt.</p></div></div>]]></description>
  883.            <author>Rapo</author>
  884.            <pubDate>Sat, 15 Dec 2018 15:21:14 +0100</pubDate>
  885.            <guid>https://www.thingiverse.com/thing:3271213</guid>
  886.            <enclosure url="https://www.thingiverse.com/download:5734786" length="563284" type="application/sla"/>
  887.        </item>
  888.        <item>
  889.            <title>Anycubic Plus V6 Dual Effector</title>
  890.            <link>https://www.thingiverse.com/thing:2805394</link>
  891.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:2805394"><img src="https://cdn.thingiverse.com/renders/44/62/7a/59/88/6b9db3bd421c0e13a7d3c94ff230330b_preview_large.jpg"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>Let me introduce you my own version of a new effector for the Anycubic Kossel Linear Plus.<br>
  892. I&acute;ve created this because I havent found something more suitable for me and my printer.</p>
  893. <p>The effector comes stand-alone but also with a mount for the Nimble by Zesty-tech.<br>
  894. Also added the opportunity to install a BLtouch Sensor for auto bed leveling.</p>
  895. <p>Size of the hotend cooling fan is 40x40x10</p>
  896. <p>I&acute;ve printed all parts and they work but if there are any suggestions for improvements I am open to it.</p>
  897. <p>I&acute;ll add a part cooling system in the future!</p>
  898. <p>If there are other problems or issues - feel free to ask!</p>
  899. <p>Designed with Catia V5</p></div></div>]]></description>
  900.            <author>Evilkanjevil</author>
  901.            <pubDate>Sat, 24 Feb 2018 19:41:42 +0100</pubDate>
  902.            <guid>https://www.thingiverse.com/thing:2805394</guid>
  903.            <enclosure url="https://www.thingiverse.com/download:4674486" length="160927" type="application/sla"/>
  904.        </item>
  905.        <item>
  906.            <title>Parts Cooling Fang 2x5015 for Creality Printers. ...</title>
  907.            <link>https://www.thingiverse.com/thing:4178361</link>
  908.            <description><![CDATA[<div style="margin: 5px;"><a href="https://www.thingiverse.com/thing:4178361"><img src="https://cdn.thingiverse.com/assets/1e/7f/94/15/44/large_preview_Front.png"  class="preview_large" style="width: 240px; height: 180px"></a><br/></div><div><div><p>All parts are correctly oriented for printing. For the fan ducts use supports from build plate only, I use <code>Overhang Threshold: 10</code> on PrusaSlicer.</p>
  909. <p>All other parts print with no supports.</p>
  910. <p><code>V3-FanDuctLeft.stf</code> and <code>V3-FanDuctRight.stl</code> are secured to the mount using 2 M3 hex nuts and 2 M3x6mm bolts.</p>
  911. <p><code>V3-FanDuctMount.stl</code> and <code>V3-HotEndMount.stl</code> attach to the X carriage using 2 M3x6 bolts each.</p>
  912. <p>This was designed primarily to be used with a Slice Mosquito or compatible hot end. I have a Mellow NF-Crazy Magnum from Aliexpress but it's also compatible with E3Dv6 and clones.</p>
  913. <p>It's been working great. Check the pictures for bridge and overhang performance.</p>
  914. <p>Video: <a rel="ugc nofollow" href="https://www.youtube.com/watch?v=p7-MagSMBMQ">https://www.youtube.com/watch?v=p7-MagSMBMQ</a></p></div></div>]]></description>
  915.            <author>c10l</author>
  916.            <pubDate>Sat, 22 Feb 2020 23:19:31 +0100</pubDate>
  917.            <guid>https://www.thingiverse.com/thing:4178361</guid>
  918.            <enclosure url="https://www.thingiverse.com/download:7896911" length="809484" type="application/sla"/>
  919.        </item>
  920.    </channel>
  921. </rss>
  922.  
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