| (10 révisions intermédiaires par le même utilisateur non affichées) | |||
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{{Tuto Details | {{Tuto Details | ||
| − | |Main_Picture= | + | |Main_Picture=Solar_System_Orrery_20200207_134639120_iOS_2_.jpg |
| − | |Main_Picture_annotation={"version":"2.4.6","objects":[{"type":"image","version":"2.4.6","originX":"left","originY":"top","left": | + | |Main_Picture_annotation={"version":"2.4.6","objects":[{"type":"image","version":"2.4.6","originX":"left","originY":"top","left":137,"top":5,"width":3024,"height":4032,"fill":"rgb(0,0,0)","stroke":null,"strokeWidth":0,"strokeDashArray":null,"strokeLineCap":"butt","strokeDashOffset":0,"strokeLineJoin":"miter","strokeMiterLimit":4,"scaleX":0.11,"scaleY":0.11,"angle":0,"flipX":false,"flipY":false,"opacity":1,"shadow":null,"visible":true,"clipTo":null,"backgroundColor":"","fillRule":"nonzero","paintFirst":"fill","globalCompositeOperation":"source-over","transformMatrix":null,"skewX":0,"skewY":0,"crossOrigin":"","cropX":0,"cropY":0,"src":"https://wikifab.org/images/5/57/Solar_System_Orrery_20200207_134639120_iOS_2_.jpg","filters":[]}],"height":450,"width":600} |
|Description=<translate>Un modèle mécanique du système solaire qui illustre ou prédit les positions et les mouvements relatifs des planètes et des lunes, généralement selon le modèle héliocentrique." -Wikipedia-</translate> | |Description=<translate>Un modèle mécanique du système solaire qui illustre ou prédit les positions et les mouvements relatifs des planètes et des lunes, généralement selon le modèle héliocentrique." -Wikipedia-</translate> | ||
|Area=Decoration, Science and Biology | |Area=Decoration, Science and Biology | ||
| Ligne 24 : | Ligne 24 : | ||
{{TutoVideo | {{TutoVideo | ||
|VideoType=Youtube | |VideoType=Youtube | ||
| − | |VideoURLYoutube=https://youtu.be/ | + | |VideoURLYoutube=https://youtu.be/dmtfvbAeKzY |
}} | }} | ||
{{Materials | {{Materials | ||
|ItemList={{ItemList}} | |ItemList={{ItemList}} | ||
| + | |Prerequisites={{Prerequisites | ||
| + | |Prerequisites=Solar System Orrery | ||
| + | }} | ||
|Tuto_Attachments={{Tuto Attachments | |Tuto_Attachments={{Tuto Attachments | ||
| + | |Attachment=Solar_System_Orrery_Solar-System-Orrery-3D-Printed.pdf | ||
| + | }}{{Tuto Attachments | ||
|Attachment=Solar_System_Orrery_SolarSystemOrrery_ok_18112019.PDF | |Attachment=Solar_System_Orrery_SolarSystemOrrery_ok_18112019.PDF | ||
}}{{Tuto Attachments | }}{{Tuto Attachments | ||
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|Attachment=Solar_System_Orrery_Tube_bending_template.pdf | |Attachment=Solar_System_Orrery_Tube_bending_template.pdf | ||
}}{{Tuto Attachments | }}{{Tuto Attachments | ||
| − | |Attachment= | + | |Attachment=Solar_System_Orrery_sch_ma.pdf |
| + | }}{{Tuto Attachments | ||
| + | |Attachment=Solar_System_Orrery_Fritzing_Bill_of_Materials.pdf | ||
}}{{Tuto Attachments | }}{{Tuto Attachments | ||
|Attachment=Solar_System_Orrery_Montage_barometre_Bento_OK_06022020_ok.ino | |Attachment=Solar_System_Orrery_Montage_barometre_Bento_OK_06022020_ok.ino | ||
}}{{Tuto Attachments | }}{{Tuto Attachments | ||
| − | |Attachment= | + | |Attachment=Solar_System_Orrery_planche_ep_5mm_edulab.svg |
| + | }}{{Tuto Attachments | ||
| + | |Attachment=Solar_System_Orrery_planche_ep_5mm.svg | ||
| + | }}{{Tuto Attachments | ||
| + | |Attachment=Solar_System_Orrery_planche_ep_3mm.svg | ||
| + | }}{{Tuto Attachments | ||
| + | |Attachment=Solar_System_Orrery_compl_planche_ep_5mm.svg | ||
| + | }}{{Tuto Attachments | ||
| + | |Attachment=Solar_System_Orrery_compl_planche_ep_3mm.svg | ||
| + | }}{{Tuto Attachments | ||
| + | |Attachment=Solar_System_Orrery_Venus_Outside_50.stl | ||
| + | }}{{Tuto Attachments | ||
| + | |Attachment=Solar_System_Orrery_Sol_Outside_50.stl | ||
| + | }}{{Tuto Attachments | ||
| + | |Attachment=Solar_System_Orrery_Saturn_Outside_50.stl | ||
| + | }}{{Tuto Attachments | ||
| + | |Attachment=Solar_System_Orrery_Moon_Outside_50.stl | ||
| + | }}{{Tuto Attachments | ||
| + | |Attachment=Solar_System_Orrery_Mercury_Outside_50.stl | ||
| + | }}{{Tuto Attachments | ||
| + | |Attachment=Solar_System_Orrery_Mars_Outside_50.stl | ||
| + | }}{{Tuto Attachments | ||
| + | |Attachment=Solar_System_Orrery_Jupiter_Outside_50.stl | ||
| + | }}{{Tuto Attachments | ||
| + | |Attachment=Solar_System_Orrery_Earth_Outside_50.stl | ||
}} | }} | ||
}} | }} | ||
{{Tuto Step | {{Tuto Step | ||
|Step_Title=<translate>Découpe laser</translate> | |Step_Title=<translate>Découpe laser</translate> | ||
| − | |Step_Content=<translate></translate> | + | |Step_Content=<translate>Fichiers dans le dossier pour découpe pléxi en 3mm et 5mm épaisseur.</translate> |
| + | |Step_Picture_00=Solar_System_Orrery_20200211_124541512_iOS.jpg | ||
| + | |Step_Picture_01=Solar_System_Orrery_20200211_125440379_iOS.jpg | ||
| + | |Step_Picture_02=Solar_System_Orrery_20200211_125628762_iOS.jpg | ||
}} | }} | ||
{{Tuto Step | {{Tuto Step | ||
|Step_Title=<translate>Assemblage</translate> | |Step_Title=<translate>Assemblage</translate> | ||
|Step_Content=<translate></translate> | |Step_Content=<translate></translate> | ||
| + | |Step_Picture_00=Solar_System_Orrery_20200211_124445619_iOS.jpg | ||
}} | }} | ||
{{Tuto Step | {{Tuto Step | ||
|Step_Title=<translate>Arduino</translate> | |Step_Title=<translate>Arduino</translate> | ||
| − | |Step_Content=<translate></translate> | + | |Step_Content=<translate>Programme Arduino à téléverser</translate> |
| − | |Step_Picture_00=Solar_System_Orrery_Montage_barometre_Bento_OK_06022020_ok.ino | + | |Step_Picture_00=Solar_System_Orrery_20200211_131512470_iOS.jpg |
| + | |Step_Picture_01=Solar_System_Orrery_Montage_barometre_Bento_OK_06022020_ok.ino | ||
| + | |Step_Picture_01_annotation={"version":"2.4.6","objects":[{"type":"image","version":"2.4.6","originX":"left","originY":"top","left":0,"top":0,"width":128,"height":128,"fill":"rgb(0,0,0)","stroke":null,"strokeWidth":0,"strokeDashArray":null,"strokeLineCap":"butt","strokeDashOffset":0,"strokeLineJoin":"miter","strokeMiterLimit":4,"scaleX":4.69,"scaleY":4.69,"angle":0,"flipX":false,"flipY":false,"opacity":1,"shadow":null,"visible":true,"clipTo":null,"backgroundColor":"","fillRule":"nonzero","paintFirst":"fill","globalCompositeOperation":"source-over","transformMatrix":null,"skewX":0,"skewY":0,"crossOrigin":"","cropX":0,"cropY":0,"src":"https://wikifab.org/w/resources/assets/file-type-icons/fileicon-ino.png","filters":[]}],"height":600,"width":600} | ||
}} | }} | ||
{{Tuto Step | {{Tuto Step | ||
|Step_Title=<translate>Câblage</translate> | |Step_Title=<translate>Câblage</translate> | ||
| − | |Step_Content=<translate></translate> | + | |Step_Content=<translate>Schéma de câblage des composants sur carte Arduino Uno</translate> |
|Step_Picture_00=Solar_System_Orrery_sch_ma_bb.jpg | |Step_Picture_00=Solar_System_Orrery_sch_ma_bb.jpg | ||
| + | |Step_Picture_01=Solar_System_Orrery_part_list.JPG | ||
| + | |Step_Picture_02=Solar_System_Orrery_L293D.png | ||
| + | }} | ||
| + | {{Tuto Step | ||
| + | |Step_Title=<translate>Impression 3D</translate> | ||
| + | |Step_Content=<translate>Fichiers STL dans les fichiers joints.</translate> | ||
| + | |Step_Picture_00=Solar_System_Orrery_7ef4aeaddc94cac4b8b32b0cb3eaf508_preview_featured.jpg | ||
| + | |Step_Picture_01=Solar_System_Orrery_e94c52c06e1927566ff0f48d802a8b73_preview_featured.jpg | ||
| + | |Step_Picture_02=Solar_System_Orrery_0709d46f50e6558fd6c1f5195f99b4a3_preview_featured.jpg | ||
| + | |Step_Picture_03=Solar_System_Orrery_a04bb8ad1c1151fc67a39a9b5215a711_preview_featured.jpg | ||
| + | |Step_Picture_04=Solar_System_Orrery_4102a53f0c8d416f582f43f483d6d0de_preview_featured.jpg | ||
| + | |Step_Picture_05=Solar_System_Orrery_2e519368307618067f3ca7def05730a7_preview_featured.jpg | ||
}} | }} | ||
{{Notes | {{Notes | ||
Version actuelle datée du 11 février 2020 à 17:15
Un modèle mécanique du système solaire qui illustre ou prédit les positions et les mouvements relatifs des planètes et des lunes, généralement selon le modèle héliocentrique." -Wikipedia-
Difficulté
Difficile
Durée
20 jour(s)
Catégories
Décoration, Science & Biologie
Coût
100 EUR (€)
Introduction
projet original : https://www.instructables.com/id/Solar-System-Orrery-3D-Printed/ , modifié .
1 - Asservissement moteur par programme Arduino en complément de fonctions Température, Humidité , Pression et LED Ring.
2 - Découpe laser des engrenages.
3 - Impression 3D des planètes et liaisons avec tube laiton.Youtube
Matériaux
Outils
Étape 1 - Découpe laser
Fichiers dans le dossier pour découpe pléxi en 3mm et 5mm épaisseur.
Étape 2 - Assemblage
Étape 3 - Arduino
Programme Arduino à téléverser
Étape 4 - Câblage
Schéma de câblage des composants sur carte Arduino Uno
Étape 5 - Impression 3D
Fichiers STL dans les fichiers joints.
Draft
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