howtos:references :)

.astro/collections/resources.schema.json

@@ -23,7 +23,7 @@
               "format": "unix-time"
             }
           ],
-          "default": "2025-03-28T05:01:22.032Z"
+          "default": "2025-03-28T05:02:30.798Z"
         },
         "description": {
           "type": "string",

.kbot/params.json

@@ -3,7 +3,7 @@
   "messages": [
     {
       "role": "user",
-      "content": "Return a list of useful references (only with links), as Markdown, grouped : Articles, Books, Papers, Youtube, Opensource Designs, ... Dont comment !\n\nText to process:\nIn this tutorial, I will guide you through the process of cutting HDPE sheets using an X-Carve CNC.\n\nThis video is available in Spanish with subtitles: [Watch here](https://www.youtube.com/watch?v=4LrrFz802To).\n\n\nUser Location: Mexico City, Mexico\n\nFor this step, we need to measure our plastic sheet: Height, Width, and Thickness. Our X-Carve machine operates with the CAM Software EASEL, which is user-friendly software for CNC milling.\n\nEasel offers the ability to \"simulate\" your actual material, and even includes HDPE 2-Colors in their cutting material lists.\n\nUtilize the CNC clamps from the X-Carve to securely fasten the sheet to the table.\n\nProceed to use a vector graphics editor like Inkscape to design or obtain a vector file. \n\nDownload the SVG file and import it into Easel.\n\nUpon preparing the file, select the desired width for carving or cutting. Proceed to initiate the cutting process with the following steps:\n\n- Ensure the sheet is securely fixed.\n- Specify the cutting bit; in this case, use a 1/8 inch (3.18 mm) flat flute bit.\n- Set the machine's coordinate origin at the lower-left corner.\n- Raise the bit and activate the CNC Router.\n\nLet the process commence, and witness the craftsmanship unfold!\n\nTake your glasses or object and proceed with post-processing, then present it to friends and family.\n\nYou can attempt this project using various types of CNC machines, including manual routers or saws, as demonstrated in this video: [youtu.be/gxkcffQD3eQ](https://youtu.be/gxkcffQD3eQ). It is important to share your experiences and contribute to the community's development.\n\nShare your ideas and comments!"
+      "content": "Return a list of useful references (only with links), as Markdown, grouped : Articles, Books, Papers, Youtube, Opensource Designs, ... Dont comment !\n\nText to process:\nHere, you will find the 3D model and blueprints required to create the wall peg mold.\n\n\nUser Location: Bogota, Colombia\n\nEnsure all necessary materials are prepared, and review the drawings and instructions thoroughly to gain a comprehensive understanding of the process. This preparation will enable you to work with greater efficiency and precision.\n\nWith all the parts gathered, begin by cutting the steel pipe nipple (number 7) in half to create the mold nozzle. (Refer to drawings on page 3).\n\nObtain the steel disc (item no. 3) and create a central hole with a diameter suitable for a snug fit of one half of the steel pipe nipple (item no. 7). (Refer to drawings on page 4)\n\nTurn one face of the flange to create a 3-inch (7.62 cm) diameter guide to fit the mold body no. 1. (See drawings page 4)\n\nJoin weld number 3 and number 7. Subsequently, chamfer the welded edge using a lathe. (Refer to drawings on page 5)\n\nObtain disc number 4 and drill a 7.14 millimeter (9/32 inch) hole in the center. (Refer to drawings on page 6)\n\nDrill four holes at the edge of discs numbered 3 and 4, then cut the sides. Refer to drawings on pages 4 to 6.\n\nDrill four additional 3/16-inch (4.76 mm) holes in disc number 4. (Refer to drawings on page 6)\n\nTo achieve a curved, smooth, and glossy surface for the mold cavity, obtain parts no. 1-2 and the 3D files and bring them to a competent CNC lathe workshop. They will manage the various file formats, and any uncertainties can be clarified with the drawings. (Refer to drawings on pages 7-8-9)\n\nObtain part no. 5 and cut its corners tangent to a 3-inch (7.62 cm) circle, which is the diameter of part no. 2. (Refer to drawings on page 10)\n\nFrom a thin metal sheet, cut part no. 6 and trim its corners to prevent injuries. With four nails, hammer it in the center of no. 5. (See drawings pages 11-12)\n\nDrill a 3.2 mm (⅛\") hole in the center of parts no. 5 and 6. Insert a screw to create the thread in the wood. (See drawings pages 10-11-12)\n\nAnd you’re done! Here is your Wall Peg mold.\n\nRemember to place a new screw in the wooden mold base each time before injecting. If you forget, the hole will fill with plastic and become unusable. In that case, simply drill it again.\n\nTo open the mold, remove the bolts sideways, then trim the plastic at the entrance and separate the mold parts. Unscrew the peg from the wooden part to have your peg ready.\n\nDue to the plug's volume, it requires time to cool, and the outgoing screw will remain soft. Avoid tilting and ensure it is correctly positioned.\n\nThe mold is compatible with various plastics and is easy to use. Feel free to experiment with different plastics and mixtures.\n\nTo install the peg on the wall, drill a hole and secure it manually using a wall plug."
     },
     {
       "role": "user",

src/model/howto.ts

@@ -330,7 +330,7 @@ const complete = async (item: IHowto) => {
   }
   if (HOWTO_ADD_REFERENCES) {
     item.keywords = await template_filter(item.content, 'keywords', TemplateContext.HOWTO);
-    item.resources = await template_filter(item.content, 'references', TemplateContext.HOWTO);
+    item.references = await template_filter(item.content, 'references', TemplateContext.HOWTO);
     write(path.join(item_path(item), 'references.md'), item.references as string)
   }
   await to_github(item)