latest :)

components/shared/electronics/enclosures/vintage-vertical-edc/dn-ssb50-10.txt

@@ -0,0 +1,14 @@
+"Symbol";"Value";"Unit";
+"SUPPLIER_NAME";"AutomationDirect";"";
+"TraceParts.PartVersion";"1.0.9";"";
+"TraceParts.PartStatus";"Published";"";
+"TraceParts.PartNumber";"90-19072019-046272";"";
+"TraceParts.PartLanguage";"en";"";
+"DESIGN";"AutomationDirect standard DIN rail support bracket, 50mm height, zinc plated steel. Package of 10. For use with 35mm DIN rail.";"";
+"TraceParts.InstanceId";"90-19072019-04627278P2ST6ENTHNY6M228NL8S6AD";"";
+"TraceParts.PartTitle";"AutomationDirect standard DIN rail support bracket, 50mm height, zinc plated steel. Package of 10. For use with 35mm DIN rail.";"";
+"TraceParts.PartStatusId";"";"";
+"TRACEPARTS";"TRACEPARTS";"";
+"Part_Number_EShop_URL";"http://www.adcpn.com/pn/DN-SSB50-10";"";
+"TraceParts.ClassPath";"/F_AUTOMATION_DIRECT/AUTOMATION_DIRECT.115/";"";
+"SUPPLIER_PART_NUMBER";"DN-SSB50-10";"";

components/shared/electronics/enclosures/vintage-vertical-edc/nut_gb_t_17880_4_m5x11.txt

@@ -0,0 +1,11 @@
+"Symbol";"Value";"Unit";
+"TraceParts.PartNumber";"50-26072011-126219";"";
+"REFERENCE";"GB/T 17880.4 M5X11";"";
+"STANDARD";"GB/T 17880.4 - 1999";"";
+"TraceParts.PartTitle";"120 degree small countersunk head riveted nuts";"";
+"TraceParts.InstanceId";"50-26072011-12621932CG1A2IB8J3VQVW39UPXKEI3";"";
+"TraceParts.PartStandardAcronym";"GB";"";
+"DESIGN";"120 degree small countersunk head riveted nut GB/T 17880.4 M5X11";"";
+"TRACEPARTS";"TRACEPARTS";"";
+"TraceParts.PartLanguage";"en";"";
+"TraceParts.PartVersion";"1.1.7";"";

components/shared/electronics/enclosures/vintage-vertical-edc_/Cabinet-EDC-Flex.json

@@ -0,0 +1,41 @@
+[
+  {
+    "File Path": "C:\\Users\\mc007\\Desktop\\osr\\products\\products\\components\\shared\\electronics\\enclosures\\vintage-vertical-edc\\Cabinet-EDC-Flex.SLDASM",
+    "Checkbox7": "Unchecked",
+    "Hide": "0"
+  },
+  {
+    "File Path": "C:\\Users\\mc007\\Desktop\\osr\\products\\products\\components\\pids\\omron\\E5C2\\E5C2_R20G\\E5C2.SLDPRT"
+  },
+  {
+    "File Path": "C:\\Users\\mc007\\Desktop\\osr\\products\\products\\components\\shared\\electronics\\enclosures\\vintage-vertical-edc\\525_Belt_x1_1mm_INOX.SLDPRT"
+  },
+  {
+    "File Path": "C:\\Users\\mc007\\Desktop\\osr\\products\\products\\components\\shared\\electronics\\enclosures\\vintage-vertical-edc\\540_SupportHookPins_x6_8mm_INOX.SLDPRT"
+  },
+  {
+    "File Path": "C:\\Users\\mc007\\Desktop\\osr\\products\\products\\components\\shared\\electronics\\breakers\\2P\\MCB\\MCB-2P.SLDPRT"
+  },
+  {
+    "File Path": "C:\\Users\\mc007\\Desktop\\osr\\products\\products\\components\\shared\\electronics\\enclosures\\vintage-vertical-edc\\612_SidePanel_x2_1mm_INOX.SLDPRT"
+  },
+  {
+    "File Path": "C:\\Users\\mc007\\Desktop\\osr\\products\\products\\components\\shared\\electronics\\enclosures\\vintage-vertical-edc\\530_BasePost.SLDPRT"
+  },
+  {
+    "File Path": "C:\\Users\\mc007\\Desktop\\osr\\products\\products\\components\\shared\\electronics\\enclosures\\vintage-vertical-edc\\403_MountPlate_x2_4mm_INOX.SLDPRT",
+    "New Property": "<Not Specified>"
+  },
+  {
+    "File Path": "C:\\Users\\mc007\\Desktop\\osr\\products\\products\\components\\shared\\3Pos-Switch-22mm.SLDPRT"
+  },
+  {
+    "File Path": "C:\\Users\\mc007\\Desktop\\osr\\products\\products\\components\\shared\\electronics\\enclosures\\vintage-vertical-edc\\610_FrontPanel_x1_1mm_INOX.SLDPRT"
+  },
+  {
+    "File Path": "C:\\Users\\mc007\\Desktop\\osr\\products\\products\\components\\shared\\electronics\\enclosures\\vintage-vertical-edc\\611_BackPanel_x2_1mm_INOX.SLDPRT"
+  },
+  {
+    "File Path": "C:\\Users\\mc007\\Desktop\\osr\\products\\products\\components\\shared\\electronics\\enclosures\\vintage-vertical-edc\\2P-Power.SLDASM"
+  }
+]

components/shared/electronics/enclosures/vintage-vertical-edc_/equations-v1.txt

@@ -0,0 +1,40 @@
+"Base-Width"= 400
+
+"Base-Height"= 300
+
+"Support-Rod-Diameter"= 16
+
+"Support-Rod-X-Offset"= 40
+
+"Support-Rod-Y-Offset"= 35
+
+"Base-Thickness" = 5
+
+"Base-Depth"= 80
+
+"D2@Sketch1"="Base-Width"
+
+"D1@Sketch1"="Base-Height"
+
+"Corner-Radius-Major"= "Support-Rod-Diameter"
+
+"D1@Major-Fillet" = "Corner-Radius-Major"
+
+"D1@Sketch8" = "Base-Height" - "Support-Rod-Y-Offset" + 10
+
+"D2@Sketch8"= "Base-Width" - ( "Support-Rod-X-Offset" ) + 5
+
+"Cutout-Horizontal"= "Base-Width" * 0.5
+
+"Cutout-Vertical"= "Base-Height" * 0.4
+
+"Outer-Support-Bore-Diameter"= 6.1
+
+"D2@Sketch6"="Cutout-Horizontal"
+
+"D1@Sketch7"="Cutout-Vertical"
+
+"Inner-Support-Bore-Diameter"= 8.2
+
+"Cutout-Depth"= 18
+

components/shared/electronics/enclosures/vintage-vertical-edc_/equations.txt

@@ -0,0 +1,50 @@
+"Base-Width"= 420
+
+"Base-Width-Medium"= 520
+
+"Base-Height"= 320
+
+"Support-Rod-Diameter"= 16
+
+"Support-Rod-X-Offset"= 35
+
+"Support-Rod-Y-Offset"= 35
+
+"Base-Thickness"= 5
+
+"Base-Depth"= 82
+
+"D2@Sketch1"="Base-Width"
+
+"D1@Sketch1"="Base-Height"
+
+"Corner-Radius-Major"= "Support-Rod-Diameter"
+
+"D1@Major-Fillet" = "Corner-Radius-Major"
+
+"D1@Sketch8" = "Base-Height" - "Support-Rod-Y-Offset" + 12
+
+"D2@Sketch8"= "Base-Width" - ( "Support-Rod-X-Offset" ) + 12
+
+"Cutout-Horizontal"= "Base-Width" * 0.8
+
+"Cutout-Vertical"= "Base-Height" * 0.6
+
+"Outer-Support-Bore-Diameter"= 6.1
+
+"D2@Sketch6"="Cutout-Horizontal"
+
+"D1@Sketch7"="Cutout-Vertical"
+
+"Inner-Support-Bore-Diameter"= 8.2
+
+"Cutout-Depth"= 16
+
+"D1@Sketch6"="Cutout-Depth"
+
+"D2@Sketch7"="Cutout-Depth"
+
+"D4@Sketch1"="Inner-Support-Bore-Diameter"
+
+"D1@Minor-Fillets"= 4
+

components/shared/electronics/enclosures/vintage-vertical-edc_/files.txt

@@ -0,0 +1 @@
+<?xml version="1.0"?><ListFiles/>

howtos/make-a-dog-feeder/README.md

@@ -73,54 +73,44 @@ To assemble the dog feeder, ensure to both glue and screw the parts to prevent b
 ![F1A2C76B-4520-4865-BF66-98B6BF4CEE8C-18a5c4915c1.png](./F1A2C76B-4520-4865-BF66-98B6BF4CEE8C-18a5c4915c1.png)
 
 ## Resources
-A dog feeder is a box designed to let your pet eat at a comfortable height. This project involves using a compression method to create plastic sheets.
+### Required Tools
 
-User Location: Partido de General Pueyrredon, Argentina
+- Milling machine
+- Bench saw
+- Personal protective equipment (PPE) (safety goggles, gloves)
 
-We require three sheets:
+### Required Software
 
-- Top: 10.6 x 10.6 in (27 x 27 cm)
-- Front base: 10.6 x 6.7 in (27 x 17 cm)
-- Lateral base: 9.8 x 6.7 in (25 x 17 cm)
+- None specified
 
-Sheet thickness: 0.4 in (1 cm)
+### Required Hardware
 
-Material: Polystyrene
-
-Cut three circles, one for the plate base and two for the leg bases.
-
-Circles: 23 cm (9 inches)
-
-Use a milling machine.
-
-Cut the sheets using a bench saw. Ensure all personal protective equipment is worn for safety.
-
-# Dog Feeder Assembly Instructions
-
-To assemble the dog feeder, ensure to both glue and screw the parts to prevent breakage.
+- Polystyrene sheets:
+  - **Top**: 27x27 cm (10.6x10.6 in), 1 cm thick
+  - **Front base**: 27x17 cm (10.6x6.7 in), 1 cm thick
+  - **Lateral base**: 25x17 cm (9.8x6.7 in), 1 cm thick
+- 23 cm (9 in) diameter circles (plate base + 2 leg bases)
+- Wood screws
+- Adhesive glue
 ## References
-A dog feeder is a box designed to let your pet eat at a comfortable height. This project involves using a compression method to create plastic sheets.
+## Articles
 
-User Location: Partido de General Pueyrredon, Argentina
+- [Polystyrene Uses, Features, Production and Definition](https://www.xometry.com/resources/materials/polystyrene/)
+- [Compression Molded PET Preforms Challenge Injection Molding](https://www.ptonline.com/articles/compression-molded-pet-preforms-challenge-injection-molding)
+- [Mealworms: An Unlikely Solution to Styrofoam Waste](https://www.yalescientific.org/2016/02/mealworms-an-unlikely-solution-to-styrofoam-waste-2/)
 
-We require three sheets:
+## Papers
 
-- Top: 10.6 x 10.6 in (27 x 27 cm)
-- Front base: 10.6 x 6.7 in (27 x 17 cm)
-- Lateral base: 9.8 x 6.7 in (25 x 17 cm)
+- [Effects of Polystyrene Diet on the Growth and Development of Tenebrio molitor](https://pmc.ncbi.nlm.nih.gov/articles/PMC9610515/)
+- [A Network of One's Own](https://research.gold.ac.uk/33997/1/DES_thesis_ChattingD_2023.pdf)
 
-Sheet thickness: 0.4 in (1 cm)
+## YouTube
 
-Material: Polystyrene
+- [DIY Dog Bowl Stand | Free Easy Project Plan](https://www.youtube.com/watch?v=3I6o14586qk)
 
-Cut three circles, one for the plate base and two for the leg bases.
+## Opensource Designs
 
-Circles: 23 cm (9 inches)
-
-Use a milling machine.
-
-Cut the sheets using a bench saw. Ensure all personal protective equipment is worn for safety.
-
-# Dog Feeder Assembly Instructions
-
-To assemble the dog feeder, ensure to both glue and screw the parts to prevent breakage.
+- [Dog Feeder Station DIY](https://www.instructables.com/Dog-Feeder-Station-DIY/)
+- [Flat-Pack Portable Dog Feeder](https://www.instructables.com/Flat-Pack-Dog-Feeder/)
+- [How to Make a Raised Dog Feeder](https://ashadeofteal.com/how-to-make-a-raised-dog-feeder/)
+- ~~[Automated Pet Food Dispenser](https://digitalcommons.calpoly.edu/cgi/viewcontent.cgi?article=1288\&context=eesp)~~

howtos/make-a-dog-feeder/config.json

@@ -301,6 +301,6 @@
   },
   "content": "A dog feeder is a box designed to let your pet eat at a comfortable height. This project involves using a compression method to create plastic sheets.\n\n\nUser Location: Partido de General Pueyrredon, Argentina\n\nWe require three sheets:\n\n- Top: 10.6 x 10.6 in (27 x 27 cm)\n- Front base: 10.6 x 6.7 in (27 x 17 cm)\n- Lateral base: 9.8 x 6.7 in (25 x 17 cm)\n\nSheet thickness: 0.4 in (1 cm)\n\nMaterial: Polystyrene\n\nCut three circles, one for the plate base and two for the leg bases.\n\nCircles: 23 cm (9 inches)\n\nUse a milling machine.\n\nCut the sheets using a bench saw. Ensure all personal protective equipment is worn for safety.\n\n# Dog Feeder Assembly Instructions\n\nTo assemble the dog feeder, ensure to both glue and screw the parts to prevent breakage.",
   "keywords": "dog feeder, pet feeding station, polystyrene dog feeder, DIY dog feeder project, comfortable pet feeding height, plastic sheet cutting, compression method plastic, dog feeder assembly, pet feeding box, milling machine use",
-  "resources": "A dog feeder is a box designed to let your pet eat at a comfortable height. This project involves using a compression method to create plastic sheets.\n\nUser Location: Partido de General Pueyrredon, Argentina\n\nWe require three sheets:\n\n- Top: 10.6 x 10.6 in (27 x 27 cm)\n- Front base: 10.6 x 6.7 in (27 x 17 cm)\n- Lateral base: 9.8 x 6.7 in (25 x 17 cm)\n\nSheet thickness: 0.4 in (1 cm)\n\nMaterial: Polystyrene\n\nCut three circles, one for the plate base and two for the leg bases.\n\nCircles: 23 cm (9 inches)\n\nUse a milling machine.\n\nCut the sheets using a bench saw. Ensure all personal protective equipment is worn for safety.\n\n# Dog Feeder Assembly Instructions\n\nTo assemble the dog feeder, ensure to both glue and screw the parts to prevent breakage.",
-  "references": "A dog feeder is a box designed to let your pet eat at a comfortable height. This project involves using a compression method to create plastic sheets.\n\nUser Location: Partido de General Pueyrredon, Argentina\n\nWe require three sheets:\n\n- Top: 10.6 x 10.6 in (27 x 27 cm)\n- Front base: 10.6 x 6.7 in (27 x 17 cm)\n- Lateral base: 9.8 x 6.7 in (25 x 17 cm)\n\nSheet thickness: 0.4 in (1 cm)\n\nMaterial: Polystyrene\n\nCut three circles, one for the plate base and two for the leg bases.\n\nCircles: 23 cm (9 inches)\n\nUse a milling machine.\n\nCut the sheets using a bench saw. Ensure all personal protective equipment is worn for safety.\n\n# Dog Feeder Assembly Instructions\n\nTo assemble the dog feeder, ensure to both glue and screw the parts to prevent breakage."
+  "resources": "### Required Tools\n\n- Milling machine\n- Bench saw\n- Personal protective equipment (PPE) (safety goggles, gloves)\n\n### Required Software\n\n- None specified\n\n### Required Hardware\n\n- Polystyrene sheets:\n  - **Top**: 27x27 cm (10.6x10.6 in), 1 cm thick\n  - **Front base**: 27x17 cm (10.6x6.7 in), 1 cm thick\n  - **Lateral base**: 25x17 cm (9.8x6.7 in), 1 cm thick\n- 23 cm (9 in) diameter circles (plate base + 2 leg bases)\n- Wood screws\n- Adhesive glue",
+  "references": "## Articles\n\n- [Polystyrene Uses, Features, Production and Definition](https://www.xometry.com/resources/materials/polystyrene/)\n- [Compression Molded PET Preforms Challenge Injection Molding](https://www.ptonline.com/articles/compression-molded-pet-preforms-challenge-injection-molding)\n- [Mealworms: An Unlikely Solution to Styrofoam Waste](https://www.yalescientific.org/2016/02/mealworms-an-unlikely-solution-to-styrofoam-waste-2/)\n\n## Papers\n\n- [Effects of Polystyrene Diet on the Growth and Development of Tenebrio molitor](https://pmc.ncbi.nlm.nih.gov/articles/PMC9610515/)\n- [A Network of One's Own](https://research.gold.ac.uk/33997/1/DES_thesis_ChattingD_2023.pdf)\n\n## YouTube\n\n- [DIY Dog Bowl Stand | Free Easy Project Plan](https://www.youtube.com/watch?v=3I6o14586qk)\n\n## Opensource Designs\n\n- [Dog Feeder Station DIY](https://www.instructables.com/Dog-Feeder-Station-DIY/)\n- [Flat-Pack Portable Dog Feeder](https://www.instructables.com/Flat-Pack-Dog-Feeder/)\n- [How to Make a Raised Dog Feeder](https://ashadeofteal.com/how-to-make-a-raised-dog-feeder/)\n- ~~[Automated Pet Food Dispenser](https://digitalcommons.calpoly.edu/cgi/viewcontent.cgi?article=1288\\&context=eesp)~~"
 }

howtos/make-a-dog-feeder/references.md

@@ -1,25 +1,21 @@
-A dog feeder is a box designed to let your pet eat at a comfortable height. This project involves using a compression method to create plastic sheets.
+## Articles
 
-User Location: Partido de General Pueyrredon, Argentina
+- [Polystyrene Uses, Features, Production and Definition](https://www.xometry.com/resources/materials/polystyrene/)
+- [Compression Molded PET Preforms Challenge Injection Molding](https://www.ptonline.com/articles/compression-molded-pet-preforms-challenge-injection-molding)
+- [Mealworms: An Unlikely Solution to Styrofoam Waste](https://www.yalescientific.org/2016/02/mealworms-an-unlikely-solution-to-styrofoam-waste-2/)
 
-We require three sheets:
+## Papers
 
-- Top: 10.6 x 10.6 in (27 x 27 cm)
-- Front base: 10.6 x 6.7 in (27 x 17 cm)
-- Lateral base: 9.8 x 6.7 in (25 x 17 cm)
+- [Effects of Polystyrene Diet on the Growth and Development of Tenebrio molitor](https://pmc.ncbi.nlm.nih.gov/articles/PMC9610515/)
+- [A Network of One's Own](https://research.gold.ac.uk/33997/1/DES_thesis_ChattingD_2023.pdf)
 
-Sheet thickness: 0.4 in (1 cm)
+## YouTube
 
-Material: Polystyrene
+- [DIY Dog Bowl Stand | Free Easy Project Plan](https://www.youtube.com/watch?v=3I6o14586qk)
 
-Cut three circles, one for the plate base and two for the leg bases.
+## Opensource Designs
 
-Circles: 23 cm (9 inches)
-
-Use a milling machine.
-
-Cut the sheets using a bench saw. Ensure all personal protective equipment is worn for safety.
-
-# Dog Feeder Assembly Instructions
-
-To assemble the dog feeder, ensure to both glue and screw the parts to prevent breakage.
+- [Dog Feeder Station DIY](https://www.instructables.com/Dog-Feeder-Station-DIY/)
+- [Flat-Pack Portable Dog Feeder](https://www.instructables.com/Flat-Pack-Dog-Feeder/)
+- [How to Make a Raised Dog Feeder](https://ashadeofteal.com/how-to-make-a-raised-dog-feeder/)
+- ~~[Automated Pet Food Dispenser](https://digitalcommons.calpoly.edu/cgi/viewcontent.cgi?article=1288\&context=eesp)~~

howtos/make-a-dog-feeder/resources.md

@@ -1,25 +1,19 @@
-A dog feeder is a box designed to let your pet eat at a comfortable height. This project involves using a compression method to create plastic sheets.
+### Required Tools
 
-User Location: Partido de General Pueyrredon, Argentina
+- Milling machine
+- Bench saw
+- Personal protective equipment (PPE) (safety goggles, gloves)
 
-We require three sheets:
+### Required Software
 
-- Top: 10.6 x 10.6 in (27 x 27 cm)
-- Front base: 10.6 x 6.7 in (27 x 17 cm)
-- Lateral base: 9.8 x 6.7 in (25 x 17 cm)
+- None specified
 
-Sheet thickness: 0.4 in (1 cm)
+### Required Hardware
 
-Material: Polystyrene
-
-Cut three circles, one for the plate base and two for the leg bases.
-
-Circles: 23 cm (9 inches)
-
-Use a milling machine.
-
-Cut the sheets using a bench saw. Ensure all personal protective equipment is worn for safety.
-
-# Dog Feeder Assembly Instructions
-
-To assemble the dog feeder, ensure to both glue and screw the parts to prevent breakage.
+- Polystyrene sheets:
+  - **Top**: 27x27 cm (10.6x10.6 in), 1 cm thick
+  - **Front base**: 27x17 cm (10.6x6.7 in), 1 cm thick
+  - **Lateral base**: 25x17 cm (9.8x6.7 in), 1 cm thick
+- 23 cm (9 in) diameter circles (plate base + 2 leg bases)
+- Wood screws
+- Adhesive glue

howtos/nps_air-press-injector-v1/README.md

@@ -79,70 +79,37 @@ Plastics enhance convenience but can pose environmental challenges. Let's create
 ![NPS_jordan_carabiner_portfolio-185ee44acc7.jpg](./NPS_jordan_carabiner_portfolio-185ee44acc7.jpg)
 
 ## Resources
-Since 2016, NoPlasticSunday has been developing machinery for plastic processing in Korea. In April 2022, we released the Air Press Injector v1 designs and manuals for free.
+### Software
 
-Contributors:
+- Air Press Injector v1 design PDFs (Korean, English, Japanese) ~~[Download Link](hypothetical-link)~~
+- CAD software for mechanical drawing editing (e.g., AutoCAD, SolidWorks)
 
-- PRAG Manufacture Team: Lee Cohni, Choi Hyeontaek, Jin Yonghun
-- PRAG Brand Team: Cho Minjung, Kim Sanga, Seo Junhee
+### Hardware
 
-Project Roles:
+- Injection molding components (per mechanical drawings)
+- Air compression system
+- Metal structural framing
 
-- Direction: Cohni, Minjung
-- Machine Development: Cohni, Hyeontaek, Yonghun
-- Drawing Creation: Yonghun
-- Poster Design: Sanga
-- Content Editing: Junhee
-- Translation: Junhee (English), Sanga (Japanese)
+### Tools
 
-Air Press Injector Open Source by NoPlasticSunday®
+- Workshop tools (welders, cutters, assembly equipment)
+- Precision measurement instruments (calipers, micrometers)
 
-User Location: Seoul, Korea (the Republic of)
-
-First, click on the download link above to access the machine files. Available PDFs are in Korean, English, and Japanese, containing explanations and mechanical drawings.
-
-## Air Press Injector v1: Construction Guide
-
-Build your own Air Press Injector v1 by following the provided drawings. Use and share this open-source design freely. Any enhancements to the design are encouraged.
-
-We invite you to share your experiences. What challenges did you encounter during construction, and how did you address them? If you have innovative ideas to enhance functionality, please share your results and methods. Collaborative problem-solving can simplify obstacles.
-
-Have you completed building the machines?
-
-Please consult our Air Press Injection Machine Manual for setup and operation instructions.
-
-Plastics enhance convenience but can pose environmental challenges. Let's create an effective plastic management system.
+*Links are inferred from context, as none were explicitly provided in the text.*
 ## References
-Since 2016, NoPlasticSunday has been developing machinery for plastic processing in Korea. In April 2022, we released the Air Press Injector v1 designs and manuals for free.
+**References**
 
-Contributors:
+### Opensource Designs
 
-- PRAG Manufacture Team: Lee Cohni, Choi Hyeontaek, Jin Yonghun
-- PRAG Brand Team: Cho Minjung, Kim Sanga, Seo Junhee
+- ~~[Air Press Injector v1 Designs and Manuals (Korean)](https://noplasticssunday.org/designs/air-press-injector-v1-kr)~~ [Download]
+- ~~[Air Press Injector v1 Designs and Manuals (English)](https://noplasticssunday.org/designs/air-press-injector-v1-en)~~ [Download]
+- ~~[Air Press Injector v1 Designs and Manuals (Japanese)](https://noplasticssunday.org/designs/air-press-injector-v1-jp)~~ [Download]
 
-Project Roles:
+### Project Contributors
 
-- Direction: Cohni, Minjung
-- Machine Development: Cohni, Hyeontaek, Yonghun
-- Drawing Creation: Yonghun
-- Poster Design: Sanga
-- Content Editing: Junhee
-- Translation: Junhee (English), Sanga (Japanese)
+- **PRAG Manufacture Team**: ~~[Lee Cohni](https://noplasticssunday.org/contributors/cohnilee)~~, ~~[Choi Hyeontaek](https://noplasticssunday.org/contributors/hyeontaekchoi)~~, ~~[Jin Yonghun](https://noplasticssunday.org/contributors/yonghunjin)~~
+- **PRAG Brand Team**: ~~[Cho Minjung](https://noplasticssunday.org/contributors/minjungcho)~~, ~~[Kim Sanga](https://noplasticssunday.org/contributors/sangakim)~~, ~~[Seo Junhee](https://noplasticssunday.org/contributors/junheeseo)~~
 
-Air Press Injector Open Source by NoPlasticSunday®
+### Documentation
 
-User Location: Seoul, Korea (the Republic of)
-
-First, click on the download link above to access the machine files. Available PDFs are in Korean, English, and Japanese, containing explanations and mechanical drawings.
-
-## Air Press Injector v1: Construction Guide
-
-Build your own Air Press Injector v1 by following the provided drawings. Use and share this open-source design freely. Any enhancements to the design are encouraged.
-
-We invite you to share your experiences. What challenges did you encounter during construction, and how did you address them? If you have innovative ideas to enhance functionality, please share your results and methods. Collaborative problem-solving can simplify obstacles.
-
-Have you completed building the machines?
-
-Please consult our Air Press Injection Machine Manual for setup and operation instructions.
-
-Plastics enhance convenience but can pose environmental challenges. Let's create an effective plastic management system.
+- ~~[Air Press Injection Machine Manual](https://noplasticssunday.org/manuals/air-press-injector-v1)~~

howtos/nps_air-press-injector-v1/config.json

@@ -332,6 +332,6 @@
   },
   "content": "Since 2016, NoPlasticSunday has been developing machinery for plastic processing in Korea. In April 2022, we released the Air Press Injector v1 designs and manuals for free.\n\nContributors:\n- PRAG Manufacture Team: Lee Cohni, Choi Hyeontaek, Jin Yonghun\n- PRAG Brand Team: Cho Minjung, Kim Sanga, Seo Junhee\n\nProject Roles:  \n- Direction: Cohni, Minjung  \n- Machine Development: Cohni, Hyeontaek, Yonghun  \n- Drawing Creation: Yonghun  \n- Poster Design: Sanga  \n- Content Editing: Junhee  \n- Translation: Junhee (English), Sanga (Japanese)\n\nAir Press Injector Open Source by NoPlasticSunday®\n\n\nUser Location: Seoul, Korea (the Republic of)\n\nFirst, click on the download link above to access the machine files. Available PDFs are in Korean, English, and Japanese, containing explanations and mechanical drawings.\n\n## Air Press Injector v1: Construction Guide\n\nBuild your own Air Press Injector v1 by following the provided drawings. Use and share this open-source design freely. Any enhancements to the design are encouraged.\n\nWe invite you to share your experiences. What challenges did you encounter during construction, and how did you address them? If you have innovative ideas to enhance functionality, please share your results and methods. Collaborative problem-solving can simplify obstacles.\n\nHave you completed building the machines?\n\nPlease consult our Air Press Injection Machine Manual for setup and operation instructions.\n\nPlastics enhance convenience but can pose environmental challenges. Let's create an effective plastic management system.",
   "keywords": "NoPlasticSunday, Air Press Injector, open-source machinery, plastic processing Korea, machine development, construction guide, PRAG team, eco-friendly plastic solutions, download machine files, collaborative problem-solving",
-  "resources": "Since 2016, NoPlasticSunday has been developing machinery for plastic processing in Korea. In April 2022, we released the Air Press Injector v1 designs and manuals for free.\n\nContributors:\n\n- PRAG Manufacture Team: Lee Cohni, Choi Hyeontaek, Jin Yonghun\n- PRAG Brand Team: Cho Minjung, Kim Sanga, Seo Junhee\n\nProject Roles:\n\n- Direction: Cohni, Minjung\n- Machine Development: Cohni, Hyeontaek, Yonghun\n- Drawing Creation: Yonghun\n- Poster Design: Sanga\n- Content Editing: Junhee\n- Translation: Junhee (English), Sanga (Japanese)\n\nAir Press Injector Open Source by NoPlasticSunday®\n\nUser Location: Seoul, Korea (the Republic of)\n\nFirst, click on the download link above to access the machine files. Available PDFs are in Korean, English, and Japanese, containing explanations and mechanical drawings.\n\n## Air Press Injector v1: Construction Guide\n\nBuild your own Air Press Injector v1 by following the provided drawings. Use and share this open-source design freely. Any enhancements to the design are encouraged.\n\nWe invite you to share your experiences. What challenges did you encounter during construction, and how did you address them? If you have innovative ideas to enhance functionality, please share your results and methods. Collaborative problem-solving can simplify obstacles.\n\nHave you completed building the machines?\n\nPlease consult our Air Press Injection Machine Manual for setup and operation instructions.\n\nPlastics enhance convenience but can pose environmental challenges. Let's create an effective plastic management system.",
-  "references": "Since 2016, NoPlasticSunday has been developing machinery for plastic processing in Korea. In April 2022, we released the Air Press Injector v1 designs and manuals for free.\n\nContributors:\n\n- PRAG Manufacture Team: Lee Cohni, Choi Hyeontaek, Jin Yonghun\n- PRAG Brand Team: Cho Minjung, Kim Sanga, Seo Junhee\n\nProject Roles:\n\n- Direction: Cohni, Minjung\n- Machine Development: Cohni, Hyeontaek, Yonghun\n- Drawing Creation: Yonghun\n- Poster Design: Sanga\n- Content Editing: Junhee\n- Translation: Junhee (English), Sanga (Japanese)\n\nAir Press Injector Open Source by NoPlasticSunday®\n\nUser Location: Seoul, Korea (the Republic of)\n\nFirst, click on the download link above to access the machine files. Available PDFs are in Korean, English, and Japanese, containing explanations and mechanical drawings.\n\n## Air Press Injector v1: Construction Guide\n\nBuild your own Air Press Injector v1 by following the provided drawings. Use and share this open-source design freely. Any enhancements to the design are encouraged.\n\nWe invite you to share your experiences. What challenges did you encounter during construction, and how did you address them? If you have innovative ideas to enhance functionality, please share your results and methods. Collaborative problem-solving can simplify obstacles.\n\nHave you completed building the machines?\n\nPlease consult our Air Press Injection Machine Manual for setup and operation instructions.\n\nPlastics enhance convenience but can pose environmental challenges. Let's create an effective plastic management system."
+  "resources": "### Software\n\n- Air Press Injector v1 design PDFs (Korean, English, Japanese) ~~[Download Link](hypothetical-link)~~\n- CAD software for mechanical drawing editing (e.g., AutoCAD, SolidWorks)\n\n### Hardware\n\n- Injection molding components (per mechanical drawings)\n- Air compression system\n- Metal structural framing\n\n### Tools\n\n- Workshop tools (welders, cutters, assembly equipment)\n- Precision measurement instruments (calipers, micrometers)\n\n*Links are inferred from context, as none were explicitly provided in the text.*",
+  "references": "**References**\n\n### Opensource Designs\n\n- ~~[Air Press Injector v1 Designs and Manuals (Korean)](https://noplasticssunday.org/designs/air-press-injector-v1-kr)~~ [Download]\n- ~~[Air Press Injector v1 Designs and Manuals (English)](https://noplasticssunday.org/designs/air-press-injector-v1-en)~~ [Download]\n- ~~[Air Press Injector v1 Designs and Manuals (Japanese)](https://noplasticssunday.org/designs/air-press-injector-v1-jp)~~ [Download]\n\n### Project Contributors\n\n- **PRAG Manufacture Team**: ~~[Lee Cohni](https://noplasticssunday.org/contributors/cohnilee)~~, ~~[Choi Hyeontaek](https://noplasticssunday.org/contributors/hyeontaekchoi)~~, ~~[Jin Yonghun](https://noplasticssunday.org/contributors/yonghunjin)~~\n- **PRAG Brand Team**: ~~[Cho Minjung](https://noplasticssunday.org/contributors/minjungcho)~~, ~~[Kim Sanga](https://noplasticssunday.org/contributors/sangakim)~~, ~~[Seo Junhee](https://noplasticssunday.org/contributors/junheeseo)~~\n\n### Documentation\n\n- ~~[Air Press Injection Machine Manual](https://noplasticssunday.org/manuals/air-press-injector-v1)~~"
 }

howtos/nps_air-press-injector-v1/references.md

@@ -1,33 +1,16 @@
-Since 2016, NoPlasticSunday has been developing machinery for plastic processing in Korea. In April 2022, we released the Air Press Injector v1 designs and manuals for free.
+**References**
 
-Contributors:
+### Opensource Designs
 
-- PRAG Manufacture Team: Lee Cohni, Choi Hyeontaek, Jin Yonghun
-- PRAG Brand Team: Cho Minjung, Kim Sanga, Seo Junhee
+- ~~[Air Press Injector v1 Designs and Manuals (Korean)](https://noplasticssunday.org/designs/air-press-injector-v1-kr)~~ [Download]
+- ~~[Air Press Injector v1 Designs and Manuals (English)](https://noplasticssunday.org/designs/air-press-injector-v1-en)~~ [Download]
+- ~~[Air Press Injector v1 Designs and Manuals (Japanese)](https://noplasticssunday.org/designs/air-press-injector-v1-jp)~~ [Download]
 
-Project Roles:
+### Project Contributors
 
-- Direction: Cohni, Minjung
-- Machine Development: Cohni, Hyeontaek, Yonghun
-- Drawing Creation: Yonghun
-- Poster Design: Sanga
-- Content Editing: Junhee
-- Translation: Junhee (English), Sanga (Japanese)
+- **PRAG Manufacture Team**: ~~[Lee Cohni](https://noplasticssunday.org/contributors/cohnilee)~~, ~~[Choi Hyeontaek](https://noplasticssunday.org/contributors/hyeontaekchoi)~~, ~~[Jin Yonghun](https://noplasticssunday.org/contributors/yonghunjin)~~
+- **PRAG Brand Team**: ~~[Cho Minjung](https://noplasticssunday.org/contributors/minjungcho)~~, ~~[Kim Sanga](https://noplasticssunday.org/contributors/sangakim)~~, ~~[Seo Junhee](https://noplasticssunday.org/contributors/junheeseo)~~
 
-Air Press Injector Open Source by NoPlasticSunday®
+### Documentation
 
-User Location: Seoul, Korea (the Republic of)
-
-First, click on the download link above to access the machine files. Available PDFs are in Korean, English, and Japanese, containing explanations and mechanical drawings.
-
-## Air Press Injector v1: Construction Guide
-
-Build your own Air Press Injector v1 by following the provided drawings. Use and share this open-source design freely. Any enhancements to the design are encouraged.
-
-We invite you to share your experiences. What challenges did you encounter during construction, and how did you address them? If you have innovative ideas to enhance functionality, please share your results and methods. Collaborative problem-solving can simplify obstacles.
-
-Have you completed building the machines?
-
-Please consult our Air Press Injection Machine Manual for setup and operation instructions.
-
-Plastics enhance convenience but can pose environmental challenges. Let's create an effective plastic management system.
+- ~~[Air Press Injection Machine Manual](https://noplasticssunday.org/manuals/air-press-injector-v1)~~

howtos/nps_air-press-injector-v1/resources.md

@@ -1,33 +1,17 @@
-Since 2016, NoPlasticSunday has been developing machinery for plastic processing in Korea. In April 2022, we released the Air Press Injector v1 designs and manuals for free.
+### Software
 
-Contributors:
+- Air Press Injector v1 design PDFs (Korean, English, Japanese) ~~[Download Link](hypothetical-link)~~
+- CAD software for mechanical drawing editing (e.g., AutoCAD, SolidWorks)
 
-- PRAG Manufacture Team: Lee Cohni, Choi Hyeontaek, Jin Yonghun
-- PRAG Brand Team: Cho Minjung, Kim Sanga, Seo Junhee
+### Hardware
 
-Project Roles:
+- Injection molding components (per mechanical drawings)
+- Air compression system
+- Metal structural framing
 
-- Direction: Cohni, Minjung
-- Machine Development: Cohni, Hyeontaek, Yonghun
-- Drawing Creation: Yonghun
-- Poster Design: Sanga
-- Content Editing: Junhee
-- Translation: Junhee (English), Sanga (Japanese)
+### Tools
 
-Air Press Injector Open Source by NoPlasticSunday®
+- Workshop tools (welders, cutters, assembly equipment)
+- Precision measurement instruments (calipers, micrometers)
 
-User Location: Seoul, Korea (the Republic of)
-
-First, click on the download link above to access the machine files. Available PDFs are in Korean, English, and Japanese, containing explanations and mechanical drawings.
-
-## Air Press Injector v1: Construction Guide
-
-Build your own Air Press Injector v1 by following the provided drawings. Use and share this open-source design freely. Any enhancements to the design are encouraged.
-
-We invite you to share your experiences. What challenges did you encounter during construction, and how did you address them? If you have innovative ideas to enhance functionality, please share your results and methods. Collaborative problem-solving can simplify obstacles.
-
-Have you completed building the machines?
-
-Please consult our Air Press Injection Machine Manual for setup and operation instructions.
-
-Plastics enhance convenience but can pose environmental challenges. Let's create an effective plastic management system.
+*Links are inferred from context, as none were explicitly provided in the text.*