18.project development (may 23)

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WALTER GONZALES ARNAO
This project was posible because all the suport given by the fabcomunity in Lima and abroad, The FAUA UNI specially MSc.Luis Delgado (dean), MSc. PATRICA CALDAS (INIFAUA ‘s director) and MSc. AURELIO PADILLA (rector).

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18.project development (may 23)

  1. 1. CLASS 18:Project Development (May 23)STUDENT: WALTER HECTOR GONZALES ARNAO
  2. 2. CLASS 18:Project Development (May 23)STUDENT: WALTER HECTOR GONZALES ARNAO UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  3. 3. TEXTILES ARE VERY IMPORTANT FOR THE PERUVIAN CULTURE BECAUSE THEY ARE AN ANCIENT INHERITANCE. THIS PROJECT TAKES THE ANDEAN TECHNIQUES TO A NEW LEVEL BY MEANS OF DIGITAL FABRICATION summary ADAPTING A this week assignment work on your final project, documenting your progress MILENARY CRAFT TO THE PRESENT.CLASS 18:Project Development (May 23) Fab academy
  4. 4. FINAL PROJECT DIGITAL LOOM DESIGN computer Out serial Control servoCLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  5. 5. FINAL PROJECT DIGITAL LOOM DESIGNER FOTO FAB DUINO Controller Loom machine computer serial:bits Control software Design softwareCLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  6. 6. imput: switch S4 S3 S2 Out serial S1 PC declare variables interface code to for the input and create, compile out put program the code graphical interface simulation to Control servo S4 S3 S2 S1 S4 S3 S2 S1 INTERFACE S4 S3 S2 S1 S4 S3 S2 S1 S4 S3 S2 S1 S4 S3 S2 S1CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  7. 7. DIGITAL LOOM DESIGNER Machine The Atoms ServomechanismDigital Loom Designer Electronic circuits Control software The Bits Design Software (GUI)
  8. 8. FINAL PROJECT TO FINISH THE DESIGN THESE TOPICS . WERE REVIEWED: 4. VERIFY THE CORRECT SERVO MOTOR ASSEMBLY1. PARTS OF THE ONCE PLACED SO LOOM HAVE TO FOLLOW THE MATTCH SYSTEM EXACTLY FUNCTIONING ACCURATELY PROPERLY. FOR ASSEMBLY.2. IMPROVED 5. CONTROLDESIGN OF MOBILE CIRCUIT DESIGNPARTS 3. ENSURE THE LOOM’S OPERATIONCLASS 18:Project Development (May 23)
  9. 9. 1 loom fab7 ANTECEDENT Loom 2 3Loom prototype A 4Loom prototype B 5Loom prototype CLoom prototype D 6 7Loom prototype E 8Loom prototype F
  10. 10. 1. PARTS OF THE LOOM HAVE TO MATTCH EXACTLY ACCURATELY FOR ASSEMBLY.COURT SYSTEM 1.THE LASER CUT ACRYLIC IS OF 4.7 MM 2.SE USE THE MATERIALS EFFECTIVELY REDUCING WASTECLASS 18:Project Development (May 23)
  11. 11. 1. PARTS OF THE LOOM BASIC PARTS 1. FRAMEWORK 2. HOME SUPPORT 3. PIN 4. PIVOTING COMPLEMENTARY PARTS 2 5. SUPPORT OF ELECTRONIC 3 COMPONENTS 1 6. COIL warp 7. INSURANCE 5 6 4 7CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  12. 12. 1. PARTS OF THE LOOM HAVE TO MATTCH EXACTLY ACCURATELY FOR ASSEMBLY. COMPLEMENTARY PARTS 5. SUPPORT OF ELECTRONIC COMPONENTSCLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  13. 13. 1. PARTS OF THE LOOM HAVE TO MATTCH EXACTLY ACCURATELY FOR ASSEMBLY. COMPLEMENTARY PARTS 5. SUPPORT OF ELECTRONIC COMPONENTS 7. INSURANCECLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  14. 14. 1. PARTS OF THE LOOM TO MATCH EXACTLY ARMAN. PARTIES AUXILARES 6. COIL warpCLASS 18:Project Development (May 23) 7. INSURANCE UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  15. 15. 1. PARTS OF THE LOOM HAVE TO MATTCH EXACTLY ACCURATELY FOR ASSEMBLY. COMPLEMENTARY PARTS 6. COIL warpCLASS 18:Project Development (May 23) 7. INSURANCE UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  16. 16. 1. PARTS OF THE LOOM HAVE TO MATTCH EXACTLY ACCURATELY FOR ASSEMBLY. 2. . COMPLEMENTARY PARTS 6. COIL warpCLASS 18:Project Development (May 23) 7. INSURANCE UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  17. 17. 1. PARTS OF THE LOOM HAVE TO MATTCH EXACTLY ACCURATELY FOR ASSEMBLY. 2. . A B C D COMPLEMENTARY PARTSCLASS 18:Project Development (May 23) 6.BOBINA of warp UNIVERSIDAD NACIONAL DE INGENIERÍA 7.SEGURO FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  18. 18. 2. MOBILE PARTS DESIGN PART MOBILE Ø10.5mm 5 1 2 3 4 Ø9.50mm 6 Ø8.50mm 7 TESTS OF MOVING PARTS CENTER PIVOT WITH VARIABLE 1. PIVOTING SQUARE 5.PIVOTANTE Ø 10.5 mm 2. PIVOT WITH 1 ARM 6.PIVOTANTE Ø 9.50 mm Ø8.00mm 3. PIVOT 2 ARMS Ø 8.50 mm 7.PIVOTANTE 4. CIRCULAR PIVOT 8. PIVOTING Ø 8.00 mm 8CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  19. 19. 2. DESIGN OF MOVING PARTS ¨A¨CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  20. 20. 2. DESIGN OF MOVING PARTS ¨B¨CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  21. 21. 2. DESIGN OF MOVING PARTS ¨C¨CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  22. 22. 2. DESIGN OF MOVING PARTS ¨D¨CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  23. 23. 2. DESIGN OF MOVING PARTS ¨E¨CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  24. 24. 3. ENSURE THE LOOM’S OPERATIONCLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  25. 25. 3. ENSURE THE LOOM’S OPERATION PROCESS IMPROVEMENT OPERATION TEST WITH CHILDRENCLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  26. 26. 4. VERIFY THE CORRECT SERVO MOTOR ASSEMBLY ONCE PLACED TO FOLLOW THE SYSTEM FUNCTIONING PROPERLY. • PUT THE MOTOR IN POSITION SERVO, verifing proper operationCLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  27. 27. 4.1VERIFY THE CORRECT SERVO MOTOR ASSEMBLY ONCE PLACED TO FOLLOW THE SYSTEM FUNCTIONING PROPERLY. 0 degrees, servo 90 degrees, servo Starting Position 90 Starting Position Front Front 0 transmission system to the servo thread (copper wire)View profile Posicion finalstarting position vista perfilCLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  28. 28. 5. CONTROL CIRCUIT DESIGN A. Atoms-MACHINE-SERVO MECHANISM-ELECTRONIC CIRCUITS B. BITS-SOFTWARE-CONTROL SOFTWARE DESIGN (GUI))CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  29. 29. 5. CONTROL CIRCUIT DESIGN A. Atoms-MACHINE-SERVO MECHANISM-ELECTRONIC CIRCUITSCLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  30. 30. 5. CONTROL CIRCUIT DESIGN B. This card uses C language to control the servo to rotate 180 degrees to move the rocker, using local components Parameter Name Value Pic16f628a-i/p Program Memory Type Flash Program Memory (KB) 3.5 CPU Speed (MIPS) 5 RAM Bytes 224 Data EEPROM (bytes) 128 Digital Communication Peripherals 1-A/E/USART, Capture/Compare/PWM Peripherals 1 CCP Timers 2 x 8-bit, 1 x 16-bit Comparators 2 Temperature Range (C) -40 to 125 Operating Voltage Range (V) 2 to 5.5 Pin Count 18CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  31. 31. 5. CONTROL CIRCUIT DESIGN B. BITS-SOFTWARE-CONTROL SOFTWARE DESIGN (GUI) S4 S3 S2 S1CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  32. 32. 5. CONTROL CIRCUIT DESIGN B. BITS-SOFTWARE-CONTROL SOFTWARE DESIGN (GUI) S4 S4 S3 S3 S2 S2 S1 S1 S4 S4 S3 S3 S2 S2 S1 S1CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  33. 33. imput: pulsador S4 S3 S2 Out serial S1 PC declare variables interface code to for the imput and create, compile out put Program to the code interface graphic simulation Control servo S4 S3 S2 S1 S4 S3 S2 S1 INTERFACE S4 S3 S2 S1 S4 S3 S2 S1 S4 S3 S2 S1 S4 S3 S2 S1CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  34. 34. 1. Tests were conducted I pressure system UP LEFT1 2 3 4 5 6CLASS 18:Project Development (May 23) 7 UNIVERSIDAD NACIONAL DE INGENIERÍA RIGHT FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  35. 35. UNIVERSIDAD NACIONAL DE INGENIERÍATOP VIEW FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  36. 36. PROFILE VIEW 1CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  37. 37. PROFILE VIEW 2CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  38. 38. UNIVERSIDAD NACIONAL DE INGENIERÍACLASS 18:Project Development (May 23) REAR VIEW FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  39. 39. BOARD BATTERY HOLDER DETAIL UNIVERSIDAD NACIONAL DE INGENIERÍACLASS 18:Project Development (May 23) FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  40. 40. SERVO MOUNT BOART DETALLE UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  41. 41. PRESS FIT JOINTS (DETAILS)CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  42. 42. CONCLUTIONS 1. The most difficult stage was to solve the mechanical device 2. Here is an example of the design 3. The main improvement was that now we do not need the axle for the thread for a larger piece 4. There is a manual mode by activating the switch 5. It has an electronic control system developed in with local components FAUA UNI-FAB LAB) PIC16F628A-I / P 6. It can be marketed making agreements with state and regional governments to popularize these technologies aplied to textiles, starting encouraging politicians to implement this work in all levels of education. This project was posible because all the suport given by the fabcomunity in Lima and abroad, The FAUA UNI specially MSc.Luis Delgado (dean), MSc. PATRICA CALDAS (INIFAUA ‘s director) and MSc. AURELIO PADILLA (rector).CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  43. 43. CLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES
  44. 44. THANKSCLASS 18:Project Development (May 23) UNIVERSIDAD NACIONAL DE INGENIERÍA FACULTAD DE ARQUITECTURA, URBANISMO Y ARTES

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