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first_lay_cal.cpp

first_lay_cal.cpp 7.5 KB
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  1. //! @file
    2. 

  2. //! @date Jun 10, 2019
    3. 

  3. //! @author Marek Bel
    4. 

  4. //! @brief First layer (Z offset) calibration
    5. 

  5. 

  6. #include "first_lay_cal.h"
    7. 

  7. #include "Configuration_prusa.h"
    8. 

  8. #include "language.h"
    9. 

  9. #include "Marlin.h"
    10. 

  10. #include "cmdqueue.h"
    11. 

  11. #include "mmu.h"
    12. 

  12. #include <avr/pgmspace.h>
    13. 

  13. 

  14. //! @brief Wait for preheat
    15. 

  15. void lay1cal_wait_preheat()
    16. 

  16. {
    17. 

  17.     static const char cmd_preheat_0[] PROGMEM = "M107";
    18. 

  18.     static const char cmd_preheat_1[] PROGMEM = "M190";
    19. 

  19.     static const char cmd_preheat_2[] PROGMEM = "M109";
    20. 

  20.     static const char cmd_preheat_4[] PROGMEM = "G28";
    21. 

  21.     static const char cmd_preheat_5[] PROGMEM = "G92 E0.0";
    22. 

  22. 

  23.     const char * const preheat_cmd[] =
    24. 

  24.     {
    25. 

  25.         cmd_preheat_0,
    26. 

  26.         cmd_preheat_1,
    27. 

  27.         cmd_preheat_2,
    28. 

  28.         _T(MSG_M117_V2_CALIBRATION),
    29. 

  29.         cmd_preheat_4,
    30. 

  30.         cmd_preheat_5,
    31. 

  31.     };
    32. 

  32. 

  33.     for (uint8_t i = 0; i < (sizeof(preheat_cmd)/sizeof(preheat_cmd[0])); ++i)
    34. 

  34.     {
    35. 

  35.         enquecommand_P(preheat_cmd[i]);
    36. 

  36.     }
    37. 

  37. 

  38. }
    39. 

  39. 

  40. //! @brief Load filament
    41. 

  41. //! @param cmd_buffer character buffer needed to format gcodes
    42. 

  42. //! @param filament filament to use (applies for MMU only)
    43. 

  43. void lay1cal_load_filament(char *cmd_buffer, uint8_t filament)
    44. 

  44. {
    45. 

  45.     if (mmu_enabled)
    46. 

  46.     {
    47. 

  47.         enquecommand_P(PSTR("M83"));
    48. 

  48.         enquecommand_P(PSTR("G1 Y-3.0 F1000.0"));
    49. 

  49.         enquecommand_P(PSTR("G1 Z0.4 F1000.0"));
    50. 

  50.         sprintf_P(cmd_buffer, PSTR("T%d"), filament);
    51. 

  51.         enquecommand(cmd_buffer);
    52. 

  52.     }
    53. 

  53. 

  54. }
    55. 

  55. 

  56. //! @brief Print intro line
    57. 

  57. void lay1cal_intro_line()
    58. 

  58. {
    59. 

  59.     static const char cmd_intro_mmu_3[] PROGMEM = "G1 X55.0 E32.0 F1073.0";
    60. 

  60.     static const char cmd_intro_mmu_4[] PROGMEM = "G1 X5.0 E32.0 F1800.0";
    61. 

  61.     static const char cmd_intro_mmu_5[] PROGMEM = "G1 X55.0 E8.0 F2000.0";
    62. 

  62.     static const char cmd_intro_mmu_6[] PROGMEM = "G1 Z0.3 F1000.0";
    63. 

  63.     static const char cmd_intro_mmu_7[] PROGMEM = "G92 E0.0";
    64. 

  64.     static const char cmd_intro_mmu_8[] PROGMEM = "G1 X240.0 E25.0  F2200.0";
    65. 

  65.     static const char cmd_intro_mmu_9[] PROGMEM = "G1 Y-2.0 F1000.0";
    66. 

  66.     static const char cmd_intro_mmu_10[] PROGMEM = "G1 X55.0 E25 F1400.0";
    67. 

  67.     static const char cmd_intro_mmu_11[] PROGMEM = "G1 Z0.20 F1000.0";
    68. 

  68.     static const char cmd_intro_mmu_12[] PROGMEM = "G1 X5.0 E4.0 F1000.0";
    69. 

  69. 

  70.     static const char * const intro_mmu_cmd[] PROGMEM =
    71. 

  71.     {
    72. 

  72.         cmd_intro_mmu_3,
    73. 

  73.         cmd_intro_mmu_4,
    74. 

  74.         cmd_intro_mmu_5,
    75. 

  75.         cmd_intro_mmu_6,
    76. 

  76.         cmd_intro_mmu_7,
    77. 

  77.         cmd_intro_mmu_8,
    78. 

  78.         cmd_intro_mmu_9,
    79. 

  79.         cmd_intro_mmu_10,
    80. 

  80.         cmd_intro_mmu_11,
    81. 

  81.         cmd_intro_mmu_12,
    82. 

  82.     };
    83. 

  83. 

  84.     if (mmu_enabled)
    85. 

  85.     {
    86. 

  86.         for (uint8_t i = 0; i < (sizeof(intro_mmu_cmd)/sizeof(intro_mmu_cmd[0])); ++i)
    87. 

  87.         {
    88. 

  88.             enquecommand_P(static_cast<char*>(pgm_read_ptr(&intro_mmu_cmd[i])));
    89. 

  89.         }
    90. 

  90.     }
    91. 

  91.     else
    92. 

  92.     {
    93. 

  93.         enquecommand_P(PSTR("G1 X60.0 E9.0 F1000.0"));
    94. 

  94.         enquecommand_P(PSTR("G1 X100.0 E12.5 F1000.0"));
    95. 

  95.     }
    96. 

  96. }
    97. 

  97. 

  98. //! @brief Setup for printing meander
    99. 

  99. void lay1cal_before_meander()
    100. 

  100. {
    101. 

  101.     static const char cmd_pre_meander_0[] PROGMEM = "G92 E0.0";
    102. 

  102.     static const char cmd_pre_meander_1[] PROGMEM = "G21"; //set units to millimeters TODO unsupported command
    103. 

  103.     static const char cmd_pre_meander_2[] PROGMEM = "G90"; //use absolute coordinates
    104. 

  104.     static const char cmd_pre_meander_3[] PROGMEM = "M83"; //use relative distances for extrusion TODO: duplicate
    105. 

  105.     static const char cmd_pre_meander_4[] PROGMEM = "G1 E-1.50000 F2100.00000";
    106. 

  106.     static const char cmd_pre_meander_5[] PROGMEM = "G1 Z5 F7200.000";
    107. 

  107.     static const char cmd_pre_meander_6[] PROGMEM = "M204 S1000"; //set acceleration
    108. 

  108.     static const char cmd_pre_meander_7[] PROGMEM = "G1 F4000";
    109. 

  109. 

  110.     static const char * const cmd_pre_meander[] PROGMEM =
    111. 

  111.     {
    112. 

  112.             cmd_pre_meander_0,
    113. 

  113.             cmd_pre_meander_1,
    114. 

  114.             cmd_pre_meander_2,
    115. 

  115.             cmd_pre_meander_3,
    116. 

  116.             cmd_pre_meander_4,
    117. 

  117.             cmd_pre_meander_5,
    118. 

  118.             cmd_pre_meander_6,
    119. 

  119.             cmd_pre_meander_7,
    120. 

  120.     };
    121. 

  121. 

  122.     for (uint8_t i = 0; i < (sizeof(cmd_pre_meander)/sizeof(cmd_pre_meander[0])); ++i)
    123. 

  123.     {
    124. 

  124.         enquecommand_P(static_cast<char*>(pgm_read_ptr(&cmd_pre_meander[i])));
    125. 

  125.     }
    126. 

  126. }
    127. 

  127. 

  128. 

  129. //! @brief Count extrude length
    130. 

  130. //!
    131. 

  131. //! @param layer_height layer height in mm
    132. 

  132. //! @param extrusion_width extrusion width in mm
    133. 

  133. //! @param extrusion_length extrusion length in mm
    134. 

  134. //! @return filament length in mm which needs to be extruded to form line
    135. 

  135. static constexpr float count_e(float layer_height, float extrusion_width, float extrusion_length)
    136. 

  136. {
    137. 

  137.     return (extrusion_length * layer_height * extrusion_width / (M_PI * pow(1.75, 2) / 4));
    138. 

  138. }
    139. 

  139. 

  140. static const float width = 0.4; //!< line width
    141. 

  141. static const float length = 20 - width; //!< line length
    142. 

  142. static const float height = 0.2; //!< layer height TODO This is wrong, as current Z height is 0.15 mm
    143. 

  143. static const float extr = count_e(height, width, length); //!< E axis movement needed to print line
    144. 

  144. 

  145. //! @brief Print meander
    146. 

  146. //! @param cmd_buffer character buffer needed to format gcodes
    147. 

  147. void lay1cal_meander(char *cmd_buffer)
    148. 

  148. {
    149. 

  149.     static const char cmd_meander_0[] PROGMEM = "G1 X50 Y155";
    150. 

  150.     static const char cmd_meander_1[] PROGMEM = "G1 Z0.150 F7200.000";
    151. 

  151.     static const char cmd_meander_2[] PROGMEM = "G1 F1080";
    152. 

  152.     static const char cmd_meander_3[] PROGMEM = "G1 X75 Y155 E2.5";
    153. 

  153.     static const char cmd_meander_4[] PROGMEM = "G1 X100 Y155 E2";
    154. 

  154.     static const char cmd_meander_5[] PROGMEM = "G1 X200 Y155 E2.62773";
    155. 

  155.     static const char cmd_meander_6[] PROGMEM = "G1 X200 Y135 E0.66174";
    156. 

  156.     static const char cmd_meander_7[] PROGMEM = "G1 X50 Y135 E3.62773";
    157. 

  157.     static const char cmd_meander_8[] PROGMEM = "G1 X50 Y115 E0.49386";
    158. 

  158.     static const char cmd_meander_9[] PROGMEM = "G1 X200 Y115 E3.62773";
    159. 

  159.     static const char cmd_meander_10[] PROGMEM = "G1 X200 Y95 E0.49386";
    160. 

  160.     static const char cmd_meander_11[] PROGMEM = "G1 X50 Y95 E3.62773";
    161. 

  161.     static const char cmd_meander_12[] PROGMEM = "G1 X50 Y75 E0.49386";
    162. 

  162.     static const char cmd_meander_13[] PROGMEM = "G1 X200 Y75 E3.62773";
    163. 

  163.     static const char cmd_meander_14[] PROGMEM = "G1 X200 Y55 E0.49386";
    164. 

  164.     static const char cmd_meander_15[] PROGMEM = "G1 X50 Y55 E3.62773";
    165. 

  165. 

  166.     static const char * const cmd_meander[] PROGMEM =
    167. 

  167.     {
    168. 

  168.         cmd_meander_0,
    169. 

  169.         cmd_meander_1,
    170. 

  170.         cmd_meander_2,
    171. 

  171.         cmd_meander_3,
    172. 

  172.         cmd_meander_4,
    173. 

  173.         cmd_meander_5,
    174. 

  174.         cmd_meander_6,
    175. 

  175.         cmd_meander_7,
    176. 

  176.         cmd_meander_8,
    177. 

  177.         cmd_meander_9,
    178. 

  178.         cmd_meander_10,
    179. 

  179.         cmd_meander_11,
    180. 

  180.         cmd_meander_12,
    181. 

  181.         cmd_meander_13,
    182. 

  182.         cmd_meander_14,
    183. 

  183.         cmd_meander_15,
    184. 

  184.     };
    185. 

  185. 

  186.     for (uint8_t i = 0; i < (sizeof(cmd_meander)/sizeof(cmd_meander[0])); ++i)
    187. 

  187.     {
    188. 

  188.         enquecommand_P(static_cast<char*>(pgm_read_ptr(&cmd_meander[i])));
    189. 

  189.     }
    190. 

  190.     sprintf_P(cmd_buffer, PSTR("G1 X50 Y35 E%-.3f"), extr);
    191. 

  191.     enquecommand(cmd_buffer);
    192. 

  192. }
    193. 

  193. 

  194. //! @brief Print square
    195. 

  195. //!
    196. 

  196. //! This function needs to be called 16 times for i from 0 to 15.
    197. 

  197. //!
    198. 

  198. //! @param cmd_buffer character buffer needed to format gcodes
    199. 

  199. //! @param i iteration
    200. 

  200. void lay1cal_square(char *cmd_buffer, uint8_t i)
    201. 

  201. {
    202. 

  202.     const float extr_short_segment = count_e(height, width, width);
    203. 

  203. 

  204.     static const char fmt1[] PROGMEM = "G1 X%d Y%-.2f E%-.3f";
    205. 

  205.     static const char fmt2[] PROGMEM = "G1 Y%-.2f E%-.3f";
    206. 

  206.     sprintf_P(cmd_buffer, fmt1, 70, (35 - i*width * 2), extr);
    207. 

  207.     enquecommand(cmd_buffer);
    208. 

  208.     sprintf_P(cmd_buffer, fmt2, (35 - (2 * i + 1)*width), extr_short_segment);
    209. 

  209.     enquecommand(cmd_buffer);
    210. 

  210.     sprintf_P(cmd_buffer, fmt1, 50, (35 - (2 * i + 1)*width), extr);
    211. 

  211.     enquecommand(cmd_buffer);
    212. 

  212.     sprintf_P(cmd_buffer, fmt2, (35 - (i + 1)*width * 2), extr_short_segment);
    213. 

  213.     enquecommand(cmd_buffer);
    214. 

  214. }
    215.