![](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAA6YAAAWxCAIAAAAK4xilAAAACXBIWXMAABYlAAAWJQFJUiTwAAAaVElEQVR42u3asUojaxjH4S/HCdqu1XY2ASvBIkRwioCIbYqp8vUWurCwF2Nl//VpLYQtphAsbPYCcg8pXLLyncIbOGc5x528PM8l/F9m/EUm1VoTMBi3t7dGiGez2RghnpubGyPEs1wujRDPfD5v3q9bSjEHDEHbtn6IhuSsnlZ2hSiKJ+f8lxUAAIhN8gIAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAgOQ1AQAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAMBHGtVaZ7PZeDy2BQzBwcHB6+urHYJ5eHi4urqyQzDb7dZfz3jOzs6enp7sEEzXdU1KaTKZlFLMAUPQtm3f93YIppTirJ5WdkLO2VlDntWHDQAABCd5AQCQvAAAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQCQvAAAIHkBAEDyAgDAn9OklKbTqSFgIE5PT9u2tUMw9/f3zhrPdrt11njOz8+dNZ6u65qU0vPzsy1gIF5eXvq+t0MwpRRnjadtW2eNJ+fsrCHP6sMGAACCk7wAAEheAACQvAAAIHkBAEDyAgCA5AUAAMkLAACSFwAAyQsAAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICACB5AQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAAEheAACQvAAAIHkBAEDyAgR2d3dnBNgJ6/XaCJIXAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAAEheAACQvAAAIHkBAEDyAgCA5AUAAMkLAACSFwAAyQsAAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAAEheAACQvAAAIHkBAEDyAgCA5AUAAMkLAACSFwAAyQsAAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAAEheAACQvAAAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAAEheAACQvAAAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAAEheAACQvAAAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQCQvAAAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQCQvAAAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQCQvAAAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQCQvAAAIHkBAEDyAgCA5AUAAMkLsPO+fPliBNgJR0dHRpC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAP/CZrM5PDy0AwzEdDo1Qjw/fvwwQjwnJydGiOf6+toI8VxeXo5qrYYAACAwHzYAACB5AQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAJC8AAEheAACQvAAAIHkBAEDyAgCA5AUAAMkLAIDkBQAAyQsAAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICACB5AQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAJC8AAEheAACQvAAAIHkBAEDyAgCA5AUAAMkLAIDkBQAAyQsAAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICACB5AQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAJC8AAEheAACQvAAAIHkBAODD1FqNEMxyuTRCJJ8/fzYCDNnXr1+NAEM2n8+b90IqpZgjEgeNZLFYrFYrO8Bg5Zz9/wgG/pD6sAEAgOAkLwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4TAAAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAADJCwCA5AUAAMkLAACSFwAAJC8AAHykUa11NpuNx2NbhDGfz79//26HMPb29t7e3uwQSa11NBrZIYyLi4vHx0c7hNE0za9fv+wQSdd1TUppMpmUUswRRs6573s7hLFYLFarlR3cFG9dPKH89kPqwwYAAIKTvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEA4M8Z1Vpns9l4PLZFGBcXF4+Pj3YIY29v7+3tzQ6R/Pz5c39/3w7eunjr8jG6rmtSSpPJpJRijjByzn3f2yGMxWKxWq3s4KZ46+IJ5bcfUh82AAAQnOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSl//Qer02AoC3LiB5AQCQvAAAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQCQvAAAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQCQvAAAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAgOQFAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQCQvAAAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAJLXBAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAAIHkBAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAAIHkBAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAAIHkBAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDymgAAAMkLAACSFwAAJC8AAEheAACQvAAAIHkBAEDyAgAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAADJCwAAkhcAAMkLAACSFwAAJC8AAEheAACQvAAAIHkBAEDyAgAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAADJCwAAkhcAAMkLAACSFwAAJC8AAEheAACQvAAAIHkBAEDyAgAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAADJCwAAkhcAAMkLAACSFwAAJC8AAEheAACQvAAAIHkBAEDyAgAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AAJC8AABIXgAAkLwAACB5AQBA8gIAgOQFAADJCwAAkhcAAMkLAACSFwAAJC8AAEheAACQvAAAIHkBAEDyAgAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AAJC8AABIXgAAkLwAACB5AQBA8gIAgOQFAADJCwAAkhcAAMkLAACSFwAAJC8AAEheAACQvAAAIHkBAEDyAgAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AAJC8AABIXgAAkLwAACB5AQBA8gIAgOQFAADJCwAAkhcAAMkLAACSFwAAJC8AAEheAACQvAAAIHkBAEDyAgCA5AUAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AAJC8AABIXgAAkLwAACB5AQBA8gIAgOQFAADJCwAAkhcAAMkLAACSFwAAJC8AAEheAACQvAAAIHkBAEDyAgCA5AUAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AAJC8AABIXgAAkLwAACB5AQBA8gIAgOQFAADJCwAAkhcAAMkLAACSFwAAJC8AAEheAACQvAAAIHkBAEDyAgCA5AUAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AAJC8AABIXgAAkLwAACB5AQBA8gIAgOQFAADJCwAAkhcAACQvAACSFwAAJC8AAEheAACQvAAAIHkBAEDyAgCA5AUAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AAJC8AABIXgAAkLwAACB5AQBA8gIAgOQFAADJCwAAkhcAACQvAACSFwAAJC8AAEheAACQvAAAIHkBAEDyAgCA5AUAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AAJC8AABIXgAAkLwAACB5AQBA8gIAgOQFAADJCwAAkhcAACQvAACSFwAAJC8AAEheAACQvAAAIHkBAEDyAgCA5AUAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AAJC8AABIXhMAACB5AQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAJC8AAEheAACQvAAAIHkBAEDyAgCA5AUAAMkLAIDkBQAAyQsAAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICACB5AQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAJC8AAEheAACQvAAAIHkBAEDyAgCA5AUAAMkLAIDkBQAAyQsAAJIXAAAkLwAASF4AAJC8AAAgeQEAQPICACB5AQBA8gIAgOQFAADJCwAAkhcAACQvAABIXgAAJC8AAEheBu/o6MgIAN66gOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAA/nebzebw8NAOkVxfXxshkuPjYyME8+nTJyNE8u3bNyN46zJkl5eXo1qrIQAACMyHDQAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAADJCwAAkhcAACQvAABIXgAA+DC1ViPAcNze3hohns1mY4R4bm5ujBDPcrk0Qjzz+bx5v24pxRwwBG3b+iEakrN6WtkVoiienLMPGwAACE7yAgAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAADJCwCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAAIHkBAEDyAgAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAADJCwCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAAIHkBAEDyAgAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAADJCwCA5DUBAACSFwAAJC8AAEheAACQvAAAIHkBAEDyAgCA5AUAQPICAIDkBQAAyQsAAJIXAAAkLwAASF4AAJC8AABIXgAAkLwAACB5AQBA8gIAwEca1Vpns9l4PLYFDMHBwcHr66sdgnl4eLi6urJDMNvt1l/PeM7Ozp6enuwQTNd1TUppMpmUUswBQ9C2bd/3dgimlOKsnlZ2Qs7ZWUOe1YcNAAAEJ3kBAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAAAkLwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAAIHkBAJC8AAAgeQEAQPICAMCf06SUptOpIWAgTk9P27a1QzD39/fOGs92u3XWeM7Pz501nq7rmpTS8/OzLWAgXl5e+r63QzClFGeNp21bZ40n5+ysIc/qwwYAAIKTvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQBA8gIAIHkBAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICBHZ3d2cE2Anr9doIkhcAACQvAABIXgAAkLwAACB5AQBA8gIAgOQFAEDyAgCA5AUAAMkLAACSFwAAJC8AAEheAACQvAAASF4AAJC8AAAgeQEAQPICAIDkBQAAyQsAAJIXAADJCwAAkhcAACQvAABIXgAAkLwAACB5AQDgn/sbgghFixL5tncAAAAASUVORK5CYII=)
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Rohrinnen-
durchmesser
Gebrauchsladung
– zulässige Höchstwerte –
Beschussladung
in mm in g in g
Böllerpulver Vorlage Pulver Schrot
30,0
60,0 20,0 60,0 300,0
35,0 80,0 20,0 80,0 400,0
40,0 100,0 25,0 100,0 500,0
45,0 120,0 25,0 120,0 630,0
50,0 150,0 30,0 150,0 750,0
60,0 200,0 30,0 200,0 850,0
70,0 260,0 35,0 260,0 950,0
80,0 330,0 35,0 330,0 1.100,0
90,0 400,0 40,0 400,0 1.200,0
2.2.5 Vorderlader – Böller – Kanonen
Rohrinnen-
durchmesser
Gebrauchsladung
– zulässige Höchstwerte –
Beschussladung
in mm in g in g
min. max. Böllerpulver Vorlage Pulver Schrot
7 8,9 3,0 2,0 3,0 10,0
9 10,9 4,0 2,0 4,0 15,0
11 11,9 6,0 3,0 6,0 20,0
12 12,9 7,0 3,0 7,0 25,0
13 13,9 8,0 4,0 8,0 30,0
14 14,9 10,0 5,0 10,0 40,0
15 15,9 11,0 5,0 11,0 45,0
16 16,9 13,0 6,0 13,0 50,0
17 17,9 14,0 6,0 14,0 55,0
18 18,9 16,0 7,0 16,0 65,0
19 19,9 18,0 8,0 18,0 70,0
20 21,9 20,0 9,0 20,0 80,0
22 24,9 24,0 10,0 24,0 95,0
25 29,9 30,0 12,0 30,0 120,0
30 34,9 45,0 15,0 45,0 175,0
35 39,9 60,0 20,0 60,0 240,0
40 44,9 80,0 22,0 80,0 310,0
45 49,9 100,0 25,0 100,0 400,0
50 59,9 125,0 30,0 125,0 500,0
60 69,9 180,0 34,0 180,0 710,0
70 79,9 240,0 38,0 240,0 960,0
80 89,9 320,0 45,0 320,0 1.250,0
90 99,9 410,0 45,0 410,0 1.600,0
100 119,9 500,0 50,0 500,0 1.950,0
120 150,0 600,0 50,0 600,0 2.500,0
2.2.6 Salutkanonen mit Kartuschen
Kartuschen
Außendurchmesser
Gebrauchsladung
– zulässige Höchstwerte –
Beschussladung
in mm in g in g
Böllerpulver Vorlage Pulver Schrot
18
5,0 5,0 5,0 50,0
23 15,0 8,0 15,0 70,0