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hu/Bed_Mesh.html
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hu/Bed_Mesh.html
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</li>
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<li class="md-nav__item">
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<a href="#surface-scans" class="md-nav__link">
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Surface Scans
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<a href="#feluleti-meresek" class="md-nav__link">
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FelĂŒleti mĂ©rĂ©sek
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</a>
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<nav class="md-nav" aria-label="Surface Scans">
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<nav class="md-nav" aria-label="FelĂŒleti mĂ©rĂ©sek">
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<ul class="md-nav__list">
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<li class="md-nav__item">
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<a href="#scan-height" class="md-nav__link">
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Scan Height
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<a href="#meresi-magassag" class="md-nav__link">
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Mérési magassåg
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</a>
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</li>
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<li class="md-nav__item">
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<a href="#rapid-continuous-scanning" class="md-nav__link">
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Rapid (Continuous) Scanning
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<a href="#gyors-folyamatos-meres" class="md-nav__link">
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Gyors (folyamatos) mérés
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</a>
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<a href="#bed-mesh-webhooks-apis" class="md-nav__link">
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Bed Mesh Webhooks APIs
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<a href="#agy-halo-webhooks-api-k" class="md-nav__link">
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Ăgy hĂĄlĂł Webhooks API-k
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</a>
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<nav class="md-nav" aria-label="Bed Mesh Webhooks APIs">
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<nav class="md-nav" aria-label="Ăgy hĂĄlĂł Webhooks API-k">
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<ul class="md-nav__list">
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<li class="md-nav__item">
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<a href="#dumping-mesh-data" class="md-nav__link">
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Dumping mesh data
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<a href="#haloadatok-kiuritese" class="md-nav__link">
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HĂĄlĂładatok kiĂŒrĂtĂ©se
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</a>
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</li>
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<li class="md-nav__item">
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<a href="#visualization-and-analysis" class="md-nav__link">
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Visualization and analysis
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<a href="#vizualizacio-es-elemzes" class="md-nav__link">
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Vizualizåció és elemzés
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</a>
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<nav class="md-nav" aria-label="Visualization and analysis">
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<nav class="md-nav" aria-label="Vizualizåció és elemzés">
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<ul class="md-nav__list">
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<li class="md-nav__item">
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<a href="#pre-requisites" class="md-nav__link">
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Pre-requisites
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<a href="#elofeltetelek" class="md-nav__link">
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ElĆfeltĂ©telek
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</a>
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</li>
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<li class="md-nav__item">
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<a href="#plotting-mesh-data" class="md-nav__link">
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Plotting Mesh data
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<a href="#haloadatok-abrazolasa" class="md-nav__link">
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HĂĄlĂładatok ĂĄbrĂĄzolĂĄsa
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</a>
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</li>
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<li class="md-nav__item">
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<a href="#bed-mesh-analysis" class="md-nav__link">
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Bed Mesh Analysis
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<a href="#agy-halo-elemzes" class="md-nav__link">
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Ăgy hĂĄlĂł elemzĂ©s
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</a>
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</li>
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<li class="md-nav__item">
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<a href="#save-mesh-data-to-a-file" class="md-nav__link">
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Save mesh data to a file
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<a href="#a-haloadatok-mentese-fajlba" class="md-nav__link">
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A hålóadatok mentése fåjlba
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</a>
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</li>
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</li>
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<li class="md-nav__item">
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<a href="#surface-scans" class="md-nav__link">
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Surface Scans
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<a href="#feluleti-meresek" class="md-nav__link">
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FelĂŒleti mĂ©rĂ©sek
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</a>
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<nav class="md-nav" aria-label="Surface Scans">
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<nav class="md-nav" aria-label="FelĂŒleti mĂ©rĂ©sek">
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<ul class="md-nav__list">
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<li class="md-nav__item">
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<a href="#scan-height" class="md-nav__link">
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Scan Height
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<a href="#meresi-magassag" class="md-nav__link">
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Mérési magassåg
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</a>
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</li>
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<li class="md-nav__item">
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<a href="#rapid-continuous-scanning" class="md-nav__link">
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Rapid (Continuous) Scanning
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<a href="#gyors-folyamatos-meres" class="md-nav__link">
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Gyors (folyamatos) mérés
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</a>
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</li>
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</li>
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<li class="md-nav__item">
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<a href="#bed-mesh-webhooks-apis" class="md-nav__link">
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Bed Mesh Webhooks APIs
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<a href="#agy-halo-webhooks-api-k" class="md-nav__link">
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Ăgy hĂĄlĂł Webhooks API-k
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</a>
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<nav class="md-nav" aria-label="Bed Mesh Webhooks APIs">
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<nav class="md-nav" aria-label="Ăgy hĂĄlĂł Webhooks API-k">
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<ul class="md-nav__list">
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<li class="md-nav__item">
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<a href="#dumping-mesh-data" class="md-nav__link">
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Dumping mesh data
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<a href="#haloadatok-kiuritese" class="md-nav__link">
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HĂĄlĂładatok kiĂŒrĂtĂ©se
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</a>
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</li>
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@@ -1813,37 +1813,37 @@
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</li>
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<li class="md-nav__item">
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<a href="#visualization-and-analysis" class="md-nav__link">
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Visualization and analysis
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<a href="#vizualizacio-es-elemzes" class="md-nav__link">
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Vizualizåció és elemzés
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</a>
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<nav class="md-nav" aria-label="Visualization and analysis">
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<nav class="md-nav" aria-label="Vizualizåció és elemzés">
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<ul class="md-nav__list">
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<li class="md-nav__item">
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<a href="#pre-requisites" class="md-nav__link">
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Pre-requisites
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<a href="#elofeltetelek" class="md-nav__link">
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ElĆfeltĂ©telek
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</a>
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</li>
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<li class="md-nav__item">
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<a href="#plotting-mesh-data" class="md-nav__link">
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Plotting Mesh data
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<a href="#haloadatok-abrazolasa" class="md-nav__link">
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HĂĄlĂładatok ĂĄbrĂĄzolĂĄsa
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</a>
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</li>
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<li class="md-nav__item">
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<a href="#bed-mesh-analysis" class="md-nav__link">
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Bed Mesh Analysis
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<a href="#agy-halo-elemzes" class="md-nav__link">
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Ăgy hĂĄlĂł elemzĂ©s
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</a>
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</li>
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<li class="md-nav__item">
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<a href="#save-mesh-data-to-a-file" class="md-nav__link">
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Save mesh data to a file
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<a href="#a-haloadatok-mentese-fajlba" class="md-nav__link">
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A hålóadatok mentése fåjlba
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</a>
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</li>
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@@ -1888,7 +1888,7 @@ probe_count: 5, 3
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<li><code>speed: 120</code> * Alapértelmezett érték: 50* A sebesség, amellyel a fej a pontok között mozog.</li>
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<li><code>horizontal_move_z: 5</code> <em>AlapĂ©rtelmezett Ă©rtĂ©k: 5</em> A Z koordinĂĄta, amelyre a szonda a mĂ©rĆpontok közötti utazĂĄs elĆtt emelkedik.</li>
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<li><code>mesh_min: 35, 6</code> <em>AjĂĄnlott</em> Az elsĆ, az origĂłhoz legközelebbi koordinĂĄta. Ez a koordinĂĄta a szonda helyĂ©hez kĂ©pest relatĂv.</li>
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<li><code>mesh_max: 240, 198</code> <em>Required</em> The probed coordinate farthest from the origin. This is not necessarily the last point probed, as the probing process occurs in a zig-zag fashion. As with <code>mesh_min</code>, this coordinate is relative to the probe's location.</li>
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<li><code>mesh_max: 240, 198</code> <em>AjĂĄnlott</em> Az origĂłtĂłl legtĂĄvolabb esĆ koordinĂĄta. Ez nem feltĂ©tlenĂŒl az utolsĂł mĂ©rt pont, mivel a mĂ©rĂ©s cikcakkos mĂłdon törtĂ©nik. A <code>mesh_min</code> koordinĂĄtĂĄhoz hasonlĂłan ez a koordinĂĄta is a szonda helyĂ©hez kĂ©pest relatĂv.</li>
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<li><code>probe_count: 5, 3</code> <em>AlapĂ©rtelmezett Ă©rtĂ©k: 3,3</em> Az egyes tengelyeken mĂ©rendĆ pontok szĂĄma, X, Y egĂ©sz Ă©rtĂ©kben megadva. Ebben a pĂ©ldĂĄban az X tengely mentĂ©n 5 pont lesz mĂ©rve, az Y tengely mentĂ©n 3 pont, összesen 15 mĂ©rt pont. Vedd figyelembe, hogy ha nĂ©gyzetrĂĄcsot szeretnĂ©l, pĂ©ldĂĄul 3x3, akkor ezt egyetlen egĂ©sz szĂĄmĂ©rtĂ©kkĂ©nt is megadhatod, amelyet mindkĂ©t tengelyre hasznĂĄlsz, azaz <code>probe_count: 3</code>. Vedd figyelembe, hogy egy hĂĄlĂłhoz mindkĂ©t tengely mentĂ©n legalĂĄbb 3 darab mĂ©rĂ©si szĂĄmra van szĂŒksĂ©g.</li>
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</ul>
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<p>Az alĂĄbbi ĂĄbra azt mutatja, hogy a <code>mesh_min</code>, <code>mesh_max</code> Ă©s <code>probe_count</code> opciĂłk hogyan hasznĂĄlhatĂłk a mĂ©rĆpontok lĂ©trehozĂĄsĂĄra. A nyilak jelzik a mĂ©rĂ©si eljĂĄrĂĄs irĂĄnyĂĄt, kezdve a <code>mesh_min</code> ponttĂłl. HivatkozĂĄskĂ©ppen, amikor a szonda a <code>mesh_min</code> pontnĂĄl van, a fĂșvĂłka a (11, 1) pontnĂĄl lesz, Ă©s amikor a szonda a <code>mesh_max</code> pontnĂĄl van, a fĂșvĂłka a (206, 193) pontnĂĄl lesz.</p>
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</ul>
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<p>Az adaptĂv ĂĄgyrĂĄcsok termĂ©szetĂŒknĂ©l fogva a nyomtatĂĄs alatt ĂĄllĂł G-KĂłd fĂĄjlban meghatĂĄrozott objektumokat hasznĂĄljĂĄk. EzĂ©rt vĂĄrhatĂł, hogy minden egyes G-KĂłd fĂĄjl olyan hĂĄlĂłt generĂĄl, amely a nyomtatóågy kĂŒlönbözĆ terĂŒletĂ©t vizsgĂĄlja. EzĂ©rt az adaptĂv ĂĄgyhĂĄlĂłt nem szabad Ășjra felhasznĂĄlni. Az adaptĂv hĂĄlĂłzĂĄs hasznĂĄlata esetĂ©n elvĂĄrĂĄs, hogy minden egyes nyomtatĂĄshoz Ășj hĂĄlĂłt generĂĄljon.</p>
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<p>Azt is fontos figyelembe venni, hogy az adaptĂv ĂĄgyhĂĄlĂłzĂĄst olyan gĂ©peken lehet a legjobban alkalmazni, amelyek ĂĄltalĂĄban a teljes ĂĄgyat meg tudjĂĄk tapogatni, Ă©s 1 rĂ©tegmagassĂĄgnĂĄl kisebb vagy azzal egyenlĆ maximĂĄlis eltĂ©rĂ©st Ă©rnek el. Az olyan mechanikai problĂ©mĂĄkkal kĂŒzdĆ gĂ©pek, amelyeket a teljes ĂĄgyhĂĄlĂł ĂĄltalĂĄban kompenzĂĄl, nemkĂvĂĄnatos eredmĂ©nyeket hozhatnak, amikor a nyomtatĂĄsi mozgĂĄsokat a szondĂĄzott terĂŒleten <strong>kĂvĂŒl</strong> prĂłbĂĄljĂĄk vĂ©grehajtani. Ha a teljes ĂĄgyhĂĄlĂł eltĂ©rĂ©se nagyobb, mint 1 rĂ©tegmagassĂĄg, akkor Ăłvatosan kell eljĂĄrni, amikor adaptĂv ĂĄgyhĂĄlĂłt hasznĂĄlunk, Ă©s a hĂĄlĂłzott terĂŒleten kĂvĂŒli nyomtatĂĄsi mozgĂĄsokat kĂsĂ©relĂŒnk meg.</p>
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<h2 id="surface-scans">Surface Scans<a class="headerlink" href="#surface-scans" title="Permanent link">¶</a></h2>
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<p>Some probes, such as the <a href="Eddy_Probe.html">Eddy Current Probe</a>, are capable of "scanning" the surface of the bed. That is, these probes can sample a mesh without lifting the tool between samples. To activate scanning mode, the <code>METHOD=scan</code> or <code>METHOD=rapid_scan</code> probe parameter should be passed in the <code>BED_MESH_CALIBRATE</code> gcode command.</p>
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<h3 id="scan-height">Scan Height<a class="headerlink" href="#scan-height" title="Permanent link">¶</a></h3>
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<p>The scan height is set by the <code>horizontal_move_z</code> option in <code>[bed_mesh]</code>. In addition it can be supplied with the <code>BED_MESH_CALIBRATE</code> gcode command via the <code>HORIZONTAL_MOVE_Z</code> parameter.</p>
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<p>The scan height must be sufficiently low to avoid scanning errors. Typically a height of 2mm (ie: <code>HORIZONTAL_MOVE_Z=2</code>) should work well, presuming that the probe is mounted correctly.</p>
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<p>It should be noted that if the probe is more than 4mm above the surface then the results will be invalid. Thus, scanning is not possible on beds with severe surface deviation or beds with extreme tilt that hasn't been corrected.</p>
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<h3 id="rapid-continuous-scanning">Rapid (Continuous) Scanning<a class="headerlink" href="#rapid-continuous-scanning" title="Permanent link">¶</a></h3>
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<p>When performing a <code>rapid_scan</code> one should keep in mind that the results will have some amount of error. This error should be low enough to be useful on large print areas with reasonably thick layer heights. Some probes may be more prone to error than others.</p>
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<p>It is not recommended that rapid mode be used to scan a "dense" mesh. Some of the error introduced during a rapid scan may be gaussian noise from the sensor, and a dense mesh will reflect this noise (ie: there will be peaks and valleys).</p>
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<p>Bed Mesh will attempt to optimize the travel path to provide the best possible result based on the configuration. This includes avoiding faulty regions when collecting samples and "overshooting" the mesh when changing direction. This overshoot improves sampling at the edges of a mesh, however it requires that the mesh be configured in a way that allows the tool to travel outside of the mesh.</p>
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<h2 id="feluleti-meresek">FelĂŒleti mĂ©rĂ©sek<a class="headerlink" href="#feluleti-meresek" title="Permanent link">¶</a></h2>
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<p>Egyes szondĂĄk, mint pĂ©ldĂĄul az <a href="Eddy_Probe.html">ĂrvĂ©nyĂĄramĂș szonda</a>, kĂ©pesek az ĂĄgy felĂŒletĂ©nek "letapogatĂĄsĂĄra". Azaz ezek a szondĂĄk anĂ©lkĂŒl kĂ©pesek hĂĄlĂł mintĂĄt kĂ©szĂteni, hogy a fejet a mintĂĄk között felemelnĂ©k. A pĂĄsztĂĄzĂł ĂŒzemmĂłd aktivĂĄlĂĄsĂĄhoz a <code>METHOD=scan</code> vagy <code>METHOD=rapid_scan</code> szonda paramĂ©tert kell ĂĄtadni a <code>BED_MESH_CALIBRATE</code> G-kĂłd parancsban.</p>
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<h3 id="meresi-magassag">MĂ©rĂ©si magassĂĄg<a class="headerlink" href="#meresi-magassag" title="Permanent link">¶</a></h3>
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<p>A pĂĄsztĂĄzĂĄsi magassĂĄgot a <code>[bed_mesh]-ben a</code>horizontal_move_z<code>opciĂł hatĂĄrozza meg. EzenkĂvĂŒl a</code>BED_MESH_CALIBRATE<code>G-kĂłd parancs a</code>HORIZONTAL_MOVE_Z` paramĂ©teren keresztĂŒl is megadhatĂł.</p>
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<p>A mĂ©rĂ©si magassĂĄgnak kellĆen alacsonynak kell lennie a beolvasĂĄsi hibĂĄk elkerĂŒlĂ©se Ă©rdekĂ©ben. ĂltalĂĄban 2 mm-es magassĂĄg (azaz: <code>HORIZONTAL_MOVE_Z=2</code>) jĂłl mƱködik, feltĂ©ve, hogy a szonda megfelelĆen van felszerelve.</p>
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<p>Meg kell jegyezni, hogy ha a szonda több mint 4 mm-rel a felszĂn felett van, akkor az eredmĂ©nyek Ă©rvĂ©nytelenek lesznek. Ăgy a mĂ©rĂ©s nem lehetsĂ©ges olyan ĂĄgyaknĂĄl, ahol a felĂŒlet nagymĂ©rtĂ©kben eltĂ©rĆ vagy extrĂ©m dĆlĂ©sszögƱ, amelyeket nem korrigĂĄltak.</p>
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<h3 id="gyors-folyamatos-meres">Gyors (folyamatos) mĂ©rĂ©s<a class="headerlink" href="#gyors-folyamatos-meres" title="Permanent link">¶</a></h3>
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<p>A <code>rapid_scan</code> elvĂ©gzĂ©sekor szem elĆtt kell tartani, hogy az eredmĂ©nyek nĂ©mi hibĂĄval fognak rendelkezni. Ennek a hibĂĄnak elĂ©g alacsonynak kell lennie ahhoz, hogy nagy nyomtatĂĄsi terĂŒleteken, viszonylag vastag rĂ©tegmagassĂĄggal hasznos legyen. Egyes szondĂĄk hajlamosabbak lehetnek a hibĂĄra, mint mĂĄsok.</p>
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<p>Nem ajĂĄnlott a gyors ĂŒzemmĂłd hasznĂĄlata "sƱrƱ" hĂĄlĂł beolvasĂĄsĂĄra. A gyors pĂĄsztĂĄzĂĄs sorĂĄn keletkezĆ hiba egy rĂ©sze az Ă©rzĂ©kelĆ gauss-zajĂĄbĂłl szĂĄrmazhat, Ă©s a sƱrƱ hĂĄlĂł ezt a zajt fogja tĂŒkrözni (azaz: lesznek csĂșcsok Ă©s völgyek).</p>
|
||||
<p>Az Ăgy hĂĄlĂł megprĂłbĂĄlja optimalizĂĄlni az Ăștvonalat, hogy a konfigurĂĄciĂł alapjĂĄn a lehetĆ legjobb eredmĂ©nyt Ă©rje el. Ez magĂĄban foglalja a hibĂĄs rĂ©giĂłk elkerĂŒlĂ©sĂ©t a mintĂĄk gyƱjtĂ©sekor Ă©s a hĂĄlĂł "tĂșllövĂ©sĂ©t" irĂĄnyvĂĄltĂĄskor. Ez a tĂșllövĂ©s javĂtja a mintavĂ©telt a hĂĄlĂł szĂ©leinĂ©l, azonban megköveteli, hogy a hĂĄlĂłt Ășgy konfigurĂĄljĂĄk, hogy a szerszĂĄm a hĂĄlĂłn kĂvĂŒlre kerĂŒljön.</p>
|
||||
<div class="highlight"><pre><span></span><code>[bed_mesh]
|
||||
speed: 120
|
||||
horizontal_move_z: 5
|
||||
@@ -2062,21 +2062,21 @@ scan_overshoot: 8
|
||||
</code></pre></div>
|
||||
|
||||
<ul>
|
||||
<li><code>scan_overshoot</code> <em>Default Value: 0 (disabled)</em> The maximum amount of travel (in mm) available outside of the mesh. For rectangular beds this applies to travel on the X axis, and for round beds it applies to the entire radius. The tool must be able to travel the amount specified outside of the mesh. This value is used to optimize the travel path when performing a "rapid scan". The minimum value that may be specified is 1. The default is no overshoot.</li>
|
||||
<li><code>scan_overshoot</code> <em>AlapĂ©rtelmezett Ă©rtĂ©k: 0 (letiltva)</em> A hĂĄlĂłn kĂvĂŒl rendelkezĂ©sre ĂĄllĂł maximĂĄlis elmozdulĂĄs (mm-ben). TĂ©glalap alakĂș ĂĄgyak esetĂ©n ez az X tengelyen törtĂ©nĆ mozgĂĄsra vonatkozik, kerek ĂĄgyak esetĂ©n pedig a teljes sugĂĄrra. A fejnek kĂ©pesnek kell lennie a megadott mĂ©rtĂ©kƱ mozgĂĄsra a hĂĄlĂłmezĆn kĂvĂŒl. Ez az Ă©rtĂ©k a "gyors mĂ©rĂ©s" vĂ©grehajtĂĄsa sorĂĄn a mozgĂĄsi Ăștvonal optimalizĂĄlĂĄsĂĄra szolgĂĄl. A minimĂĄlisan megadhatĂł Ă©rtĂ©k 1. Az alapĂ©rtelmezett Ă©rtĂ©k a tĂșllövĂ©s hiĂĄnya.</li>
|
||||
</ul>
|
||||
<p>If no scan overshoot is configured then travel path optimization will not be applied to changes in direction.</p>
|
||||
<p>Ha nincs beĂĄllĂtva mĂ©rĂ©si tĂșllövĂ©s, akkor az Ăștvonal-optimalizĂĄlĂĄs nem kerĂŒl alkalmazĂĄsra az irĂĄnyvĂĄltozĂĄsokkor.</p>
|
||||
<h2 id="targyasztal-halo-g-kodok">TĂĄrgyasztal hĂĄlĂł G-kĂłdok<a class="headerlink" href="#targyasztal-halo-g-kodok" title="Permanent link">¶</a></h2>
|
||||
<h3 id="kalibracio">KalibrĂĄciĂł<a class="headerlink" href="#kalibracio" title="Permanent link">¶</a></h3>
|
||||
<p><code>BED_MESH_CALIBRATE PROFILE=<name> METHOD=[manual | automatic | scan | rapid_scan] \ [<probe_parameter>=<value>] [<mesh_parameter>=<value>] [ADAPTIVE=[0|1] \ [ADAPTIVE_MARGIN=<value>]</code> <em>Default Profile: default</em> <em>Default Method: automatic if a probe is detected, otherwise manual</em> <em>Default Adaptive: 0</em> <em>Default Adaptive Margin: 0</em></p>
|
||||
<p><code>BED_MESH_CALIBRATE PROFILE=<name> METHOD=[manual | automatic | scan | rapid_scan] \ [<probe_parameter>=<value>] [<mesh_parameter>=<value>] [ADAPTIVE=[0|1] \ [ADAPTIVE_MARGIN=<value>]</code> <em>AlapĂ©rtelmezett profil: alapĂ©rtelmezett</em> <em>AlapĂ©rtelmezett mĂłdszer: automatikus, ha szondĂĄt Ă©szlel, egyĂ©bkĂ©nt manuĂĄlis</em> <em>AlapĂ©rtelmezett adaptĂv: 0</em> <em>AlapĂ©rtelmezett adaptĂv margĂł: 0</em></p>
|
||||
<p>MĂ©rĂ©si eljĂĄrĂĄst indĂtĂĄsa a tĂĄrgyasztal hĂĄlĂł kalibrĂĄlĂĄsĂĄhoz.</p>
|
||||
<p>The mesh will be saved into a profile specified by the <code>PROFILE</code> parameter, or <code>default</code> if unspecified. The <code>METHOD</code> parameter takes one of the following values:</p>
|
||||
<p>A hĂĄlĂł a <code>PROFILE</code> paramĂ©ter ĂĄltal megadott profilba lesz mentve, vagy a <code>default</code>, ha nincs megadva. A <code>METHOD</code> paramĂ©ter a következĆ Ă©rtĂ©kek egyikĂ©t veszi fel:</p>
|
||||
<ul>
|
||||
<li><code>METHOD=manual</code>: enables manual probing using the nozzle and the paper test</li>
|
||||
<li><code>METHOD=automatic</code>: Automatic (standard) probing. This is the default.</li>
|
||||
<li><code>METHOD=scan</code>: Enables surface scanning. The tool will pause over each position to collect a sample.</li>
|
||||
<li><code>METHOD=rapid_scan</code>: Enables continuous surface scanning.</li>
|
||||
<li><code>METHOD=manual</code>: lehetĆvĂ© teszi a kĂ©zi mĂ©rĂ©st a fĂșvĂłkĂĄval Ă©s a papĂrlappal</li>
|
||||
<li><code>METHOD=automatic</code>: Automatikus (szabvåny) mérés. Ez az alapértelmezett.</li>
|
||||
<li><code>METHOD=scan</code>: EngedĂ©lyezi a felĂŒleti mĂ©rĂ©st. A fej minden egyes pozĂciĂł felett megĂĄll, hogy mĂ©rĂ©st vĂ©gezzen.</li>
|
||||
<li><code>METHOD=rapid_scan</code>: EngedĂ©lyezi a folyamatos felĂŒleti mĂ©rĂ©st.</li>
|
||||
</ul>
|
||||
<p>XY positions are automatically adjusted to include the X and/or Y offsets when a probing method other than <code>manual</code> is selected.</p>
|
||||
<p>Az XY pozĂciĂłk automatikusan beĂĄllĂtĂłdnak az X Ă©s Y eltolĂĄsok figyelembevĂ©telĂ©vel, ha a <code>kĂ©zi</code>-tĆl eltĂ©rĆ mĂ©rĂ©si mĂłdszert vĂĄlasztunk.</p>
|
||||
<p>LehetĆsĂ©g van hĂĄlĂłparamĂ©terek megadĂĄsĂĄra a mĂ©rt terĂŒlet mĂłdosĂtĂĄsĂĄra. A következĆ paramĂ©terek ĂĄllnak rendelkezĂ©sre:</p>
|
||||
<ul>
|
||||
<li>TĂ©glalap alakĂș tĂĄrgyasztalok (cartesian):<ul>
|
||||
@@ -2147,117 +2147,117 @@ scan_overshoot: 8
|
||||
<p><code>BED_MESH_OFFSET [X=<value>] [Y=<value>] [ZFADE=<value>]</code></p>
|
||||
<p>Ez több fĂŒggetlen extruderrel rendelkezĆ nyomtatĂłknĂĄl hasznos, mivel a szerszĂĄmcsere utĂĄni helyes Z-beĂĄllĂtĂĄshoz szĂŒksĂ©g van egy eltolĂĄsra. Az eltolĂĄsokat az elsĆdleges extruderhez kĂ©pest kell megadni. Vagyis pozitĂv X eltolĂĄst kell megadni, ha a mĂĄsodlagos extruder az elsĆdleges extruder jobb oldalĂĄn van felszerelve, pozitĂv Y eltolĂĄst kell megadni, ha a mĂĄsodlagos extruder az elsĆdleges extruder "mögött" van felszerelve, Ă©s pozitĂv ZFADE eltolĂĄst kell megadni, ha a mĂĄsodlagos extruder fĂșvĂłkĂĄja az elsĆdleges extruder fĂșvĂłkĂĄja felett van.</p>
|
||||
<p>Vedd figyelembe, hogy a ZFADE eltolĂĄs <em>NEM</em> alkalmaz közvetlenĂŒl tovĂĄbbi beĂĄllĂtĂĄsokat. Ez a <code>gcode offset</code> kompenzĂĄlĂĄsĂĄra szolgĂĄl, amikor a <a href="#mesh-fade">mesh fade</a> engedĂ©lyezve van. PĂ©ldĂĄul, ha egy mĂĄsodlagos extruder magasabb, mint az elsĆdleges, Ă©s negatĂv G-KĂłd eltolĂĄsra van szĂŒksĂ©ge, azaz: <code>SET_GCODE_OFFSET Z=-.2</code>, azt a <code>bed_mesh</code>-ben a <code>BED_MESH_OFFSET ZFADE=.2</code>-vel lehet figyelembe venni.</p>
|
||||
<h2 id="bed-mesh-webhooks-apis">Bed Mesh Webhooks APIs<a class="headerlink" href="#bed-mesh-webhooks-apis" title="Permanent link">¶</a></h2>
|
||||
<h3 id="dumping-mesh-data">Dumping mesh data<a class="headerlink" href="#dumping-mesh-data" title="Permanent link">¶</a></h3>
|
||||
<h2 id="agy-halo-webhooks-api-k">Ăgy hĂĄlĂł Webhooks API-k<a class="headerlink" href="#agy-halo-webhooks-api-k" title="Permanent link">¶</a></h2>
|
||||
<h3 id="haloadatok-kiuritese">HĂĄlĂładatok kiĂŒrĂtĂ©se<a class="headerlink" href="#haloadatok-kiuritese" title="Permanent link">¶</a></h3>
|
||||
<p><code>{"id": 123, "method": "bed_mesh/dump_mesh"}</code></p>
|
||||
<p>Dumps the configuration and state for the current mesh and all saved profiles.</p>
|
||||
<p>The <code>dump_mesh</code> endpoint takes one optional parameter, <code>mesh_args</code>. This parameter must be an object, where the keys and values are parameters available to <a href="#bed_mesh_calibrate">BED_MESH_CALIBRATE</a>. This will update the mesh configuration and probe points using the supplied parameters prior to returning the result. It is recommended to omit mesh parameters unless it is desired to visualize the probe points and/or travel path before performing <code>BED_MESH_CALIBRATE</code>.</p>
|
||||
<h2 id="visualization-and-analysis">Visualization and analysis<a class="headerlink" href="#visualization-and-analysis" title="Permanent link">¶</a></h2>
|
||||
<p>Most users will likely find that the visualizers included with applications such as Mainsail, Fluidd, and Octoprint are sufficient for basic analysis. However, Klipper's <code>scripts</code> folder contains the <code>graph_mesh.py</code> script that may be used to perform additional visualizations and more detailed analysis, particularly useful for debugging hardware or the results produced by <code>bed_mesh</code>:</p>
|
||||
<p>Kitölti az aktuålis håló és az összes mentett profil konfiguråciójåt és ållapotåt.</p>
|
||||
<p>A <code>dump_mesh</code> vĂ©gpontnak egy opcionĂĄlis paramĂ©tere van, a <code>mesh_args</code>. Ennek a paramĂ©ternek egy objektumnak kell lennie, ahol a kulcsok Ă©s az Ă©rtĂ©kek a <a href="#bed_mesh_calibrate">BED_MESH_CALIBRATE</a> szĂĄmĂĄra elĂ©rhetĆ paramĂ©terek. Ez frissĂti a hĂĄlĂł konfigurĂĄciĂłjĂĄt Ă©s a mĂ©rĂ©si pontokat a megadott paramĂ©terek segĂtsĂ©gĂ©vel, mielĆtt visszakĂŒldi az eredmĂ©nyt. A hĂĄlĂłparamĂ©terek elhagyĂĄsa ajĂĄnlott, kivĂ©ve, ha a <code>BED_MESH_CALIBRATE</code> vĂ©grehajtĂĄsa elĆtt a mĂ©rĂ©si pontokat Ă©s/vagy a haladĂĄsi Ăștvonalat kĂvĂĄnod megjelenĂteni.</p>
|
||||
<h2 id="vizualizacio-es-elemzes">VizualizĂĄciĂł Ă©s elemzĂ©s<a class="headerlink" href="#vizualizacio-es-elemzes" title="Permanent link">¶</a></h2>
|
||||
<p>A legtöbb felhasznĂĄlĂł valĂłszĂnƱleg Ășgy talĂĄlja, hogy az olyan alkalmazĂĄsokhoz, mint a Mainsail, a Fluidd Ă©s az Octoprint mellĂ©kelt vizualizĂĄtorok elegendĆek az alapvetĆ elemzĂ©sekhez. A Klipper <code>scripts</code> mappĂĄja azonban tartalmazza a <code>graph_mesh.py</code> szkriptet, amely tovĂĄbbi vizualizĂĄciĂłk Ă©s rĂ©szletesebb elemzĂ©sek elvĂ©gzĂ©sĂ©hez hasznĂĄlhatĂł, kĂŒlönösen hasznos a hardver vagy a <code>bed_mesh</code> ĂĄltal elĆĂĄllĂtott eredmĂ©nyek hibakeresĂ©sĂ©hez:</p>
|
||||
<div class="highlight"><pre><span></span><code>usage: graph_mesh.py [-h] {list,plot,analyze,dump} ...
|
||||
|
||||
Graph Bed Mesh Data
|
||||
Ăgy hĂĄlĂł adatok grafikonja
|
||||
|
||||
positional arguments:
|
||||
pozĂcionĂĄlis Ă©rvek:
|
||||
{list,plot,analyze,dump}
|
||||
list List available plot types
|
||||
plot Plot a specified type
|
||||
analyze Perform analysis on mesh data
|
||||
dump Dump API response to json file
|
||||
list ElĂ©rhetĆ parcellatĂpusok listĂĄja
|
||||
plot Megadott tĂpus ĂĄbrĂĄzolĂĄsa
|
||||
analyze Elemzés elvégzése a hålóadatokon
|
||||
dump API-vĂĄlasz kiĂŒrĂtĂ©se json fĂĄjlba
|
||||
|
||||
options:
|
||||
-h, --help show this help message and exit
|
||||
-h, --help megjelenĂti a sĂșgĂłĂŒzenetet Ă©s kilĂ©p
|
||||
</code></pre></div>
|
||||
|
||||
<h3 id="pre-requisites">Pre-requisites<a class="headerlink" href="#pre-requisites" title="Permanent link">¶</a></h3>
|
||||
<p>Like most graphing tools provided by Klipper, <code>graph_mesh.py</code> requires the <code>matplotlib</code> and <code>numpy</code> python dependencies. In addition, connecting to Klipper via Moonraker's websocket requires the <code>websockets</code> python dependency. While all visualizations can be output to an <code>svg</code> file, most of the visualizations offered by <code>graph_mesh.py</code> are better viewed in live preview mode on a desktop class PC. For example, the 3D visualizations may be rotated and zoomed in preview mode, and the path visualizations can optionally be animated in preview mode.</p>
|
||||
<h3 id="plotting-mesh-data">Plotting Mesh data<a class="headerlink" href="#plotting-mesh-data" title="Permanent link">¶</a></h3>
|
||||
<p>The <code>graph_mesh.py</code> tool can plot several types of visualizations. Available types can be shown by running <code>graph_mesh.py list</code>:</p>
|
||||
<h3 id="elofeltetelek">ElĆfeltĂ©telek<a class="headerlink" href="#elofeltetelek" title="Permanent link">¶</a></h3>
|
||||
<p>A Klipper ĂĄltal biztosĂtott legtöbb grafikus eszközhöz hasonlĂłan a <code>graph_mesh.py</code>-nak is szĂŒksĂ©ge van a <code>matplotlib</code> Ă©s a <code>numpy</code> python fĂŒggĆsĂ©gekre. Ezen kĂvĂŒl a Klipper-hez a Moonraker websocketjĂ©n keresztĂŒl törtĂ©nĆ csatlakozĂĄshoz a <code>websockets</code> python fĂŒggĆsĂ©gre van szĂŒksĂ©g. BĂĄr az összes vizualizĂĄciĂł kimenete <code>svg</code> fĂĄjlban is megjelenĂthetĆ, a <code>graph_mesh.py</code> ĂĄltal kĂnĂĄlt legtöbb vizualizĂĄciĂł jobb, ha Ă©lĆ elĆnĂ©zeti mĂłdban, asztali szĂĄmĂtĂłgĂ©pen nĂ©zzĂŒk meg. PĂ©ldĂĄul a 3D-s megjelenĂtĂ©sek elĆnĂ©zeti mĂłdban forgathatĂłk Ă©s nagyĂthatĂłk, az Ăștvonalak megjelenĂtĂ©se pedig opcionĂĄlisan animĂĄlhatĂł elĆnĂ©zeti mĂłdban.</p>
|
||||
<h3 id="haloadatok-abrazolasa">HĂĄlĂładatok ĂĄbrĂĄzolĂĄsa<a class="headerlink" href="#haloadatok-abrazolasa" title="Permanent link">¶</a></h3>
|
||||
<p>A <code>graph_mesh.py</code> eszköz többfĂ©le vizualizĂĄciĂł kĂ©szĂtĂ©sĂ©re kĂ©pes. A rendelkezĂ©sre ĂĄllĂł tĂpusok a <code>graph_mesh.py list</code> futtatĂĄsĂĄval jelenĂthetĆk meg:</p>
|
||||
<div class="highlight"><pre><span></span><code>graph_mesh.py list
|
||||
points Plot original generated points
|
||||
path Plot probe travel path
|
||||
rapid Plot rapid scan travel path
|
||||
probedz Plot probed Z values
|
||||
meshz Plot mesh Z values
|
||||
overlay Plots the current probed mesh overlaid with a profile
|
||||
delta Plots the delta between current probed mesh and a profile
|
||||
points Eredeti generĂĄlt pontok ĂĄbrĂĄzolĂĄsa
|
||||
path Szonda ĂștvonalĂĄnak megrajzolĂĄsa
|
||||
rapid Gyors mĂ©rĂ©si Ăștvonal megrajzolĂĄsa
|
||||
probedz Vizsgålt Z-értékek åbråzolåsa
|
||||
meshz Håló Z-értékeinek åbråzolåsa
|
||||
overlay AktuĂĄlis szondĂĄzott hĂĄlĂłt egy profillal ĂĄtfedve ĂĄbrĂĄzolja
|
||||
delta Aktuålis szondåzott håló és egy profil közötti delta åbråzolåsa
|
||||
</code></pre></div>
|
||||
|
||||
<p>Several options are available when plotting visualizations:</p>
|
||||
<p>A megjelenĂtĂ©sek ĂĄbrĂĄzolĂĄsakor szĂĄmos lehetĆsĂ©g ĂĄll rendelkezĂ©sre:</p>
|
||||
<div class="highlight"><pre><span></span><code>usage: graph_mesh.py plot [-h] [-a] [-s] [-p PROFILE_NAME] [-o OUTPUT] <plot type> <input>
|
||||
|
||||
positional arguments:
|
||||
<plot type> Type of data to graph
|
||||
<input> Path/url to Klipper Socket or path to json file
|
||||
pozĂcionĂĄlis Ă©rvek:
|
||||
<plot type> Grafikusan ĂĄbrĂĄzolandĂł adatok tĂpusa
|
||||
<input> A Klipper Socket elĂ©rĂ©si Ăștvonala/url vagy a json fĂĄjl elĂ©rĂ©si Ăștvonala
|
||||
|
||||
options:
|
||||
-h, --help show this help message and exit
|
||||
-a, --animate Animate paths in live preview
|
||||
-s, --scale-plot Use axis limits reported by Klipper to scale plot X/Y
|
||||
opciĂłk:
|
||||
-h, --help megjelenĂti a sĂșgĂłĂŒzenetet Ă©s kilĂ©p
|
||||
-a, --animate Ătvonalak animĂĄlĂĄsa Ă©lĆ elĆnĂ©zetben
|
||||
-s, --scale-plot A Klipper ĂĄltal jelentett tengelyhatĂĄrok hasznĂĄlata a plot X/Y skĂĄlĂĄzĂĄsĂĄhoz
|
||||
-p PROFILE_NAME, --profile-name PROFILE_NAME
|
||||
Optional name of a profile to plot for 'probedz'
|
||||
A 'probedz' szĂĄmĂĄra ĂĄbrĂĄzolandĂł profil opcionĂĄlis neve
|
||||
-o OUTPUT, --output OUTPUT
|
||||
Output file path
|
||||
Kimeneti fĂĄjl elĂ©rĂ©si Ăștja
|
||||
</code></pre></div>
|
||||
|
||||
<p>Below is a description of each argument:</p>
|
||||
<p>Az alĂĄbbiakban az egyes Ă©rvek leĂrĂĄsa következik:</p>
|
||||
<ul>
|
||||
<li><code>plot type</code>: A required positional argument designating the type of visualization to generate. Must be one of the types output by the <code>graph_mesh.py list</code> command.</li>
|
||||
<li><code>input</code>: A required positional argument containing a path or url to the input source. This must be one of the following:<ul>
|
||||
<li>A path to Klipper's Unix Domain Socket</li>
|
||||
<li>A url to an instance of Moonraker</li>
|
||||
<li>A path to a json file produced by <code>graph_mesh.py dump <input></code></li>
|
||||
<li><code>plot type</code>: A lĂ©trehozandĂł vizualizĂĄciĂł tĂpusĂĄt jelölĆ kötelezĆ pozicionĂĄlis argumentum. A <code>graph_mesh.py list</code> parancs ĂĄltal kiadott tĂpusok egyikĂ©nek kell lennie.</li>
|
||||
<li><code>bemenet</code>: A bemeneti forrĂĄs elĂ©rĂ©si ĂștvonalĂĄt vagy URL-cĂmĂ©t tartalmazĂł, kötelezĆen megadandĂł pozicionĂĄlis argumentum. Ennek az alĂĄbbiak egyikĂ©nek kell lennie:<ul>
|
||||
<li>A Klipper Unix Domain Socket elĂ©rĂ©si Ăștvonala</li>
|
||||
<li>Moonraker egy példånyånak URL-je</li>
|
||||
<li>A <code>graph_mesh.py dump <input></code> ĂĄltal elĆĂĄllĂtott json fĂĄjl elĂ©rĂ©si Ăștvonala</li>
|
||||
</ul>
|
||||
</li>
|
||||
<li><code>-a</code>: Optional animation for the <code>path</code> and <code>rapid</code> visualization types. Animations only apply to a live preview.</li>
|
||||
<li><code>-s</code>: Optionally scales a plot using the <code>axis_minimum</code> and <code>axis_maximum</code> values reported by Klipper's <code>toolhead</code> object when the dump file was generated.</li>
|
||||
<li><code>-p</code>: A profile name that may be specified when generating the <code>probedz</code> 3D mesh visualization. When generating an <code>overlay</code> or <code>delta</code> visualization this argument must be provided.</li>
|
||||
<li><code>-o</code>: An optional file path indicating that the script should save the visualization to this location rather than run in preview mode. Images are saved in <code>svg</code> format.</li>
|
||||
<li><code>-a</code>: Az <code>Ăștvonal</code> Ă©s a <code>gyors</code> vizualizĂĄciĂłs tĂpusokhoz vĂĄlaszthatĂł animĂĄciĂł. Az animĂĄciĂłk csak az Ă©lĆ elĆnĂ©zetre vonatkoznak.</li>
|
||||
<li><code>-s</code>: A Klipper <code>toolhead</code> objektuma ĂĄltal a dump fĂĄjl lĂ©trehozĂĄsakor jelentett <code>axis_minimum</code> Ă©s <code>axis_maximum</code> Ă©rtĂ©kek segĂtsĂ©gĂ©vel mĂ©retezi a diagramot.</li>
|
||||
<li><code>-p</code>: Egy profilnév, amelyet a <code>probedz</code> 3D håló vizualizåció generålåsakor lehet megadni. Az <code>overlay</code> vagy <code>delta</code> vizualizåció generålåsakor ezt az argumentumot meg kell adni.</li>
|
||||
<li><code>-o</code>: Egy opcionĂĄlis fĂĄjl elĂ©rĂ©si Ăștja, amely jelzi, hogy a szkriptnek a vizualizĂĄciĂłt erre a helyre kell mentenie, nem pedig elĆnĂ©zeti mĂłdban futtatnia. A kĂ©pek <code>svg</code> formĂĄtumban kerĂŒlnek mentĂ©sre.</li>
|
||||
</ul>
|
||||
<p>For example, to plot an animated rapid path, connecting via Klipper's unix socket:</p>
|
||||
<p>PĂ©ldĂĄul egy animĂĄlt gyors Ăștvonal megrajzolĂĄsĂĄhoz, a Klipper unix foglalatĂĄn keresztĂŒl csatlakozva:</p>
|
||||
<div class="highlight"><pre><span></span><code>graph_mesh.py plot -a rapid ~/printer_data/comms/klippy.sock
|
||||
</code></pre></div>
|
||||
|
||||
<p>Or to plot a 3d visualization of the mesh, connecting via Moonraker:</p>
|
||||
<p>A hĂĄlĂł 3D-s vizualizĂĄciĂłjĂĄnak megrajzolĂĄsĂĄhoz, a Moonraker segĂtsĂ©gĂ©vel csatlakozva:</p>
|
||||
<div class="highlight"><pre><span></span><code>graph_mesh.py plot meshz http://my-printer.local
|
||||
</code></pre></div>
|
||||
|
||||
<h3 id="bed-mesh-analysis">Bed Mesh Analysis<a class="headerlink" href="#bed-mesh-analysis" title="Permanent link">¶</a></h3>
|
||||
<p>The <code>graph_mesh.py</code> tool may also be used to perform an analysis on the data provided by the <a href="#dumping-mesh-data">bed_mesh/dump_mesh</a> API:</p>
|
||||
<h3 id="agy-halo-elemzes">Ăgy hĂĄlĂł elemzĂ©s<a class="headerlink" href="#agy-halo-elemzes" title="Permanent link">¶</a></h3>
|
||||
<p>A <code>graph_mesh.py</code> eszköz hasznålható a <a href="#dumping-mesh-data">bed_mesh/dump_mesh</a> API åltal szolgåltatott adatok elemzéséhez is:</p>
|
||||
<div class="highlight"><pre><span></span><code>graph_mesh.py analyze <input>
|
||||
</code></pre></div>
|
||||
|
||||
<p>As with the <code>plot</code> command, the <code><input></code> must be a path to Klipper's unix socket, a URL to an instance of Moonraker, or a path to a json file generated by the dump command.</p>
|
||||
<p>To begin, the analysis will perform various checks on the points and probe paths generated by <code>bed_mesh</code> at the time of the dump. This includes the following:</p>
|
||||
<p>A <code>plot</code> parancshoz hasonlĂłan az <code><input></code> a Klipper unix socketjĂ©nek elĂ©rĂ©si Ăștvonala, a Moonraker egy pĂ©ldĂĄnyĂĄnak URL cĂme, vagy a dump parancs ĂĄltal generĂĄlt json fĂĄjl elĂ©rĂ©si Ăștvonala kell, hogy legyen.</p>
|
||||
<p>Kezdetben az elemzĂ©s kĂŒlönbözĆ ellenĆrzĂ©seket vĂ©gez a <code>bed_mesh</code> ĂĄltal a dump idejĂ©n generĂĄlt pontokon Ă©s mĂ©rĂ©sek Ăștvonalain. Ezek közĂ© tartozik a következĆ:</p>
|
||||
<ul>
|
||||
<li>The number of probe points generated, without any additions</li>
|
||||
<li>The number of probe points generated including any points generated as the result faulty regions and/or a configured zero reference position.</li>
|
||||
<li>The number of probe points generated when performing a rapid scan.</li>
|
||||
<li>The total number of moves generated for a rapid scan.</li>
|
||||
<li>A validation that the probe points generated for a rapid scan are identical to the probe points generated for a standard probing procedure.</li>
|
||||
<li>A "backtracking" check for both the standard probe path and a rapid scan path. Backtracking can be defined as moving to the same position more than once during the probing procedure. Backtracking should never occur during a standard probe. Faulty regions <em>can</em> result in backtracking during a rapid scan in an attempt to avoid entering a faulty region when approaching or leaving a probe location, however should never occur otherwise.</li>
|
||||
<li>A generĂĄlt mĂ©rĂ©si pontok szĂĄma, kiegĂ©szĂtĂ©sek nĂ©lkĂŒl</li>
|
||||
<li>A generĂĄlt mĂ©rĂ©si pontok szĂĄma, beleĂ©rtve a hibĂĄs terĂŒletek Ă©s a konfigurĂĄlt nulla referenciapozĂciĂł eredmĂ©nyekĂ©nt generĂĄlt pontokat is.</li>
|
||||
<li>A gyors mĂ©rĂ©sek sorĂĄn generĂĄlt mĂ©rĆpontok szĂĄma.</li>
|
||||
<li>A gyors méréshez generålt mozgåsok teljes szåma.</li>
|
||||
<li>Annak igazolĂĄsa, hogy a gyors mĂ©rĂ©shez generĂĄlt mĂ©rĆpontok megegyeznek a szabvĂĄny mĂ©rĂ©si eljĂĄrĂĄshoz generĂĄlt mĂ©rĆpontokkal.</li>
|
||||
<li>A "visszalĂ©pĂ©s" ellenĆrzĂ©se mind a szabvĂĄnyos mĂ©rĆĂșt, mind a gyors mĂ©rĂ©si Ăștvonal esetĂ©ben. A visszalĂ©pĂ©s Ășgy definiĂĄlhatĂł, hogy a mĂ©rĂ©si eljĂĄrĂĄs sorĂĄn többször is elmozdul ugyanabba a pozĂciĂłba. A visszalĂ©pĂ©s soha nem fordulhat elĆ normĂĄl mĂ©rĂ©s sorĂĄn. A hibĂĄs rĂ©giĂłk <em>visszalĂ©pĂ©st</em> eredmĂ©nyezhetnek a gyors mĂ©rĂ©s sorĂĄn, hogy elkerĂŒljĂ©k a hibĂĄs rĂ©giĂłba valĂł belĂ©pĂ©st, amikor megközelĂtik vagy elhagyjĂĄk a mĂ©rĂ©si helyet, de soha nem fordulhat elĆ mĂĄskĂ©nt.</li>
|
||||
</ul>
|
||||
<p>Next each probed mesh present in the dump will by analyzed, beginning with the mesh loaded at the time of the dump (if present) and followed by any saved profiles. The following data is extracted:</p>
|
||||
<p>EzutĂĄn minden, a dump-ban lĂ©vĆ mĂ©rt hĂĄlĂł elemzĂ©sre kerĂŒl, kezdve a kiĂrĂĄskor betöltött hĂĄlĂłval (ha van), majd az esetleges mentett profilokkal. A következĆ adatok kerĂŒlnek kinyerĂ©sre:</p>
|
||||
<ul>
|
||||
<li>Mesh shape (Min X,Y, Max X,Y Probe Count)</li>
|
||||
<li>Mesh Z range, (Minimum Z, Maximum Z)</li>
|
||||
<li>Mean Z value in the mesh</li>
|
||||
<li>Standard Deviation of the Z values in the Mesh</li>
|
||||
<li>Håló alakja (min. X,Y, max. X,Y mérésszåm)</li>
|
||||
<li>HĂĄlĂł Z tartomĂĄny, (Minimum Z, Maximum Z)</li>
|
||||
<li>Ătlagos Z Ă©rtĂ©k a hĂĄlĂłban</li>
|
||||
<li>A szabvåny Z-értékek szóråsa a hålóban</li>
|
||||
</ul>
|
||||
<p>In addition to the above, a delta analysis is performed between meshes with the same shape, reporting the following:</p>
|
||||
<p>A fentieken kĂvĂŒl delta-analĂzist vĂ©geznek az azonos alakĂș hĂĄlĂłk között, amely a következĆket jelenti:</p>
|
||||
<ul>
|
||||
<li>The range of the delta between to meshes (Minimum and Maximum)</li>
|
||||
<li>The mean delta</li>
|
||||
<li>Standard Deviation of the delta</li>
|
||||
<li>The absolute maximum difference</li>
|
||||
<li>The absolute mean</li>
|
||||
<li>A delta tartomånya a hålók között (Minimum és Maximum)</li>
|
||||
<li>Az ĂĄtlagos delta</li>
|
||||
<li>A delta szabvĂĄnyos szĂłrĂĄsa</li>
|
||||
<li>Az abszolĂșt maximĂĄlis kĂŒlönbsĂ©g</li>
|
||||
<li>Az abszolĂșt ĂĄtlag</li>
|
||||
</ul>
|
||||
<h3 id="save-mesh-data-to-a-file">Save mesh data to a file<a class="headerlink" href="#save-mesh-data-to-a-file" title="Permanent link">¶</a></h3>
|
||||
<p>The <code>dump</code> command may be used to save the response to a file which can be shared for analysis when troubleshooting:</p>
|
||||
<h3 id="a-haloadatok-mentese-fajlba">A hĂĄlĂładatok mentĂ©se fĂĄjlba<a class="headerlink" href="#a-haloadatok-mentese-fajlba" title="Permanent link">¶</a></h3>
|
||||
<p>A <code>dump</code> paranccsal a vĂĄlasz menthetĆ egy fĂĄjlba, amely megoszthatĂł elemzĂ©s cĂ©ljĂĄbĂłl a hibaelhĂĄrĂtĂĄs sorĂĄn:</p>
|
||||
<div class="highlight"><pre><span></span><code>graph_mesh.py dump -o <output file name> <input>
|
||||
</code></pre></div>
|
||||
|
||||
<p>The <code><input></code> should be a path to Klipper's unix socket or a URL to an instance of Moonraker. The <code>-o</code> option may be used to specify the path to the output file. If omitted, the file will be saved in the working directory, with a file name in the following format:</p>
|
||||
<p>A <code><input></code> a Klipper unix socketjĂ©nek elĂ©rĂ©si Ăștja, vagy a Moonraker egy pĂ©ldĂĄnyĂĄnak URL-je. A "-o" opciĂł hasznĂĄlhatĂł a kimeneti fĂĄjl elĂ©rĂ©si ĂștjĂĄnak megadĂĄsĂĄra. Ha kihagyod, a fĂĄjl a munkakönyvtĂĄrba kerĂŒl mentĂ©sre, a következĆ formĂĄtumĂș fĂĄjlnĂ©vvel:</p>
|
||||
<p><code>klipper-bedmesh-{year}{month}{day}{hour}{minute}{second}.json</code></p>
|
||||
|
||||
|
||||
|
||||
Reference in New Issue
Block a user