%! TEX root = ../../../facharbeit.tex % LTeX: language=de-DE % \imagelabelset{ % coarse grid color = red, % fine grid color = gray, % image label font = \sffamily\bfseries\small, % image label distance = 2mm, % image label back = black, % image label text = white, % coordinate label font = \sffamily\bfseries\scriptsize, % coordinate label distance = 2mm, % coordinate label back = black, % coordinate label text = white, % annotation font = \normalfont\small, % arrow distance = 1.5mm, % border thickness = 0.6pt, % arrow thickness = 0.4pt, % tip size = 1.2mm, % outer dist = 0.5cm, % } % \let\tikzset\imagelabelset \begin{figure}[h] \center \begin{tikzpicture} % Grid % \draw[very thin, draw=gray, step=0.5] (0,0) grid (7,7); % \draw[thin, draw=\maingridcolor, xstep=0.1, ystep=0.5] (0,0) grid (7,7); % \foreach \x in {0,1,...,7} { % \node [anchor=north] at (\x,0) {\tiny \x}; % } % \node [anchor=north] at (1,0) {\tiny 1}; % % \foreach \y in {0,1,...,7} { % \node [anchor=east] at (0,\y) {\tiny \y}; % } % \node [anchor=east] at (0,1) {\tiny 1}; \node[] (kuvette) at (1,0.5) {Küvette}; \node[] (laser) at (-0.5,4) {Laser}; \node[] (kollimationsLinse) at (2.5,3.5) {Kollimations Linse}; \node[] (planoKonvexeFokusLinse) at (1,5) {Plano-konvexe Fokus Linse}; \node[] (smartphoneHalterung) at (6,5) {Smartphone-Halterung}; \node[] (abnehmbarerGitterHalter) at (6,0) {abnehmbarer Gitter Halter}; \node[] (schieneFürLinsenHalter) at (3,-1) {Schiene für Linsen/Halter}; \begin{scope}[xshift=0cm] \node[anchor=south west,inner sep=0] (image) at (0,0) {\includegraphics[width=0.9\columnwidth]{figures/3d_raman_spectrometer_model_trans.png}}; \begin{scope}[x={(image.south east)},y={(image.north west)}] \draw [-{Circle[fill=black, length=\tipsize, width=\tipsize]}, black, line width = 0.4pt] (kuvette) to (0.3,0.45); \draw [-{Circle[fill=black, length=\tipsize, width=\tipsize]}, black, line width = 0.4pt] (laser) to (0.2,0.6); \draw [-{Circle[fill=black, length=\tipsize, width=\tipsize]}, black, line width = 0.4pt] (kollimationsLinse) to (0.42,0.5); \draw [-{Circle[fill=black, length=\tipsize, width=\tipsize]}, black, line width = 0.4pt] (planoKonvexeFokusLinse) to[out=0, in=90] (0.64,0.6); \draw [-{Circle[fill=black, length=\tipsize, width=\tipsize]}, black, line width = 0.4pt] (smartphoneHalterung) to (0.7,0.7); \draw [-{Circle[fill=black, length=\tipsize, width=\tipsize]}, black, line width = 0.4pt] (abnehmbarerGitterHalter) to (0.8,0.76); \draw [-{Circle[fill=black, length=\tipsize, width=\tipsize]}, black, line width = 0.4pt] (schieneFürLinsenHalter) to (0.6,0.34); \end{scope} \end{scope} \end{tikzpicture} % \draw[annotation left = {Küvette at 0.8}] to (0.39,0.45); % \draw[annotation left = {Laser at 0.5}] to (0.2,0.6); % \draw[annotation below = {Kollimations Linse at 0}] to (0.42,0.5); % \draw[annotation below = {Plano-konvexe Fokus Linse at 0.6}] to (0.64,0.6); % \draw[annotation above = {Smartphone-Halterung at 0}] to (0.7,0.7); % \draw[annotation above = {abnehmbarer Gitter Halter at 0.6}] to (0.76,0.7); % \draw[annotation right = {Schiene für Linsen/Halter at 0.5}] to (0.6,0.34); \caption{ Das 3d Modell für den Aufbau. \Vref{chap:Links} beinhaltet einen Link zu dem \texttt{OpenSCAD} Quellcode. \Vref{fig:threeDModelBigger} zeigt das Bild in voller Größe. }\label{fig:threeDModel} \end{figure}