Macro with more than 9 arguments

I think you are looking more or less for something like this (I disable the \hestA-command as the dimension \svarstedA is nowhere defined).

\documentclass{article}
\usepackage[utf8]{inputenc}
\usepackage[T1]{fontenc}
\usepackage[
  a4paper,
  hmargin = 2.4cm,
  vmargin = 3cm
]{geometry}
\usepackage{xskak}

\setchessboard{smallboard}

\newcommand*\hestA[2][\svarstedA]{%
  \underline{\makebox[\ifdim\width>#1\width\else#1\fi]{#2}}}

\newcommand*\opgaverLoesningerA[1]{{\textcolor{blue}{#1}}}
\newcommand*\opgaverLoesningerEkstra[6]{%
  \def\tempA{#1}%
  \def\tempB{#2}%
  \def\tempC{#3}%
  \def\tempD{#4}%
  \def\tempE{#5}%
  \def\tempF{#6}%
  \opgaverLoesninger
}

\newcommand*\opgaverLoesninger[6]{%
\begin{figure}[!htbp]
 \centering
  \begin{minipage}{0.5\textwidth}
   \centering
    \newchessgame[setfen=\tempB\space \tempA - - 0 1,print]%
    \vspace*{2ex}

    {\LARGE Løsning: \opgaverLoesningerA{\tempC}}%
  \end{minipage}%
  \begin{minipage}{0.5\textwidth}
   \centering
    \newchessgame[setfen=\tempE \space \tempD - - 0 1,print]%
    \vspace*{2ex}

    {\LARGE Løsning: \opgaverLoesningerA{\tempF}}%
  \end{minipage}
\end{figure}
\vspace*{2ex}

\begin{figure}[!htbp]
 \centering
  \begin{minipage}{0.5\textwidth}
   \centering
    \newchessgame[setfen = #2 #1 - - 0 1,print]%
    \vspace*{2ex}

    {\LARGE Løsning: \opgaverLoesningerA{#3}}%
  \end{minipage}%
  \begin{minipage}{0.5\textwidth}
   \centering
    \newchessgame[setfen= #5 #4 - - 0 1,print]%
    \vspace*{2ex}

    {\LARGE Løsning: \opgaverLoesningerA{#6}}%
  \end{minipage}
\end{figure}}

\begin{document}

\opgaverLoesningerEkstra%
  {w}{6k1/6p1/1p5p/3r4/1P6/6P1/4B1KP/8}{Lc4}%
  {w}{1k6/pp6/2p3p1/4n1P1/8/P6P/KP1B4/8}{Lf4}%
  {w}{8/1p4kp/p5p1/B7/3n4/1P5P/2P3P1/6K1}{Lc3}%
  {w}{k7/p6p/1p4p1/3r4/1P5P/P5P1/1KB5/8}{Le4}

\end{document}

enter image description here


What about having five boards to draw? Or eight?

Here's an implementation that accepts any number of boards and outputs them in pairs in figure environments. If the number is odd, the last one is output by itself in another figure.

\documentclass{article}
\usepackage[
  a4paper,
  hmargin = 2.4cm,
  vmargin = 3cm
]{geometry}

\usepackage[T1]{fontenc}
\usepackage[utf8]{inputenc}
\usepackage{xcolor}
\usepackage{xparse}
\usepackage{xskak}

\setchessboard{smallboard}

\ExplSyntaxOn

\NewDocumentCommand{\opgaverLoesninger}{m}
 {
  \svend_opgaver_loesninger:n { #1 }
 }

\tl_new:N \l__svend_opgaver_final_tl
\seq_new:N \l__svend_opgaver_tables_in_seq
\seq_new:N \l__svend_opgaver_tables_out_seq

\cs_new_protected:Nn \svend_opgaver_loesninger:n
 {
  \seq_set_split:Nnn \l__svend_opgaver_tables_in_seq { \\ } { #1 }
  \seq_clear:N \l__svend_opgaver_tables_out_seq
  \seq_map_inline:Nn \l__svend_opgaver_tables_in_seq
   {
    \seq_put_right:Nx \l__svend_opgaver_tables_out_seq
     {
      \__svend_opgaver_board:nn
       { \clist_item:nn { ##1 } { 1 } } 
       { \clist_item:nn { ##1 } { 2 } } 
      \__svend_opgaver_caption:n { \clist_item:nn { ##1 } { 3 } }
     }
   }
  \__svend_opgaver_make_tables:
 }

\cs_new_protected:Nn \__svend_opgaver_board:nn
 {
  \newgame
  \fenboard{#2 ~ #1 ~ - ~ - ~ 0 ~ 1 }
 }

\cs_new_protected:Nn \__svend_opgaver_caption:n
 {
  \scalebox{1.2}{\showboard}\par
  \vspace*{2ex}
  {\LARGE Løsning: ~ \textcolor{blue}{#1}}
 }

\cs_new_protected:Nn \__svend_opgaver_make_tables:
 {
  \tl_clear:N \l__svend_opgaver_final_tl
  \int_if_odd:nT { \seq_count:N \l__svend_opgaver_tables_out_seq }
   {
    \seq_pop_right:NN \l__svend_opgaver_tables_out_seq \l__svend_opgaver_final_tl
   }
  \int_step_inline:nnnn { 1 } { 2 } { \seq_count:N \l__svend_opgaver_tables_out_seq }
   {
    \begin{figure}[!htbp]
    \begin{minipage}[b]{0.5\textwidth}
    \centering
    \seq_item:Nn \l__svend_opgaver_tables_out_seq { ##1 }
    \end{minipage}
    \begin{minipage}[b]{0.5\textwidth}
    \centering
    \seq_item:Nn \l__svend_opgaver_tables_out_seq { ##1+1 }
    \end{minipage}
    \end{figure}
   }
   \tl_if_empty:NF \l__svend_opgaver_final_tl
   {
    \begin{figure}[!htbp]
    \centering
    \tl_use:N \l__svend_opgaver_final_tl
    \end{figure}
   }
 }

\ExplSyntaxOff

\begin{document}

\opgaverLoesninger{
  w, 6k1/6p1/1p5p/3r4/1P6/6P1/4B1KP/8, Lc4 \\
  w, 1k6/pp6/2p3p1/4n1P1/8/P6P/KP1B4/8, Lf4 \\
  w, 8/1p4kp/p5p1/B7/3n4/1P5P/2P3P1/6K1, Lc3 \\
  w, k7/p6p/1p4p1/3r4/1P5P/P5P1/1KB5/8, Le4 \\
  w, k7/p6p/1p4p1/3r4/1P5P/P5P1/1KB5/8, Le4
}

\end{document}

Instead of a syntax with braces, separating boards with \\ and data in each one with commas is simpler and more readable.

enter image description here

enter image description here

With slight changes, you can also set the magnification for the boards (default 1.2) and the number of boards per row (default 2).

The magnification is changed with mag=<factor>, the number of boards per row is set with n=<number> in the optional argument to \opgaverLoesninger.

The option single (a boolean, single=true is implicit) will make a single figure environment, but you're responsible for it to fit on a page, of course. It is present in the example just by way of example. If you try \opgaverLoesninger[single]{...} (same mandatory argument for five boards), the float will be too large (not with four boards).

\documentclass{article}
\usepackage[
  a4paper,
  hmargin = 2.4cm,
  vmargin = 3cm
]{geometry}

\usepackage[T1]{fontenc}
\usepackage[utf8]{inputenc}
\usepackage{xcolor}
\usepackage{xparse}
\usepackage{xskak}

\setchessboard{smallboard}

\ExplSyntaxOn

\NewDocumentCommand{\opgaverLoesninger}{O{}m}
 {
  \keys_set:nn { svend/opgaver } { n=2, mag=1.2, single=false, #1 }
  \svend_opgaver_loesninger:n { #2 }
 }

\keys_define:nn { svend/opgaver }
 {
  n      .int_set:N  = \l__svend_opgaver_n_int,
  mag    .tl_set:N   = \l__svend_opgaver_mag_tl,
  single .bool_set:N = \l__svend_opgaver_single_bool,
  single .default:n  = true,
 }

\tl_new:N \l__svend_opgaver_final_tl
\seq_new:N \l__svend_opgaver_tables_in_seq
\seq_new:N \l__svend_opgaver_tables_out_seq

\cs_new_protected:Nn \svend_opgaver_loesninger:n
 {
  \seq_set_split:Nnn \l__svend_opgaver_tables_in_seq { \\ } { #1 }
  \seq_clear:N \l__svend_opgaver_tables_out_seq
  \seq_map_inline:Nn \l__svend_opgaver_tables_in_seq
   {
    \seq_put_right:Nx \l__svend_opgaver_tables_out_seq
     {
      \__svend_opgaver_board:nn
       { \clist_item:nn { ##1 } { 1 } } 
       { \clist_item:nn { ##1 } { 2 } } 
      \__svend_opgaver_caption:n { \clist_item:nn { ##1 } { 3 } }
     }
   }
  \__svend_opgaver_make_tables:
 }

\cs_new_protected:Nn \__svend_opgaver_board:nn
 {
  \newgame
  \fenboard{#2 ~ #1 ~ - ~ - ~ 0 ~ 1 }
 }

\cs_new_protected:Nn \__svend_opgaver_caption:n
 {
  \scalebox{\l__svend_opgaver_mag_tl}{\showboard}\par
  \vspace*{2ex}
  {\LARGE Løsning: ~ \textcolor{blue}{#1}}
 }

\cs_new_protected:Nn \__svend_opgaver_make_tables:
 {
  \bool_if:NT \l__svend_opgaver_single_bool { \begin{figure}[!htbp] \centering }
  \int_step_inline:nnnn
   { 1 } % start
   { \l__svend_opgaver_n_int } % step
   { \seq_count:N \l__svend_opgaver_tables_out_seq } % end
   {
    \bool_if:NF \l__svend_opgaver_single_bool { \begin{figure}[!htbp] \centering }
    \int_step_inline:nnnn { 0 } { 1 } { \l__svend_opgaver_n_int - 1 }
     {
      \tl_if_empty:xF
       { \seq_item:Nn \l__svend_opgaver_tables_out_seq { ##1+####1 } }
       {
        \begin{minipage}[b]{ \dim_eval:n { \textwidth/\l__svend_opgaver_n_int } }
        \centering
        \seq_item:Nn \l__svend_opgaver_tables_out_seq { ##1+####1 }
        \end{minipage}
       }
     }
    \bool_if:NTF \l__svend_opgaver_single_bool { \\ \bigskip } { \end{figure} }
   }
  \bool_if:NT \l__svend_opgaver_single_bool { \end{figure} }
 }
\cs_generate_variant:Nn \tl_if_empty:nF { x }

\ExplSyntaxOff

\begin{document}

\opgaverLoesninger[mag=0.5,n=4,single]{
  w, 6k1/6p1/1p5p/3r4/1P6/6P1/4B1KP/8, Lc4 \\
  w, 1k6/pp6/2p3p1/4n1P1/8/P6P/KP1B4/8, Lf4 \\
  w, 8/1p4kp/p5p1/B7/3n4/1P5P/2P3P1/6K1, Lc3 \\
  w, k7/p6p/1p4p1/3r4/1P5P/P5P1/1KB5/8, Le4 \\
  w, k7/p6p/1p4p1/3r4/1P5P/P5P1/1KB5/8, Le4
}

\end{document}

enter image description here