We work on the Réveillès hyperplane P(v,0,ω) with normal vector v ∈ R^d , shift μ = 0 and thickness ω ∈ R . Such a hyperplane is connected as soon as ω is greater than some value Ω(v,0) , called the connecting thickness of v with null shift. In the case where v satisfies the so called Kraaikamp and Meester criterion, at the connecting thickness the hyperplane has very specific properties. First of all the adjacency graph of the voxels forms a tree. This tree appeared in many works both in discrete geometry and in discrete dynamical systems. In addition, it is well known that for a finite coding of length n of discrete lines, the number of palindromes in the language is exactly n + 1. We extend this notion of language to labeled trees and we compute the number of distinct palindromes. In fact for our voxel adjacency trees with n letters we show that the number of palindromes in the language is also n + 1. This result establishes a first link between combinatorics on words, palindromic languages, voxel adjacency trees and connecting thickness of Réveillès hyperplanes. It also provides a better understanding of the combinatorial structure of discrete planes.