Filter module and device for the separation of overspray, and plant having the same

What is claimed is: 1. A plant for coating articles comprising: a) a coating booth, in which coating material is applied to articles and through which an air flow is conducted which takes up and carries off resulting overspray of the coating material; b) a separation device, to which booth air is supplied and where a large part of at least solids is separated from the overspray, the separation device having at least one filter module through which overspray-laden booth air is conducted and in which overspray is deposited; wherein c) the at least one filter module comprises a housing which delimits a filter space through which the overspray-laden booth air is conducted in a main flow direction, further wherein d) a multiplicity of separation elements composed of a separation material which is permeable to the booth air are arranged in the housing and the filter space such that each separation element is spaced apart from any adjacent separation elements such that spaces are formed between adjacent separation elements and a flow labyrinth is formed in the spaces existing between each of the multiplicity of separation elements; e) the separation material is a fibre material; and f) a material density of each of the separation elements in filter stages increases in the main flow direction. 2. The plant according to claim 1 , wherein filter lamellae, filter sleeves, compartmented structures or chambered structures are present as separation elements within the multiplicity of separation elements. 3. The plant according to claim 2 , wherein the separation elements are formed as filter lamellae in the form of separation mats. 4. The plant according to claim 2 , wherein the separation elements are formed as filter lamellae with a V-shaped or arcuate cross-section. 5. The plant according to claim 1 , wherein the separation material is a nonwoven material. 6. The plant according to claim 1 , wherein the multiplicity of separation elements are arranged in filter stages which follow one another in the main flow direction.