Filter material, filter element, and method and device for producing a filter material

The invention claimed is: 1. A multi-layered, web-shaped filter material for a filter element for filtering at least one of gases and liquids, comprising: a fleece layer, a nanofibre layer, a cellulose layer, wherein the nanofibre layer is a coating of a nanofibre material disposed on the fleece layer, wherein the cellulose layer is glued onto the nanofibre layer via an adhesive, and wherein the cellulose layer has an impregnation limited to a side facing the nanofibre layer and connected to the adhesive, the impregnation having a composition configured to at least impede the adhesive from penetrating the cellulose layer. 2. The filter material according to claim 1 , wherein: the adhesive is a water based adhesive, and the composition of the impregnation is a silicone based material. 3. The filter material according to claim 1 , wherein the nanofibre layer in a thickness direction has at least one of an increasing fibre thickness and an increasing fibre density. 4. The filter material according to claim 3 , wherein the at least one of the fibre thickness and the fibre density in the thickness direction increases at least one of continuously and in at least one step. 5. The filter material according to claim 3 , wherein the at least one of the fibre thickness and the fibre density increases from the fleece layer to the cellulose layer. 6. The filter material according to claim 1 , wherein the filter material is incorporated into a filter body of a filter element, which during the operation of the filter element the filter body is subjected to a through-flow of at least one of a gas and a liquid. 7. The filter element according to claim 6 , wherein the filter element is pleated. 8. The filter element according to claim 6 , wherein the filter element is at least one of a ring filter element with a ring-shaped filter body and a plate filter element with a plate-shaped filter body. 9. A method for producing a multi-layered, web-shaped filter material, comprising: coating a web-shaped fleece layer with a nanofibre material on a side to form a nanofibre layer directly on the fleece layer, applying an adhesive onto a web-shaped cellulose layer, and joining the cellulose layer and the fleece layer so that the adhesive connects the cellulose layer to the nanofibre layer, wherein, prior to applying the adhesive, further including disposing an impregnation into the cellulose layer on at least one side, and wherein the adhesive is applied onto the at least one side of the cellulose layer having the impregnation, wherein coating the fleece layer includes electrostatically applying the nanofibre material onto the fleece layer via a fibre dispensing device that includes a conveyor belt and at least two rolls, and wherein the at least two rolls have a different diameter from one another so that a dispensing side of the conveyor belt facing the fleece layer extends at one of an incline and a decline with respect to a horizontal plane. 10. The method according to claim 9 , wherein the fibre dispensing device has a spacing between a liquid fibre material and the fleece layer. 11. The method according to claim 10 , wherein the spacing at least one of increases and decreases in a movement direction of the fleece layer. 12. The method according to claim 10 , further comprising moving the fleece layer past a horizontal and flat surface of the liquid fibre material with an inclination. 13. The method according to claim 9 , wherein a plurality of fibre dispensing devices are arranged in a movement direction of the fleece layer one after the other, and wherein a plurality of different spacings are defined between a liquid fibre material and the fleece layer. 14. The method according to claim 10 , further comprising adjusting an inclination of the fleece layer with respect to a horizontal plane for altering the spacing. 15. A device for producing a filter material, comprising: at least one fibre dispensing device including a conveyor belt with at least two rolls and a tub that is fillable with a liquid fibre material, wherein the conveyor belt at least on a bottom side dips into the tub, at least two deflection rollers for guiding a fleece layer above the at least one fibre dispensing device and spaced apart from a top side of the conveyor belt, and an ionising device for generating different electrical potentials on the fleece layer and on the at least one fibre dispensing device, such that the liquid fibre material is transported electrostatically from the conveyor belt to the fleece layer during operation, wherein the at least two rolls have different diameters from one another and are arranged so that the top side of the conveyor belt extends at an incline with respect to a horizontal plane. 16. The device according to claim 15 , wherein a spacing between the fleece layer and the top side of the conveyor belt varies in a direction of movement of the fleece layer. 17. The device according to claim 15 , wherein at least one of the at least two deflection rollers is arranged vertically adjustable with respect to the horizontal plane. 18. The device according to claim 15 , wherein the at least one fibre dispensing device is arranged vertically adjustable with respect to the horizontal plane. 19. The method according to claim 9 , wherein the adhesive includes a water-based adhesive and the impregnation includes a silicone material. 20. The method according to claim 9 , wherein the fibre dispensing device has a spacing between the dispensing side of the conveyor belt and the fleece layer; and moving the conveyor belt along a movement direction so that a bottom side of the conveyor belt dips into a liquid fibre material and the spacing between the dispensing side and the fleece layer at least one of increases and decreases in the movement direction of the conveyor belt.