Flow plate for a humidifier

The invention claimed is: 1. A humidifier comprising: a layer comprising a water exchange memberane; and at least two flow plates comprising: flow fields on both mutually opposed flat sides of the flow plate, and a plurality of through-openings in the region of the flow fields, wherein the through-openings are formed in such a way that a perpendicular projection of the through-openings onto a plane oriented parallel to the flat surface plane of the flow plate has a non-vanishing area formed by guide structures, such that gas passing through the through-openings is at least partially mixed perpendicularly to the flat surface plane of the flow plate by gas guided in the flow fields, the guide structures extending outward from the plane of the flow plate, a portion of the guide structures supporting the layer comprising a water exchange membrane, and at least one of the portions of the guide structures oriented in a direction of the plane of the flow plate. 2. The flow plate according to claim 1 , wherein the guide structures, in the region of the flow fields, convey gas flowing along the plate surfaces through the through-openings to the flow field or into the flow field on the opposite flat side of the flow plate, and promote a mixing of the gas perpendicular to the flat surface plane of the flow plate. 3. The flow plate according to claim 1 , wherein the flow plate is formed from metal. 4. The flow plate according to claim 1 , wherein the flow plate is formed as a metal sheet with a thickness of at most 150 μm, the thickness determined perpendicular to the flat surface plane of the flow plate. 5. The flow plate according to claim 1 , wherein the flow plate is formed in one layer. 6. The flow plate according to claim 2 , wherein the flow plate and the guide structures are formed in one part. 7. The flow plate according to claim 2 , wherein the guide structures are moulded, including stamped, into the flow plate. 8. The flow plate according to claim 2 , wherein the guide structures each reach as far as the through-openings. 9. The flow plate according to claim 1 , wherein the through-openings are at least partially stamped in the flow plate. 10. The flow plate according to claim 1 , wherein the through-openings are formed by incisions in the flow plate. 11. The flow plate according to claim 10 , wherein the incisions form the guide structures, and regions of the guide structures are bent out from the flat surface plane of the flow plate in order to form the through-openings, and the regions are oriented at least partially perpendicularly to the flat surface plane of the flow plate. 12. The flow plate according to claim 2 , wherein the guide structures each enclose, at least in sections, an angle of at least 45 degrees with the flat surface plane of the flow plate. 13. The flow plate according to claim 2 , wherein the guide structures are formed as ribs which each have an open side flank. 14. The flow plate according to claim 2 , wherein the at least one of the portions of the guide structures oriented in the direction of the plane of the flow plate are at ends of the guide structures protruding from the flow plate, and the at least one of the portions of the guide structures are bent over towards the flat surface plane of the flow plate. 15. The flow plate according to claim 2 , wherein said guide structures comprise first guide structures, which protrude from the flow plate on the first flat side of the flow plate, and second guide structures, which protrude from the flow plate on the second flat side of the flow plate opposite the first flat side. 16. The flow plate according to claim 15 , wherein the through-openings and/or the guide structures are arranged at periodic distances from one another. 17. The flow plate according to claim 16 , wherein the through-openings and/or the guide structures are arranged at periodic distances from one another parallel to the flat surface plane of the flow plate along a first direction and along a second direction. 18. The flow plate according to claim 17 , wherein a first distance between adjacent through-openings and/or adjacent guide structures determined along the first direction, is different from a second distance between adjacent through-openings and/or adjacent guide structures determined along the second direction. 19. The flow plate according to claim 18 , wherein the first direction and the second direction are perpendicular to one another. 20. The flow plate according to claim 19 , wherein the first guide structures protruding from the first flat side of the flow plate and the second guide structures protruding from the second flat side of the flow plate are arranged alternately along the first direction and/or along the second direction. 21. The flow plate according to claim 1 , wherein the flow fields have channel structures. 22. The flow plate according to claim 2 , wherein the guide structures improve mixing of gas guided along the plate surface, and the guide structures are formed with a portion parallel to the flat surface plane of the flow plate having a variable cross section along a direction perpendicular to the flat surface plane of the flow plate. 23. The flow plate according to claim 1 , further comprising discharge openings for the passage of a gas to be humidified and a humidified gas or a gas to be dehumidified and a dehumidified gas through the flow plate, wherein the discharge openings are fluidically connected to the flow fields.