Directional valve, especially for breathing gases, and method for manufacturing same

What is claimed is: 1. A gas stream delivery device comprising a closed-circuit respirator, a closed-circuit diving apparatus or a medical device, the gas stream delivery device further comprising a directional valve comprising: a valve housing; a plurality of valve flaps, which can be moved by a flowing medium and are arranged at an edge of the valve; a plurality of support surfaces defining a valve seat, wherein a number of the support surfaces corresponds to a number of the valve flaps, each valve flap is adapted to a surface of a respective one of the support surfaces and the support surfaces are sloped in relation to a cross-sectional surface through the valve housing and the support surfaces together form a tip pointing in a flow direction of the directional valve; and a ring element, which can be combined with the valve housing, wherein the valve flaps are arranged on the ring element at an edge thereof, wherein: the ring element comprises an elastically deformable ring element, which is detachably connected to the valve housing; the valve housing has an outer jacket surface with a circumferential groove intended for receiving the ring element and the outer jacket surface of the valve housing has one or more recesses, the one or more recesses start from the groove in the outer jacket surface of the valve housing; the ring element has one or more ribs, wherein a number or ribs corresponds to a number of recesses; and each of the one or more recesses receives a respective one of the one or more ribs with a positive-lock. 2. A gas stream delivery device in accordance with claim 1 , wherein: the support surfaces are disposed adjacent to each other as adjacent support surfaces; each support surface is defined at an edge by an associated respective web, and each web is shared in common by two of the adjacent support surfaces; and all webs meet in a meeting area of a central longitudinal axis of the directional valve and the meeting area forms a most extended point of the support surfaces in the flow direction of the directional valve. 3. A method for manufacturing a directional valve, the method comprising the steps of: providing a valve housing; providing a plurality of valve flaps, which can be moved by a flowing medium; arranging the plurality of valve flaps at an edge of the valve; and providing a plurality of support surfaces, defining a valve seat, at the valve housing, wherein a number of the support surfaces corresponds to a number of the valve flaps, each valve flap is adapted to a surface of a respective one of the support surfaces and the support surfaces are sloped in relation to a cross-sectional surface through the valve housing and the support surfaces together form a tip pointing in a flow direction of the directional valve, wherein the directional valve is further provided with an elastically deformable ring element, which is detachably connected to the valve housing and further comprising arranging the valve flaps on the ring element at an edge thereof and connecting the elastically deformable ring element to the valve housing by stretching the elastically deformable ring element and placing the stretched elastically deformable ring element around the valve housing in the stretched state. 4. A method in accordance with claim 3 , wherein: the support surfaces are disposed adjacent to each other as adjacent support surfaces; each support surface is defined at an edge by an associated respective web, and each web is shared in common by two of the adjacent support surfaces of the support surfaces; and all webs meet in a meeting area of a central longitudinal axis of the directional valve and the meeting area forms a most extended point of the support surfaces in the flow direction of the directional valve. 5. A method in accordance with claim 3 , wherein the valve housing has an outer jacket surface with a circumferential groove intended for receiving the ring element and the outer jacket surface of the valve housing has one or more recesses, the one or more recesses start from the groove in the outer jacket surface of the valve housing, the ring element has one or more ribs, a number or ribs corresponds to a number of recesses each of the one or more recesses receives a respective one of the one or more ribs with a positive-lock, and the ring element is placed in the groove in the outer jacket surface of the valve housing and each rib is placed into a respective recess. 6. A directional valve comprising: a valve housing; a plurality of valve flaps, which can be moved by a flowing medium and are arranged at an edge of the valve; a plurality of support surfaces defining a valve seat, a number of the support surfaces corresponds to a number of the valve flaps, wherein each valve flap is adapted to a surface of a respective one of the support surfaces and the support surfaces are each sloped in relation to a cross-sectional surface through the valve housing and the support surfaces together form a tip pointing in a flow direction of the directional valve; a ring element, which can be combined with the valve housing, wherein the valve flaps are arranged on the ring element at an edge thereof, wherein the ring element comprises an elastically deformable ring element, which is detachably connected to the valve housing, wherein: the valve housing has an outer jacket surface with a circumferential groove intended for receiving the ring element and the outer jacket surface of the valve housing has one or more recesses, the one or more recesses start from the groove in the outer jacket surface of the valve housing; the ring element has one or more ribs, wherein a number or ribs corresponds to a number of recesses; and each of the one or more recesses receives a respective one of the one or more ribs with a positive-lock. 7. A directional valve comprising: a valve housing; a plurality of valve flaps, which can be moved by a flowing medium and are arranged at an edge of the valve; and a plurality of support surfaces defining a valve seat, a number of the support surfaces corresponds to a number of the valve flaps, wherein each valve flap is adapted to a surface of a respective one of the support surfaces and the support surfaces are each sloped in relation to a cross-sectional surface through the valve housing and the support surfaces together form a tip pointing in a flow direction of the directional valve, wherein: each valve flap has an edge connection with the housing; and each valve flap is pointed in a direction of a central longitudinal axis of the directional valve and has tip extending borderline sections, which start from the tip and are straight in some sections, has housing contour borderline sections, which each follow the contour of the valve housing, on one of two sides of the respective edge connection, and has arc-shaped borderline sections, which are each inscribed into an acute angle, between a respective one of the tip extending borderline sections and a respective one of the housing contour borderline sections. 8. A directional valve in accordance with claim 7 , wherein: the surfaces of all support surfaces are of equal size; and the surfaces of all valve flaps are of equal size. 9. A directional valve in accordance with claim 7 , wherein: the plurality of support surfaces consists of three support surfaces; and the plurality of valve flaps consists of three valve flaps. 10. A directional valve in accordance with claim 7 , further comprising a guide surface structure under the support surfaces with guide surfaces oriented parallel to a central longitudinal axis of the valve housing. 11. A directional valve in accordance with claim 10