Flap device for an internal combustion engine

What is claimed is: 1. A flap device for an internal combustion engine, the flap device comprising: a flow housing comprising a flow channel; an actuating shaft; a flap body arranged on the actuating shaft in the flow channel; a bore comprising a shoulder, the bore being arranged in the flow housing and being configured to have the actuating shaft protrude therethrough to an exterior of the bore; a first bearing bush arranged in the bore, the first bearing bush being configured to have the actuating shaft be mounted therein; a closure bush; a sliding ring comprising a sliding ring radially inner portion; and a sealing element configured to radially surround the actuating shaft, the sealing element comprising an annular metal membrane which comprises an annular metal membrane radially inner portion and an annular metal membrane radially outer portion, wherein, the annular metal membrane radially outer portion is clamped axially between the closure bush and the shoulder of the bore so as to form a contact surface on the bore of the flow housing, the annular metal membrane radially inner portion rests against the sliding ring radially inner portion so as to form a mating surface, the mating surface being arranged closer to the flow channel than to the contact surface, and the sliding ring is spherically curved in the sliding ring radially inner portion. 2. The flap device as recited in claim 1 , wherein, the sealing element further comprises a shaft sleeve mounted on the actuating shaft, and a side of the sliding ring axially opposite of the annular metal membrane is configured to rest on the shaft sleeve. 3. The flap device as recited in claim 1 , wherein the closure bush is configured to be pot-shaped and comprises side walls comprising an axial end and a bottom which comprises an opening configured to have the actuating shaft protrude therethrough, the axial end of the side walls being configured to rest on the annular metal membrane. 4. The flap device as recited in claim 3 , wherein the contact surface is configured to be spherically shaped in a region formed inside the side walls of the closure bush. 5. The flap device as recited in claim 3 , wherein, the sliding ring further comprises a protrusion configured to extend radially outward, and the side walls of the closure bush comprise a recess into which the protrusion of the sliding ring extends. 6. The flap device as recited in claim 1 , further comprising: a second bearing bush arranged in the bore, the second bearing bush comprising an axial end which protrudes into the flow channel. 7. The flap device as recited in claim 6 , further comprising: a compression spring, wherein, the flap body is tensioned against the second bearing bush by a force of the compression spring. 8. The flap device as recited in claim 6 , further comprising: a thrust washer arranged between the second bearing bush and the flap body; and a compression spring, wherein, the flap body is tensioned against the thrust washer by a force of the compression spring. 9. The flap device as recited in claim 6 , further comprising: a third bearing bush configured to support the actuating shaft, wherein, the flow housing comprises a blind hole on a side of the flow housing opposite the bore, the third bearing bush being arranged in the blind hole. 10. The flap device as recited in claim 9 , wherein the third bearing bush comprises an axial end which is configured to protrude into the flow channel.