Membrane valve arrangement

The invention claimed is: 1. A membrane valve arrangement ( 1 a , 1 b , 1 c , 1 d , 1 e , 1 f , 1 g , 1 h , 1 i , 1 j , 1 k , 1 l , 1 m , 1 n , 1 o , 1 p ) comprising: a disc-shaped valve membrane ( 10 , 27 ) made from an elastic material and a disc ( 14 , 14 a , 14 c , 14 d ) having a central opening ( 15 ), wherein the valve membrane ( 10 , 27 ) has a first side and a second side and is arranged with the first side on the disc ( 14 , 14 a , 14 c , 14 d ), wherein the valve membrane ( 10 , 27 ) has a circumferential sealing bead ( 11 , 28 ) radially outside on the second side away from the first side where the disc is arranged, wherein the disc ( 14 , 14 a , 14 c , 14 d ) is arranged along with the valve membrane ( 10 , 27 ) between a housing upper part ( 2 , 16 ) and a housing lower part ( 6 , 20 ) of the membrane valve arrangement ( 1 ), wherein the sealing bead ( 11 , 28 ) is clamped between the housing upper part ( 2 , 16 ) and the housing lower part ( 6 , 20 ), and wherein at least one additional sealing arrangement is present, at least on the housing upper part ( 2 , 16 ) or on the housing lower part ( 6 , 20 ), in the region of the sealing bead ( 11 , 28 ) or in a radially outer peripheral region of the disc ( 14 , 14 a , 14 c , 14 d ) supporting the valve membrane ( 10 , 27 ); wherein the sealing bead ( 11 , 28 ) of the valve membrane ( 10 , 27 ) is received in an axial ring groove ( 3 , 17 ) formed by an axial shoulder in the housing upper part ( 2 , 16 ) and a ring-shaped axial projection ( 8 , 22 ) of the housing lower part ( 6 , 20 ) radially surrounding the axial shoulder, wherein this axial ring groove ( 3 , 17 ) is dimensioned such that the elastic material ( 11 a , 28 a ) of the valve membrane ( 10 , 27 ), which during the clamping of the housing upper part ( 2 , 16 ) is pressed against the housing lower part ( 6 , 20 ), is received into at least one receiving space ( 5 , 26 , 26 a , 26 b ) of the ring groove ( 3 , 17 ), and wherein the at least one receiving space ( 5 ; 26 ; 26 a ; 26 b ) creates one of the at least one additional sealing arrangement along with the pressed elastic material ( 11 a , 28 a ); and wherein in the ring-shaped axial projection ( 22 ) of the housing lower part ( 20 ) surrounding the sealing bead ( 28 ), a receiving space ( 26 ) is formed by a radial circumferential groove which, when the housing upper part ( 16 ) is clamped against the housing lower part ( 20 ), receives pressed elastic material ( 28 a ) of the valve membrane ( 27 ) and forms the one of the at least one additional sealing arrangement, wherein the radial circumferential groove in the axial projection ( 22 ) of the housing lower part ( 20 ) forming the receiving space ( 26 ) has a circumferential inclined surface ( 23 ), a circumferential axis-parallel surface ( 24 ), and a radial circumferential surface ( 25 ), so that an additional radial sealing action is achieved on the circumferential inclined surface ( 23 ), wherein the receiving space ( 26 ), along with the pressed material ( 28 a ) of the sealing bead ( 28 ), forms the one of the at least one additional radial sealing arrangement. 2. The membrane valve arrangement ( 1 a ) as claimed in claim 1 , wherein the ring groove ( 3 ) has at least one inclined axial surface ( 4 ) and a radial surface ( 4 a ), that the ring groove ( 3 ) forms one of the at least one receiving space ( 5 ), wherein the ring groove proximate to the radial surface is only filled with the elastic material ( 11 a ) of the sealing bead ( 11 ) by the application of axial force on at least one of the housing upper part ( 2 ) or the housing lower part ( 6 ), and wherein, in a clamped state of the housing upper part ( 2 ) against the housing lower part ( 6 ), elastic material ( 11 a ) of the sealing bead ( 11 ) of the valve membrane ( 10 , 27 ) is pressed into the one of the at least one receiving space ( 5 ), wherein the receiving space ( 5 ) and the material ( 11 a ) of the sealing bead ( 11 ) pressed therein create the one of the at least one additional axial sealing arrangement. 3. The membrane valve arrangement ( 1 d ) as claimed in claim 1 , wherein an additional ring-shaped gap is formed between the housing upper part ( 16 ) and the housing lower part ( 20 ) above the sealing bead ( 28 ), the ring-shaped gap forming another one of the at least one receiving space ( 26 b ) for the elastic material ( 28 a ) pressed during the clamping of the housing upper part ( 16 ) against the housing lower part ( 20 ), wherein this ring-shaped gap along with the material ( 28 a ) pressed therein forms an additional radial sealing arrangement. 4. The membrane valve arrangement ( 1 e , 1 i , 1 j , 1 n ) as claimed in claim 1 , wherein the housing upper part ( 16 ) or the disc ( 14 , 14 a , 14 d ) has an axially oriented ring bead ( 16 a , 14 b ), that delimits a circumferential groove as a receiving space ( 26 , 26 a ) for the elastic material ( 28 a ) being displaced when the housing upper part ( 16 ) is clamped against the housing lower part ( 20 ), and that the receiving space ( 26 , 26 a ) formed by the circumferential groove along with the at least one ring bead ( 16 a , 14 b ) forms one of the at least one additional axial sealing arrangement. 5. The membrane valve arrangement ( 1 e ) as claimed in claim 1 , wherein the housing lower part ( 20 ) has a ring-shaped radial bearing surface ( 30 ) and the disc ( 14 a ) supporting the valve membrane ( 27 ) has a complementary ring surface ( 14 f ), and a ring groove ( 31 ) for receiving an O-ring ( 32 ) is arranged in at least one of the ring-shaped radial bearing surface ( 30 ) and the ring surface ( 14 f ), and wherein the O-ring ( 32 ) forms one of the at least one additional axial sealing arrangement in the ring groove ( 31 ). 6. The membrane valve arrangement ( 1 f , 1 g , 1 k ) as claimed in claim 1 , wherein the housing lower part ( 20 ) has a ring-shaped radial bearing surface ( 30 ) for the disc ( 14 ) supporting the valve membrane ( 27 ), that the bearing surface ( 30 ) or a complementary ring surface ( 14 f ) of the disc ( 14 ) facing the bearing surface ( 30 ) bears a coating made injection-molded silicone rubber or of vulcanized rubber, wherein the coating, in connection with the bearing surface ( 30 ) of the housing lower part ( 20 ) and the complementary ring surface ( 14 f ) of the disc ( 14 ), forms one of the at least one additional axial sealing arrangement. 7. The membrane valve arrangement ( 1 h ) as claimed in claim 1 , wherein the outer diameter of the disc ( 14 c ) supporting the valve membrane ( 27 ) is smaller than the inner diameter of the ring-shaped axial projection ( 22 ) of the housing lower part ( 20 ) and that the ring space thereby created between the disc ( 14 c ) and the projection ( 22 ) is filled by a silicone rubber seal ( 36 b ) injection-molded onto a radial outer surface ( 14 g ) of the disc ( 14 c ) or a rubber seal ( 36 b ) vulcanized onto the radial outer surface, wherein the seal ( 36 b ) injection-molded onto the radial outer surface ( 14 g ) of the disc ( 14 c ) forms one of the at least one additional axial sealing arrangement. 8. The membrane valve arrangement ( 1 i ) as claimed in claim 1 , wherein a circumferential groove ( 31 a , 31 b ) for receiving an O-ring ( 32 a ) is configured in an outer circumference of the disc ( 14 a ) supporting the valve membrane ( 27 ), wherein the circumferential groove ( 31 a , 31 b ) with the O-ring ( 32 a ) forms one of the at least one additional axial sealing arrangement.