Connecting port arrangement for use in an apparatus for producing a composite material component

The invention claimed is: 1. A connecting port arrangement for use in an apparatus for producing a composite material component, the connecting port arrangement comprising: a base member attached to a surface of a foil adapted to seal a mold of the apparatus for producing a composite material component, and being provided with a channel extending therethrough, and a punch member adapted to be inserted into the channel formed in the base member, and being is provided with a cutting device suitable to cut at least one opening into the foil, wherein the cutting device of the punch member comprises at least one of: a cutting edge adapted to cut a single opening into the foil when the punch member is rotated relative to the base member when being inserted into the channel provided in the base member such that the cutting edge cuts into to the foil, and a plurality of pikes adapted to cut a plurality of openings into the foil when the punch member is displaced relative to the base member when being inserted into the channel provided in the base member in a direction towards the surface of the foil. 2. The connecting port arrangement according to claim 1 , wherein a channel is formed in the punch member, the channel being sealed by a semipermeable membrane allowing air to pass therethrough, but preventing liquid plastic material from passing therethrough. 3. The connecting port arrangement according to claim 1 , wherein the base member comprises an attachment portion via which the base member is attached to the surface of the foil and a protruding portion protruding from the attachment portion in a direction facing away from the surface of the foil, the protruding portion comprising a coupling device connectible to a connection element for connecting the at least one opening cut into the foil to at least one of a vacuum source and a liquid plastic material source of the apparatus for producing a composite material component. 4. The connecting port arrangement according to claim 1 , wherein an attachment device for attaching the base member to the surface of the foil comprises at least one of: a first adhesive member, the first adhesive member being disposed in a recess formed in a surface of the base member facing the surface of the foil, and a suction port connected to a vacuum source of the apparatus for producing a composite material component in order to generate a reduced pressure in a region between the surface of the base member which faces the surface of the foil and the surface of the foil, so as to attach the base member to the surface of the foil. 5. The connecting port arrangement according to claim 4 , wherein the suction port comprises at least one of: a coupling portion connectible to the vacuum source of the apparatus for producing a composite material component, a groove formed in the surface of the base member facing the surface of the foil, and a channel portion connecting the coupling portion to the groove. 6. The connecting port arrangement according to claim 1 , further comprising a sealing element adapted to seal a space between the surface of the foil and the surface of the base member which faces the surface of foil, the sealing element being formed integral with a first adhesive member of an attachment device for attaching the base member to the surface of the foil. 7. The connecting port arrangement according to claim 1 , wherein the punch member is provided with an abutment portion adapted to interact with a complementary abutment portion provided on the base member to limit a movement of the punch member relative to the base member in the direction of the surface of the foil when the punch member is inserted into the channel formed in the base member. 8. The connecting port arrangement according to claim 1 , wherein the punch member comprises a second adhesive member disposed in a region of an end face of the punch member facing the surface of the foil when the punch member is inserted into the channel formed in the base member, the second adhesive member being adapted to stick to a portion of the foil which is cut from the foil via the punch member. 9. The connecting port arrangement according to claim 1 , further comprising a positioning device extending from the surface of the foil and being adapted to protrude into the channel formed in the base member. 10. The connecting port arrangement according to claim 9 , wherein the positioning device comprises at least one of: a preformed portion of the foil, and an insert placed adjacent to a surface of the foil facing away from the base member. 11. The connecting port arrangement according to claim 10 , wherein the insert comprises at least one of: a first portion adapted to protrude into the channel formed in the base member, a second portion surrounding the first portion, a third portion extending from a surface of the second portion in a direction facing away from the foil, and a distribution port comprising a distribution line arranged adjacent to a surface of the first portion facing away from the foil and at least one connection channel extending from the distribution line in a direction facing away from the foil. 12. An apparatus for producing a composite material component, the apparatus comprising: a mold, and a connecting port arrangement according to claim 1 . 13. A method for producing a composite material component, the method comprising the steps: attaching a base member to a surface of a foil sealing a mold of an apparatus for producing a composite material component, the base member provided with a channel extending therethrough, and cutting at least one opening into the foil with a punch member which is inserted into the channel formed in the base member and which is provided with a cutting device, wherein the cutting device of the punch member comprises at least one of: a cutting edge adapted to cut a single opening into the foil when the punch member is rotated relative to the base member when being inserted into the channel provided in the base member such that the cutting edge cuts into to the foil, and a plurality of pikes adapted to cut a plurality of openings into the foil when the punch member is displaced relative to the base member when being inserted into the channel provided in the base member in a direction towards the surface of the foil. 14. The method of claim 13 , further comprising the step: connecting the at least one opening cut into the foil to a vacuum source of the apparatus for producing a composite material component and generating a reduced pressure within the mold sealed by the foil by means of the vacuum source. 15. The method of claim 13 , further comprising the step: connecting the at least one opening cut into the foil to a liquid plastic material source of the apparatus for producing a composite material component and supplying liquid plastic material from the liquid plastic material source to the mold via the at least one opening cut into the foil. 16. The method of claim 14 , including the step of removing the punch member from the channel formed in the base member prior to connecting the at least one opening cut into the foil to the vacuum source of the apparatus for producing a composite material component. 17. The method of claim 15 , including the step of removing the punch member from the channel formed in the base member prior to connecting the at least one opening cut into the foil to the liquid plastic material source of the apparatus for producing a composite material component. 18. The method of cla