Liquid separator for removing a liquid from a sample of a breathing gas and airway adapter

We claim: 1. A liquid separator for removing a liquid from a sample of a breathing gas flowing through an airway adapter having a channel surrounded by a wall, said channel being configured to locate between a patient and a ventilator, said liquid separator comprising: a chamber configured to receive the gas sample of the breathing gas; a membrane having an outer surface exposed to the breathing gas flow, said membrane at least partially surrounding the interior of said chamber and said membrane is configured to separate the liquid from the gas sample received by said chamber; a supporting structure for supporting said membrane; and a connector operationally attached to said supporting structure and which connector is connectable to said airway adapter, said connector comprising a cavity providing a flow path for the sample gas from said chamber through an opening of said cavity to a sample tube, wherein said membrane is configured to branch from a central part of said channel into at least two different branches, each of said at least two branches extending to different directions to obtain the sample, and wherein said opening is positioned in said central part of said channel. 2. The liquid separator according to claim 1 , wherein each of said at least two branches are configured to extend towards said wall. 3. The liquid separator according to claim 1 , wherein said opening of said cavity is configured to locate inside said channel at a predetermined distance from said wall. 4. The liquid separator according to claim 3 , wherein said predetermined distance from said wall is at least 10% of a diameter of said channel. 5. The liquid separator according to claim 1 , wherein said liquid separator is one of integrated with said airway adapter and detachably connected to said airway adapter. 6. The liquid separator according to claim 1 , wherein said at least two branches with said membrane are configured to extend crosswise in respect to a longitudinal axis of said channel from a central part of said channel. 7. The liquid separator according to claim 1 , wherein said membrane is configured to branch from a central part of said channel into at least three different branches, each branch into different directions towards the wall. 8. The liquid separator according to claim 2 , wherein said at least two different branches towards the wall are configured to form an angle which is one of equal to 180 degrees and less than 180 degrees. 9. The liquid separator according to claim 8 , wherein said angle which is less than 180 degrees is between 5-90 degrees. 10. The liquid separator according to claim 1 , wherein said branches at least partially restrict the breathing gas flow through said channel diverting a portion of the breathing gas flow to the sample tube, providing an indication of the breathing gas flow. 11. The liquid separator according to claim 2 , wherein said membrane of at least one branch of said at least two branches is configured to reach said wall or is configured to stay at a predetermined distance from said wall. 12. The liquid separator according to claim 11 , wherein said predetermined distance from said wall is at least 2% of a diameter of said channel. 13. The liquid separator according to claim 1 , wherein said central part of the channel is configured to cover a central area around the middle of said channel. 14. The liquid separator according to claim 1 , wherein said central part is configured to extend around the middle of said channel towards said wall less than 25% of a predetermined diameter of said channel. 15. An airway adapter comprising: a channel surrounded by a wall for a breathing gas flow, said channel being configured to locate between a patient and a ventilator; a first port for delivering breathing gas; a second port for delivering breathing gas, said second port being in flow communication with said first port through said channel; and a liquid separator extending into said channel for removing a liquid from a sample of the breathing gas flowing through said channel, said liquid separator comprising a chamber configured to receive the sample of the breathing gas, a membrane having an outer surface exposed to the breathing gas flow, said membrane at least partially surrounding the interior of said chamber and said membrane is configured to separate the liquid from the gas sample configured to be received by said chamber, a supporting structure for supporting said membrane, and a connector operationally attached to said supporting structure, said connector comprising a cavity providing a flow path for the sample gas from said chamber through an opening of said cavity to a sample tube, said connector being operationally connected to said wall, wherein said membrane is configured to branch from a central part of said channel into at least two different branches, each of said at least two branches extending to different directions towards said wall to obtain the sample, and wherein said opening is positioned in said central port of said channel. 16. The airway adapter according to claim 15 , further comprising a third port in said wall, said connector of said liquid separator being one of integrated with said third port of said wall and detachably connected to said third port. 17. The airway adapter according to claim 16 , wherein said third port is covered by a penetrable membrane through which said liquid separator is configured to be moved into the said channel. 18. The airway adapter according to claim 15 , wherein said at least two branches with said membrane are configured to extend crosswise in respect to a longitudinal axis of said channel from a central part of said channel. 19. The airway adapter according to claim 15 , wherein at least one branch of said at least two branches is configured to stay at a predetermined distance from said wall, said predetermined distance from said wall being at least 2% of a diameter of said channel. 20. An airway adapter comprising: a channel surrounded by a wall for a breathing gas flow, said channel being configured to locate between a patient and a ventilator; a first port for delivering breathing gas; a second port for delivering breathing gas, said second port being in flow communication with said first port through said channel; and a liquid separator extending into said channel for removing a liquid from a sample of the breathing gas flowing through said channel, said liquid separator comprising a chamber configured to receive the sample of the breathing gas, a membrane having an outer surface exposed to the breathing gas flow, said membrane at least partially surrounding the interior of said chamber and said membrane is configured to separate the liquid from the gas sample configured to be received by said chamber, a supporting structure for supporting said membrane, and a connector operationally attached to said supporting structure, said connector comprising a cavity providing a flow path for the sample gas from said chamber through an opening of said cavity to a sample tube, said connector being operationally connected to said wall, wherein said membrane is configured to branch from a central part of said channel into at least two different branches, each of said at least two branches extending to different directions towards said wall to obtain the sample, and that said branches at least partially restrict the breathing gas flow through said channel, diverting a portion of the breathing gas flow to the sample tube, providing an