Ventilation drive for an anesthesia device and method for operating such a ventilation drive

1 . A ventilation drive comprising: a blower unit; a pressure chamber; and with a flexible bag located in the pressure chamber; an air inlet, wherein an internal volume of the bag is coupled to an inspiratory branch of a ventilation line, and the blower unit can be coupled to an internal volume of the pressure chamber on an outlet side of the blower unit and to the air inlet for supplying ambient air on an inlet side of the blower unit; and a flow sensor between the outlet side of the blower unit and the pressure chamber. 2 . A ventilation drive in accordance with claim 1 , further comprising a control unit configured to change the speed of the blower unit as a function of a flow sensor signal of the flow sensor. 3 . A ventilation drive in accordance with claim 2 , wherein the control unit is configured to change the speed of the blower unit as a function of the flow sensor signal as well as of a preset flow set point. 4 . A ventilation drive in accordance with claim 3 , wherein the control unit is configured to change the speed of the blower unit as a function of the flow sensor signal as well as of the preset flow set point such that a volume flow-controlled ventilation is carried out. 5 . A ventilation drive in accordance with claim 2 , wherein the control unit is configured to change the speed of the blower unit as a function of the flow sensor signal as well as of a preset tidal volume set point. 6 . A ventilation drive in accordance with claim 5 , wherein the control unit is configured to determine a tidal volume from the flow sensor signal as well as further to change the speed of the blower unit as a function of the determined tidal volume and of the preset tidal volume set point, such that a volume-controlled ventilation is carried out. 7 . A ventilation drive in accordance with claim 1 , further comprising a pressure sensor and a control unit is configured to change the speed of the blower unit as a function of a pressure sensor signal of the pressure sensor. 8 . A ventilation drive in accordance with claim 7 , wherein the control unit is configured to change the speed of the blower unit as a function of the pressure sensor signal as well as of a preset pressure set point such that a pressure-controlled ventilation is carried out. 9 . A ventilation drive in accordance with claim 1 , further comprising: a directional control valve between the blower unit and the pressure chamber, wherein a first gas path and a second path can be switched by means of the directional control valve, wherein the blower unit delivers ambient air drawn in from the surrounding area into the pressure chamber by means of the first gas path and wherein the blower unit delivers air leaving the pressure chamber into the surrounding area by means of the second gas path. 10 . A ventilation drive in accordance with claim 9 , further comprising a bypass from the directional control valve to an inlet side of the blower unit. 11 . A ventilation drive in accordance with claim 10 , further comprising a nonreturn valve on the inlet side of the blower unit, wherein the bypass is connected to a connection between the nonreturn valve and the blower unit. 12 . A ventilation drive in accordance with claim 9 , further comprising a pressure sensor and a control unit for processing at least one measured value originating from the pressure sensor and for actuating the directional control valve as a function of the measured value and further as a function of a ventilation profile preset or presettable by the control unit. 13 . A method for operating a ventilation drive, the method comprising the steps of: providing a ventilation drive comprising a blower unit, a pressure chamber, a flexible bag located in the pressure chamber, an air inlet, wherein an internal volume of the bag is coupled to an inspiratory branch of a ventilation line, the blower unit can be coupled to an internal volume of the pressure chamber on an outlet side of the blower unit and to the air inlet for supplying ambient air on an inlet side of the blower unit and a flow sensor between the outlet side of the blower unit and the pressure chamber; drawing ambient air in by means of the blower unit; and delivering the drawn ambient air into the pressure chamber for compressing the bag as well as for displacing a part of the breathing gas volume present in the bag into the inspiratory branch into the pressure chamber. 14 . A method in accordance with claim 13 , further comprising the step of providing the ventilation drive with a directional control valve between the blower unit and the pressure chamber, wherein a first gas path and a second path can be switched by means of the directional control valve, wherein the blower unit can deliver ambient air drawn in from the surrounding area into the pressure chamber via the first gas path and wherein the blower unit can deliver air leaving the pressure chamber into the surrounding area via the second gas path, wherein the ventilation drive is switched cyclically over between an inspiratory phase and an expiratory phase and wherein the switchover comprises a switching over of the directional control valve, such that the first gas path is switched by means of the directional control valve for ambient air drawn by means of the blower unit into the pressure chamber during the inspiratory phase and the second gas path is switched for air leaving the pressure chamber during the expiratory phase. 15 . A medical device with a ventilation drive, the ventilation drive comprising: a blower unit; a pressure chamber; a flexible bag located in the pressure chamber; an air inlet, wherein an internal volume of the bag is coupled to an inspiratory branch of a ventilation line, the blower unit can be coupled to an internal volume of the pressure chamber on an outlet side of the blower unit and to the air inlet for supplying ambient air on an inlet side of the blower unit; and a flow sensor between the outlet side of the blower unit and the pressure chamber. 16 . A medical device in accordance with claim 15 , further comprising the ventilation line, which is connected to the bag and which comprises the inspiratory branch and an expiratory branch; an actuatable shut-off valve in the ventilation line, wherein the ventilation drive can be switched cyclically over between an inspiratory phase and an expiratory phase, wherein the shut-off valve can be actuated for opening for an emergency ventilation during a prolonged expiratory phase and wherein the expiratory branch can be coupled to the ambient air in the opened state. 17 . A medical device in accordance with claim 15 , further comprising a control unit configured to change the speed of the blower unit as a function of a flow sensor signal of the flow sensor as well as of a preset flow set point. 18 . A medical device in accordance with claim 15 , further comprising: a directional control valve between the blower unit and the pressure chamber, wherein a first gas path and a second path can be switched by means of the directional control valve, wherein the blower unit delivers ambient air drawn in from the surrounding area into the pressure chamber via the first gas path and wherein the blower unit delivers air leaving the pressure chamber into the surrounding area via the second gas path. 19 . A medical device in accordance with claim 18 , further comprising: a bypass from the directional control valve to an inlet side of the blower unit; and a nonreturn valve on the inlet side of the blower unit, wherein