Anesthetic dispensing device

What is claimed is: 1. An anesthetic dispensing device comprising: a carrier gas inlet; a bypass channel; a dispensing channel arranged parallel to the bypass channel with respect to fluid flow; an anesthetic gas outlet connected to the carrier gas inlet via the bypass channel and via the dispensing channel; an evaporation chamber providing an anesthetic, the evaporation chamber being supplied from the dispensing channel with a gas, which is enriched with an anesthetic in the evaporation chamber, such that gas enriched with anesthetic flows from the evaporation chamber to a mixing point, in which the gas enriched with anesthetic is mixed with gas coming from the bypass channel to form anesthetic gas, which flows to the anesthetic gas outlet; a valve element having a valve opening which is changed to vary a volume flow of gas to be enriched with anesthetic that is flowing through the evaporation chamber; a temperature sensor configured for detecting a temperature in an interior of the evaporation chamber and a surrounding area temperature of the evaporation chamber; an electric motor drive for adjusting the valve opening of the valve element; and a control unit generating a control signal for controlling the electric motor drive on the basis of a concentration of the anesthetic in the anesthetic gas needed at the anesthetic gas outlet and at least one temperature-specific correction factor corresponding to an apparatus specific characteristic of the anesthetic dispensing device, the temperature-specific correction factor being formed by taking into account an absolute temperature and a temperature change in an area surrounding the dispensing device, and an absolute temperature and a temperature change in the evaporation chamber, a memory unit, wherein the control unit is connected to the memory unit, in which the apparatus specific characteristic is stored for determining the temperature-specific correction factor. 2. An anesthetic dispensing device in accordance with claim 1 , wherein the temperature sensor transmits the detected values at least indirectly to the control unit, wherein the temperature sensor is arranged at least in some areas in or at the evaporation chamber, whereby the temperature-specific correction factor is generated taking the detected value into account. 3. An anesthetic dispensing device in accordance with claim 1 , wherein the valve opening is designed in the form of a changeable ring gap. 4. An anesthetic dispensing device in accordance with claim 1 , wherein the valve element has a cone mounted movably with respect to a cone-shaped sleeve. 5. An anesthetic dispensing device in accordance with claim 1 , wherein the electric motor drive comprises one of a stepping motor, a linear motor and a gear motor. 6. An anesthetic dispensing device in accordance with claim 1 , wherein the control unit is integrated into an anesthesia apparatus or an interface is provided for the transmission of data between the control unit and an anesthesia apparatus. 7. An anesthetic dispensing device in accordance with claim 1 , further comprising a heating element for heating the evaporation chamber at least at times. 8. An anesthetic dispensing device in accordance with claim 7 , wherein a control signal is generated in the control unit for adjusting the valve opening, taking a control signal for the heating element into account. 9. An anesthetic dispensing device in accordance with claim 7 , wherein a control signal is generated for the heating element, taking into account at least one of an adjustment of the valve opening and of a control signal for adjusting the valve opening. 10. An anesthetic dispensing device in accordance with claim 1 , further comprising a stop limiting a movement of the valve element in at least one direction of movement. 11. An anesthetic dispensing device in accordance with claim 1 , wherein: the apparatus specific characteristic takes into account temperature-related effects on the valve element. 12. An anesthetic dispensing device comprising: a flow arrangement comprising a bypass channel, a dispensing channel arranged parallel to the bypass channel with respect to fluid flow, a carrier gas inlet and an anesthetic gas outlet connected to the carrier gas inlet via the bypass channel and via the dispensing channel; an evaporation chamber with an anesthetic reservoir, the evaporation chamber being in fluidic connection with the dispensing channel to enrich gas with an anesthetic in the evaporation chamber, such that gas enriched with anesthetic flows from the evaporation chamber to a mixing point, in which the gas enriched with anesthetic is mixed with gas coming from the bypass channel to form anesthetic gas, which flows to the anesthetic gas outlet; a valve element having a variable valve opening which is changed to vary a volume flow of gas to be enriched with anesthetic that is flowing through the evaporation chamber; a temperature sensor configured for detecting a temperature in an interior of the evaporation chamber and a surrounding area temperature of the evaporation chamber; an electric motor drive connected to the valve element and adjusting the valve opening of the valve element; and a control unit generating a control signal for controlling the electric motor drive as a function of a concentration of the anesthetic in the anesthetic gas needed at the anesthetic gas outlet and as a function of at least one temperature-specific correction factor corresponding to an apparatus specific characteristic of the anesthetic dispensing device, the temperature-specific correction factor being formed by taking into account an absolute temperature and a temperature change in an area surrounding the dispensing device, and an absolute temperature and a temperature change in the evaporation chamber, a memory unit, wherein the control unit is connected to the memory unit, in which the apparatus specific characteristic is stored for determining the temperature-specific correction factor. 13. An anesthetic dispensing device in accordance with claim 12 , wherein the temperature sensor the detected values at least indirectly to the control unit, wherein the temperature sensor is arranged at least in some areas in or at the evaporation chamber, whereby the temperature-specific correction factor is generated taking the detected value into account. 14. An anesthetic dispensing device in accordance with claim 12 , in combination with an anesthesia apparatus wherein the control unit is integrated into the anesthesia apparatus or an interface is provided for the transmission of data between the control unit and the anesthesia apparatus. 15. An anesthetic dispensing device in accordance with claim 12 , further comprising a heating element for heating the evaporation chamber at least at times, wherein a control signal is generated in the control unit for adjusting the valve opening, taking a control signal for the heating element into account and a control signal is generated for the heating element, taking into account at least one of an adjustment of the valve opening and of a control signal for adjusting the valve opening. 16. An anesthetic dispensing device in accordance with claim 12 , wherein: the apparatus specific characteristic takes into account temperature-related effects on the valve element. 17. An anesthetic dispensing device comprising: a carrier gas inlet configured to receive a carrier gas; a bypass channel configured to receive the carrier gas from said carrier gas inlet; a dispensing channel configured to receive the carrier gas fr