Respirator for APAP respiration using oscillatory pressure

What is claimed is: 1 . An autoCPAP respirator, wherein the respirator comprises a control unit, a respiration blower, and a pressure sensor, the control unit comprising a first controller for generating a first control signal, which induces a speed of the blower to generate a pressurized breathing gas flow, a second controller for continuously generating a periodically variable control signal, which activates the blower such that the speed of the blower varies in an oscillating manner at a frequency in a range of 1-20 Hz, and a sensor device, which ascertains at least one of an instantaneous speed of the blower, an instantaneous electrical current of the blower, and an instantaneous electrical power of the blower, and wherein characteristic data of the blower stored in a memory, pressure values provided by the pressure sensor, and at least one of the instantaneous speed of the blower, the instantaneous electrical current of the blower, and the instantaneous electrical power of the blower are used to determine a breathing gas flow and/or breathing gas volume generated by the blower. 2 . The autoCPAP respirator of claim 1 , wherein both a speed of a motor and also a pressure in a region of a flow of breathing gas are metrologically detected and supplied to the control unit, the breathing gas flow and/or breathing gas volume being ascertained by the control unit by a computed linkage of measured values for the pressure and the speed. 3 . The autoCPAP respirator of claim 1 , wherein a motor which is provided with the sensor device for speed detection and the pressure sensor is arranged in a region of a flow, the pressure sensor and the sensor device for speed detection being connected to the control unit, and the control unit is provided with a computer unit for determining the breathing gas volume and/or the breathing gas flow by way of a computed linkage of measured values for the pressure and the speed. 4 . The autoCPAP respirator of claim 1 , wherein a characteristic map is metrologically recorded and stored in the respirator before a detection of a flow volume. 5 . The autoCPAP respirator of claim 1 , wherein the pressure is ascertained at a device outlet. 6 . The autoCPAP respirator of claim 1 , wherein an ascertained breathing gas flow is adapted at least temporarily in consideration of ascertained or stored values of one or more compensation parameters. 7 . The autoCPAP respirator of claim 6 , wherein the one or more compensation parameters comprise one or more of ambient pressure, temperature, accessories used, ambient humidity, leakage, and present treatment pressure. 8 . The autoCPAP respirator of claim 6 , wherein at least two compensation parameters are ascertained by sensors or determined by computer or read out or input by a user. 9 . The autoCPAP respirator of claim 6 , wherein the ascertained breathing gas flow is at least temporarily adapted in consideration of ascertained values of the one or more compensation parameters and while using at least one of a characteristic map, a linear regression equation, multidimensional regression, linearization, or quadratic/exponential equations. 10 . The autoCPAP respirator of claim 6 , wherein a stored device-typical compensation parameter is retrieved and used to adapt the ascertained breathing gas flow at least temporarily. 11 . The autoCPAP respirator of claim 1 , wherein values provided by the sensor device are corrected based on ambient pressure. 12 . The autoCPAP respirator of claim 1 , wherein values provided by the sensor device are corrected based on a temperature of a breathing gas at the respiration blower and/or ambient humidity. 13 . The autoCPAP respirator of claim 1 , wherein values provided by the sensor device are corrected by specific characteristic maps depending on accessory type. 14 . The autoCPAP respirator of claim 1 , wherein a FOT (Forced Oscillation Technique) oscillation is generated using the respiration blower and a 1-20 Hz oscillation is modulated for the purpose to achieve a treatment target pressure and is also regulated by a pressure regulator. 15 . The autoCPAP respirator of claim 14 , wherein the respirator is configured to estimate a pressure drop via a hose and other accessories on the basis of a calculated breathing gas flow and is configured to compensate for the pressure drop. 16 . The autoCPAP respirator of claim 1 , wherein a target pressure is changed in an oscillating manner by the controller to generate an FOT oscillation. 17 . The autoCPAP respirator of claim 1 , wherein a consistency of airways is ascertained on the basis of a quotient of an amplitude of computed breathing gas flow and pressure. 18 . The autoCPAP respirator of claim 1 , wherein during apnea classification with FOT, a predefined target pressure value P set is overlaid with a sinusoidal oscillation at a frequency of 2-10 Hz. 19 . An autoCPAP respirator, wherein the respirator comprises a control unit, a respiration blower, and a pressure sensor, the control unit comprising a first controller for generating a first control signal, which induces a speed of the blower to generate a pressurized breathing gas flow, a second controller for continuously generating a periodically variable control signal, which activates the blower such that the speed of the blower varies in an oscillating manner at a frequency in a range of 1-30 Hz, and a sensor device, which ascertains at least one of instantaneous speed of the blower, instantaneous electrical current of the blower, and instantaneous electrical power of the blower, and wherein characteristic data of the blower stored in a memory, pressure values provided by the pressure sensor, and at least one of the instantaneous speed of the blower, the instantaneous electrical current of the blower, and the instantaneous electrical power of the blower are used to determine a breathing gas flow and/or breathing gas volume generated by the blower and the breathing gas flow thus ascertained is adapted at least temporarily in consideration of ascertained values of one or more compensation parameters. 20 . An autoCPAP respirator, wherein the respirator comprises a control unit, a respiration blower and a pressure sensor, the control unit comprising a first controller for generating a first control signal, which induces a speed of the blower to generate a pressurized breathing gas flow, a second controller for continuously generating a periodically variable control signal, which activates the blower such that the speed of the blower varies in an oscillating manner at a frequency in a range of 1-30 Hz, and a sensor device, which ascertains at least an instantaneous speed of the blower, and wherein characteristic data of the blower stored in a memory, pressure values provided by the pressure sensor, and at least one of the instantaneous speed of the blower, the instantaneous electrical current of the blower, and the instantaneous electrical power of the blower are used to determine a breathing gas flow and/or breathing gas volume generated by the blower and the breathing gas flow thus ascertained is adapted at least temporarily in consideration of one or more compensation parameters.