Ventilation system for artificial ventilation with a volume flow display element

What is claimed is: 1 . A ventilation system for the artificial ventilation of a patient, the ventilation system comprising: a ventilator configured to eject a gas mixture comprising oxygen; an inspiratory fluid guide unit configured to be at least temporarily connected to the patient or to be connectable to the patient; a patient-side coupling unit, the inspiratory fluid guide unit being configured to guide the gas mixture ejected by the ventilator to the patient-side coupling unit; an inspiratory display element connected to the inspiratory fluid guide unit or to another fluid guide unit which is at least temporarily in fluid connection with the ventilator and with the inspiratory fluid guide unit; and a signal-processing control unit configured: to determine a measure for the net inspiratory volume flow, wherein the net inspiratory volume flow is the volume flow through the inspiratory fluid guide unit which volume flow the ventilator generates by ejecting the gas mixture and constitutes a portion of the total volume flow is through the inspiratory fluid guide unit; and to control the inspiratory display element depending on the determined net inspiratory volume flow, wherein the inspiratory display element is configured to visually perceptibly display, depending on the control, an indicator of a magnitude of the determined net inspiratory volume flow and an indicator of a direction of flow of the gas mixture through the inspiratory fluid guide unit. 2 . A ventilation system according to claim 1 , further comprising an inspiratory volume flow sensor that is configured to measure a variable indicative of the volume flow through the inspiratory fluid guide unit, wherein the control device is configured to determine the measure of the net inspiratory volume flow using a signal from the inspiratory volume flow sensor. 3 . A ventilation system according to claim 2 , wherein the control unit is configured: to determine an oscillating component in the signal of the inspiratory volume flow sensor; to determine the frequency and/or the amplitude of the oscillating component, and to use the determined frequency and/or amplitude for determining the net inspiratory volume flow. 4 . A ventilation system according to claim 1 , wherein the ventilator further comprises an inspiratory connection piece, wherein the inspiratory fluid guide unit is configured to be detachably and fluid tightly connected to the inspiratory connection piece, wherein the inspiratory connection piece is configured to establish a fluid connection between the inspiratory fluid guide unit and the ventilator with a connection of the inspiratory fluid guide unit with the inspiratory connection piece being established, and wherein the inspiratory display element is attached to the inspiratory connection piece. 5 . A ventilation system according to claim 1 , further comprising: an expiratory fluid guide unit configured to guide a gas mixture leaving from the patient-side coupling unit to the ventilator; and an expiratory display element, which is spatially remote from the inspiratory display element, wherein the expiratory display element is attached to the expiratory fluid guide unit or to another fluid guide unit, which is at least temporarily in fluid connection with the ventilator and with the expiratory fluid guide unit, wherein the control unit is configured: to determine a measure for the expiratory volume flow, wherein the expiratory volume flow is the volume flow which flows through the expiratory fluid guide unit to the ventilator; and to control the expiratory display element as a function of the determined expiration volume flow, and wherein the expiratory display element is configured to visually perceptibly display, depending on the control, an indicator of a magnitude of the determined expiratory volume flow and an indicator of the flow direction of the gas mixture flowing through the expiratory fluid guide unit. 6 . A ventilation system according to claim 5 , wherein the ventilator further comprises an inspiratory connection piece, wherein the inspiratory fluid guide unit is configured to be detachably and fluid tightly connected to the inspiratory connection piece, wherein the inspiratory connection piece is configured to establish a fluid connection between the inspiratory fluid guide unit and the ventilator with a connection of the inspiratory fluid guide unit with the inspiratory connection piece being established, wherein the inspiratory display element is attached to the inspiratory connection piece, wherein the ventilator further comprises an expiratory connection piece which is spatially remote from the inspiratory connection piece, wherein the expiratory fluid guide unit is configured to be detachably and fluid tightly connected to the expiratory connection piece, wherein the expiratory connection piece is configured to establish a fluid connection between the expiratory fluid guide unit and the ventilator with a connection of the expiratory fluid guide unit with the expiratory connection piece being established, and wherein the expiratory display element is attached to the expiratory connection piece. 7 . A ventilation system according to claim 5 , further comprising: an inspiratory volume flow sensor configured to measure a variable indicative of the volume flow through the inspiratory fluid guide unit; and an expiratory volume flow sensor configured to measure a variable indicative of the volume flow through the expiratory fluid guide unit, wherein the ventilation system is configured to establish at least temporarily a ventilation circuit between the patient-side coupling unit and the ventilator, wherein the ventilation circuit comprises circuit flow through the inspiratory fluid guide unit and through the expiratory fluid guide unit, and wherein the control device is configured to determine the measure for the net inspiratory volume flow based on the measured volume flow through the inspiratory fluid guide unit and based on the measured volume flow through the expiratory fluid guide unit. 8 . A ventilation system according to claim 1 , wherein the control unit is configured: to capture a measure for a predetermined maximum target volume flow which the ventilator is to generate by ejecting the gas mixture; and to control the inspiratory display element depending on a quotient between the determined net inspiratory volume flow and the captured maximum target volume flow. 9 . A ventilation system according to claim 1 , wherein the displayed indicator for the determined net inspiratory volume flow comprises a degree of brightness of the inspiratory display element and/or a frequency of a flashing or flickering of the inspiratory display element, wherein the ventilation system is configured such that the brightness and/or the frequency of a flashing or flickering depends on the determined net inspiratory volume flow. 10 . A ventilation system according to claim 1 , further comprising: a pneumatic switch; a bypass fluid guide unit which connects an output of the pneumatic switch to the patient-side coupling unit, wherein the pneumatic switch is configured to direct a mixture selectively into the ventilator or into the bypass fluid guide unit; a bypass display element attached to the bypass fluid guide unit or to another fluid guide unit, which is at least temporarily in fluid connection with the ventilator and with the bypass fluid guide unit, wherein the control unit is configured: to determine a measure of the bypass volume flow, that is a volume flow through the bypass fluid guide unit, and to control the bypass display element depending on the det