Method for operating a delivery apparatus, and delivery apparatus

The invention claimed is: 1. A method for operating a delivery apparatus for delivering a flowable construction material, wherein the delivery apparatus comprises a control device, an eccentric screw pump having a rotor-stator unit with an outlet, and a drive unit, comprising the steps: a target pressure at the outlet of the eccentric screw pump or at a delivery section arranged downstream of the outlet is preset at a target-pressure setting device, a characteristic variable, including at least one of a mechanical power, electrical power, a rotational speed, a torque, and a current of the drive unit of the eccentric screw pump is measured, an actual pressure in a region of the outlet of the rotor-stator unit and/or in the delivery section arranged downstream of the outlet is measured by at least one pressure sensor, a change in the actual pressure measured by the at least one pressure sensor is related to at least one of the characteristic variables, wherein, in the event of a rise in the actual pressure above the target pressure, a reduction at least of one of the characteristic variables is adjusted by the control device so that the target pressure is achieved again, wherein, in the event of a pressure drop in the actual pressure below the target pressure, an increase at least of one of the characteristic variables is adjusted by the control device so that the target pressure is achieved again, and wherein, in switching positions, in which an operating-mode setting device is adjusted to “filling and cleaning the eccentric screw pump”, pressure changes detected by the at least one pressure sensor are ignored by the control device and, in said switching positions of the operating-mode setting device, the drive unit is operated at a constant rotational speed or at a constant torque or at a constant power which is greater than 0% and at most 50% of a rotational speed or a torque or a power with which the drive unit is operated in a “normal mode”. 2. The method according to claim 1 , wherein the actual pressure is measured by at least two pressure sensors, wherein the actual pressure is measured by a first pressure sensor at the outlet, and wherein the actual pressure is measured by a second pressure sensor at the delivery section arranged downstream of the outlet, wherein the delivery section also comprises a discharging device out of which the flowable construction material is sprayed. 3. The method according to claim 1 , wherein, during operation, the target pressure is achieved so that, in the control device, on the basis of a difference between the at least one measured actual pressure and the target pressure, an adapted characteristic variable value, including at least one of an adapted mechanical power value, an adapted electrical power value, an adapted rotational speed value, an adapted torque value, an adapted value of the current determined by a PI controller and a power, a rotational speed, and a torque of the drive of the eccentric screw pump is set to said value or values. 4. The method according to claim 2 , wherein a pressure difference between the actual pressure measured by the first pressure sensor at the outlet and the actual pressure measured by the second pressure sensor at the delivery section is determined by the control device, and wherein an optical and/or acoustic warning signal is activated and/or the power of the drive unit is reduced and/or a drive of the drive unit of the rotor-stator unit of the eccentric screw pump is switched off if the actual pressure measured by the second pressure sensor differs considerably from the actual pressure measured by the first pressure sensor. 5. The method according to claim 1 , wherein the eccentric screw pump is operated either with a first rotor-stator unit for delivering paint, or wherein the eccentric screw pump is operated with a second rotor-stator unit for delivering mortar or plaster, and in that the control device, depending on the first or second rotor-stator unit being in operation, is operated either by a first control program which is adapted to the first rotor-stator unit and to target pressures of from greater than 0 bar up to 180 bar, or is operated by a second control program which is adapted to the second rotor-stator unit and to target pressures of from greater than 0 bar up to 60 bar. 6. The method according to claim 1 , wherein, in switching positions, in which an operating-mode setting device is on “filling and cleaning the eccentric screw pump”, pressure changes detected by the at least one pressure sensor up to a limit value are ignored by the control device and, in said switching positions of the operating-mode setting device, the drive unit is operated at a constant rotational speed or a constant power which is greater than 0% and at most 50% of a rotational speed or power with which the drive unit operates in a normal mode and, in said switching positions of the operating-mode setting device, the drive unit is switched off if the limit value is measured at the pressure sensor or at one of the pressure sensors. 7. The method according to claim 1 , wherein, in a switching position, in which an operating-mode setting device is on “rearward delivering of construction material”, pressure changes detected by the at least one pressure sensor are ignored by the control device, and in that, in said switching position of the operating mode setting device, the drive unit is operated in a reverse direction of rotation at a constant rotational speed or a constant torque which, in comparison to a normal mode, is greater than 0% and at most 50% of a rotational speed or a torque with which the drive operates in a normal mode. 8. The method according to claim 1 , wherein, in a switching position, in which an operating-mode setting device is on “rearward delivering of construction material”, pressure changes detected by the at least one pressure sensor up to a limit value are ignored by the control device, and in that, in said switching position of the operating-mode setting device, the drive unit, with an actual pressure lying below the limit value, is operated in a reverse direction of rotation at a constant rotational speed or a constant torque which is greater than 0% and at most 50% of a rotational speed with which the drive unit operates in a normal mode, and, in said switching position of the operating-mode setting device, the drive is switched off when an actual pressure reaches the limit value. 9. The method according to claim 1 , wherein the target pressure to be produced by the eccentric screw pump is set by means of a manually actuable target-pressure setting device arranged on the delivery apparatus or in that the target pressure to be produced by the eccentric screw pump is set by means of an application which is executed on an electronic device, wherein data traffic between the control device and the electronic device is carried out wirelessly by means of a direct connection or wirelessly via a mobile radio network. 10. The method according to claim 1 , wherein the delivery apparatus is operated in a normal mode in such a manner that, in the event of a sudden drop in the actual pressure, the sudden drop being determined by the first pressure sensors, the drive unit is switched off and/or an acoustic or optical interfering signal is activated by the control device and/or an interfering signal is transmitted by the control device to an electronic device if the drop in the actual pressure is established without a power drop of the drive unit being established. 11. The delivery apparatus for carrying out a method according to claim 1 , comprising an eccentric screw pump having a rotor-stator unit with an outlet, a drive unit, a con