Calibration vessel and method for calibration

The invention claimed is: 1 . A calibration vessel for an optical immersion sensor to be calibrated, which is designed for measuring, calibrating and/or adjusting a measured variable, comprising: a housing having a repeatably tightly sealable opening for introducing the optical immersion sensor; wherein the housing comprises a calibration solution in the interior thereof: wherein the housing provides the value for the calibration solution; wherein the opening comprises a guide for aligning and positioning the optical immersion sensor to be calibrated in relation to all possible spatial degrees of freedom; wherein the housing is designed such that the influence of the interactions between the light, emitted and received by the sensor, and the housing wall, in particular as a result of scattering, absorption, reflection, phosphorescence and fluorescence, on the measured value that can be ascertained by the sensor is minimal; wherein the volume of the calibration solution is minimized at the same time. 2 . The calibration vessel according to claim 1 , wherein the calibration vessel provides the value for the calibration solution by the value being specified on the calibration vessel or on the housing as a nominal value, in particular by means of a sticker. 3 . The calibration vessel according to claim 1 , wherein the calibration vessel provides the value for the calibration solution by the absolute value of the calibration solution being detected using a reference device that can be connected to the calibration vessel and is designed to monitor the calibration solution for changes or deviations with respect to a reference value. 4 . The calibration vessel according to claim 3 , wherein the reference device is an external sensor, in particular a further immersion sensor that is structurally identical to the optical immersion sensor to be calibrated, wherein said further immersion sensor is already calibrated. 5 . The calibration vessel according to claim 3 , wherein the reference device is fixedly arranged on or in the calibration vessel. 6 . The calibration vessel according to claim 5 , wherein the reference device is arranged on the outside of the housing. 7 . The calibration vessel according to claim 3 , wherein the immersion sensor and the reference device have contact with the interior of the housing and thus the calibration solution via an optical window thereon. 8 . The calibration vessel according to claim 3 , wherein the reference device is a turbidity meter designed as an absorption sensor. 9 . The calibration vessel according to claim 3 , wherein the reference device is a turbidity meter designed for backscatter measurement, in particular comprising a light source, for example an LED, for emitting outgoing light and a photodiode integrated therein for receiving incoming light, wherein the outgoing light is converted into incoming light by the calibration solution. 10 . The calibration vessel according to claim 3 , wherein the reference measuring device is a turbidity meter designed for 90° scattered light measurement. 11 . The calibration vessel according to claim 1 , comprising a display unit, which is connected to the reference device and is designed to display the measured value for the measured variable ascertained by the reference device as changes or a deviation with respect to a reference value and/or as an absolute measured value; the display unit in particular comprises one or more LEDs or a display for displaying a numerical value. 12 . The calibration vessel according to claim 1 , wherein the surfaces, angles, transitions, bevels and radii of the housing are designed such that light emitted by the turbidity sensor is refracted away therefrom. 13 . The calibration vessel according to claim 1 , wherein the housing, in particular the interior of the housing, consists of a non-reflective, in particular black, non-glossy and/or matte, material. 14 . The calibration vessel according to claim 1 , wherein the opening for introducing the immersion sensor comprises a guide having a stop, the guide being designed such that the immersion sensor is guided by the guide to the stop as an end position so that it is positively fixedly fixed, positioned and aligned in the stop in all three spatial directions (x, y, z). 15 . The calibration vessel according to claim 1 , wherein the housing is designed such that the distance between the guide and the opposite wall is large enough that the wall has no influence, or as little influence as possible, on the measured value. 16 . The calibration vessel according to claim 1 , wherein the opening for introducing the immersion sensor comprises a sealing system having a cover, a film or a membrane. 17 . The calibration vessel according to claim 16 , wherein the opening is designed to be repeatably sealable by means of the sealing system. 18 . The calibration vessel according to claim 16 , wherein the sealing system comprising the cover, film or membrane is designed to be pierced before first use. 19 . The calibration vessel according to claim 1 , comprising one or more cleaning units for the immersion sensor to be calibrated and/or the reference device, which in particular clean the optical window(s). 20 . The calibration vessel according to claim 19 , wherein the cleaning units are designed as a wiper, brush, air cleaning system, ultrasonic cleaning system or as a combination thereof. 21 . The calibration vessel according to claim 1 , comprising a circulation system in the housing, in particular a stirrer, magnetic stir bar or the like, which is designed to circulate the calibration solution. 22 . The calibration vessel according to claim 1 , comprising a transmitter for controlling the calibration process and for performing an adjustment process, the transmitter being connected to the reference device, in particular also being connected to the immersion sensor, and for actuating the display unit, for controlling the cleaning unit and/or for controlling the circulation system. 23 . A method for calibrating an optical immersion sensor using a calibration vessel, wherein: the calibration vessel is for an optical immersion sensor to be calibrated, which is designed for measuring, calibrating and/or adjusting a measured variable, comprising: a housing having a repeatably tightly sealable opening for introducing the optical immersion sensor; wherein the housing comprises a calibration solution in the interior thereof: wherein the housing provides the value for the calibration solution; wherein the opening comprises a guide for aligning and positioning the optical immersion sensor to be calibrated in relation to all possible spatial degrees of freedom; wherein the housing is designed such that the influence of the interactions between the light, emitted and received by the sensor, and the housing wall, in particular as a result of scattering, absorption, reflection, phosphorescence and fluorescence, on the measured value that can be ascertained by the sensor is minimal; wherein the volume of the calibration solution is minimized at the same time; the method comprising the steps of: homogenizing, in particular circulating, the calibration solution in the calibration vessel, in particular during the entire method; determining the measured variable for the calibration medium using the reference device or by readin