Measuring device with a flowmeter and method for operating a measuring device

What is claimed is: 1. A measuring device, comprising: a flowmeter with a measuring tube, the flowmeter configured to perform measurements on a medium in the measuring tube; an inlet tube with a first inlet tube segment and a second inlet tube segment, the second inlet tube segment directly connected to an inlet end of the measuring tube, the first inlet tube segment positioned above the second inlet tube segment such that respective longitudinal axes of the first inlet tube segment and the second inlet tube segment are separated by a first distance in a direction parallel to a gravity vector; an outlet tube with a first outlet tube segment and a second outlet tube segment, the second outlet tube segment directly connected to an outlet end of the measuring tube, the first outlet tube segment positioned above the second outlet tube segment such that respective longitudinal axes of the first outlet tube segment and the second outlet tube segment are separated by a second distance in a direction parallel to the gravity vector; and an upstream tube directly connected to the inlet tube, the upstream tube having a first upstream tube segment and a second upstream tube segment extending between the first upstream tube segment and the first inlet tube segment, the first upstream tube segment positioned below the measuring tube of the flowmeter; wherein the upstream tube is directly connected to the inlet tube such that an entirety of the medium flowing through the upstream tube flows into the first inlet tube segment. 2. The measuring device of claim 1 , wherein the respective longitudinal axes of the first inlet tube segment and the second inlet tube segment are parallel to one another; and wherein the respective longitudinal axes of the first outlet tube segment and the second outlet tube segment are parallel to one another. 3. The measuring device of claim 1 , wherein the respective longitudinal axes of the first inlet tube segment, the second inlet tube segment, the first outlet tube segment, and the second outlet tube segment are orthogonal to the gravity vector. 4. The measuring device of claim 3 , wherein the measuring tube is straight; and wherein a longitudinal axis extending between the inlet end and the outlet end of the measuring tube is orthogonal to the gravity vector. 5. The measuring device of claim 4 , wherein the inlet tube includes a third inlet tube segment extending between the first inlet tube segment and the second inlet tube segment; and wherein a longitudinal axis of the third inlet tube segment is slanted relative to the respective longitudinal axes of the first inlet tube segment and the second inlet tube segment. 6. The measuring device of claim 5 , wherein the outlet tube includes a third outlet tube segment extending between the first outlet tube segment and the second outlet tube segment; and wherein a longitudinal axis of the third outlet tube segment is slanted relative to the respective longitudinal axes of the first outlet tube segment and the second outlet tube segment. 7. The measuring device of claim 6 , wherein the first distance and the second distance have a same magnitude. 8. The measuring device of claim 1 , wherein a first projection of an inner cross section surface of the first inlet tube segment on a projection plane and a second projection of an inner cross section surface of the second inlet tube segment on the projection plane do not intersect in the projection plane; wherein a third projection of an inner cross section surface of the first outlet tube segment on the projection plane and a fourth projection of an inner cross section surface of the second outlet tube segment on the projection plane do not intersect in the projection plane; and wherein the projection plane extends parallel to the gravity vector. 9. The measuring device of claim 8 , wherein the first projection and the third projection intersect at a first position on the projection plane; and wherein the second projection and the fourth projection intersect at a second position on the projection plane. 10. The measuring device of claim 1 , further comprising: a first valve disposed relative to the first inlet tube segment and configured to control flow of the medium therethrough; and a second valve disposed relative to the first outlet tube segment and configured to control flow of the medium therethrough. 11. The measuring device of claim 1 , wherein the flowmeter is a nuclear magnetic flowmeter. 12. A method for increasing accuracy of measurements of a flowing medium, comprising: providing a measuring device that includes: an inlet tube with a first inlet tube segment and a second inlet tube segment, the second inlet tube segment directly connected to an inlet end of the measuring tube, the first inlet tube segment positioned above the second inlet tube segment such that respective longitudinal axes of the first inlet tube segment and the second inlet tube segment are separated by a first distance in a direction parallel to a gravity vector; an outlet tube with a first outlet tube segment and a second outlet tube segment, the second outlet tube segment directly connected to an outlet end of the measuring tube, the first outlet tube segment positioned above the second outlet tube segment such that respective longitudinal axes of the first outlet tube segment and the second outlet tube segment are separated by a second distance in a direction parallel to the gravity vector; and an upstream tube directly connected to the inlet tube, the upstream tube having a first upstream tube segment and a second upstream tube segment extending between the first upstream tube segment and the first inlet tube segment, the first upstream tube segment positioned below the measuring tube of the flowmeter; using the flowmeter to carry out first measurements on a portion of the medium flowing through the measuring tube; stopping flow of the medium through the upstream tube, the inlet tube, the measuring tube, and the outlet tube; allowing the measuring device to retain a stagnant portion of the medium that completely fills the measuring tube; using the flowmeter to carry out second measurements on the stagnant portion of the medium that completely fills the measuring tube; and increasing accuracy of the first measurements using the second measurements; wherein the upstream tube is directly connected to the inlet tube such that an entirety of the medium flowing through the upstream tube flows into the first inlet tube segment. 13. The method of claim 12 , wherein a siphoning action causes the stagnant portion of the medium to completely fill the measuring tube. 14. The method of claim 12 , wherein the medium is a multi-phase medium; and wherein the first measurements are for at least one of: determining characteristics of individual phases in the multi-phase medium; determining portions of individual phases in the multi-phase medium; and determining flow of individual phases of the multi-phase medium.