Automatic analyzer and method

The invention claimed is: 1. An automatic analyzer for determining a parameter of a sample fluid, the automatic analyzer comprising: a dosing device including at least one dosing chamber; a first fluid flow path fluidically connecting a sample receiving vessel to the dosing chamber; a first pump integrated into the first fluid flow path for fluid transport along the first fluid flow path; a tank containing a dilution medium; a second fluid flow path fluidically connecting the tank containing the dilution medium to the dosing chamber; a second pump integrated into the second fluid flow path for fluid transport along the second flow path; a measuring cell enclosing a cavity in fluid communication with the dosing chamber via a third fluid flow path; a third pump connected to the dosing chamber; and an electronic measuring and control system in communication with the first, second and third pumps, the measuring and control system configured to control the first, second and third pumps, wherein each of the first, second and third fluid flow paths can selectively be blocked or unblocked using at least one valve, and wherein the measuring and control system is further configured to control the at least one valve to selectively block or unblock the first, second and third flow paths, wherein the dosing device has at least one detector including at least one light barrier, the at least one detector structured to generate an electrical signal when a predetermined fill level in the dosing chamber is exceeded or fallen below and to output the electrical signal to the measuring and control system, and wherein the measuring and control system is configured to receive and process the electrical signal output by the detector and to control the first, second or third pumps based upon the electrical signal output by the detector to dose a specified volume of fluid contained in the dosing chamber. 2. The automatic analyzer of claim 1 , further comprising: a mixing tank in fluid communication with the dosing chamber via a fourth fluid flow path, wherein the fourth flow path can be selectively blocked or unblocked using a first valve controlled by the measuring and control system. 3. The automatic analyzer of claim 1 , wherein the first fluid flow path includes a first fluid line having two ends, the first fluid line opening into the sample receiving vessel on one end and the other end fluidically connected to the dosing chamber. 4. The automatic analyzer of claim 1 , further comprising a second fluid line having two ends, the second fluid line opening into the tank containing the dilution medium on one end and the other end fluidically connected to the dosing chamber such that the second fluid flow path runs through the second fluid line. 5. The automatic analyzer of claim 1 , wherein the first pump is embodied to transport fluid along the first fluid flow path in a first operating mode and to block the first fluid flow path in a second operating mode, and wherein the second pump is embodied to transport fluid along the second fluid flow path in a first operating mode and to block the second fluid flow path in a second operating mode. 6. The automatic analyzer of claim 1 , further comprising a third fluid line having two ends, the third fluid line opening into the measuring cell on one end and the other end fluidically connected to the dosing chamber such that the third fluid flow path runs through the third fluid line, wherein the third fluid line can be selectively blocked or unblocked using a second valve controlled by the measuring and control system. 7. The automatic analyzer of claim 2 , further comprising a fourth fluid line having two ends, the fourth fluid line opening into the mixing tank on one end and the other end fluidically connected to the dosing chamber such that the fourth fluid flow path runs through the fourth fluid line, wherein the fourth fluid line can be selectively blocked or unblocked using the first valve controlled by the measuring and control system. 8. The automatic analyzer of claim 1 , wherein the first and second pumps are peristaltic pumps and the third pump a piston pump, which includes a cylinder in communication with the dosing chamber and a movable piston disposed within the cylinder, the movable piston sealing the cylinder from the environment in a fluid-tight manner. 9. The automatic analyzer of claim 1 , wherein the dosing chamber and/or the third pump communicate with a gas supply line via which the third pump can draw in a gas, or air from the environment, and transport the gas or air into the mixing tank or the measuring cell. 10. The automatic analyzer of claim 1 , further comprising a first overflow line that opens into an upper region of the dosing chamber and/or a second overflow line that opens into an upper region of the mixing tank, and/or a third overflow line that opens into an upper region of the measuring cell. 11. The automatic analyzer of claim 10 , further comprising a leak detector connected to the first, second and/or third overflow lines, the leak detector embodied to generate an electrical overflow signal when fluid escapes from the first, second and/or third overflow lines connected to the leak detector. 12. The automatic analyzer of claim 1 , wherein the dosing chamber is fluidically connected via a third valve controlled by the measuring and control system, the third valve unit including a plurality of valves in communication with a plurality of tanks, the plurality of tanks containing different fluids, including one or more reagents, one or more calibration standards, one or more cleaning fluids, and/or fluids spent by the analyzer. 13. The automatic analyzer of claim 1 , further comprising a sensing element disposed in or on the measuring cell to detect a measurand of a fluid or fluid mixture contained in the cavity of the measuring cell, the measurand correlated with a parameter of the fluid sample, the sensing element structured to generate an electrical measurement signal dependent upon the measurand and to output the measurement signal to the measuring and control system, wherein the measuring and control system is configured to process the measurement signal generated by the sensing element to determine a value of the parameter based upon the measurement signal. 14. The automatic analyzer of claim 1 , further comprising a first fluid line, a second fluid line and a third fluid line, each embodied as a hose. 15. A method for operating an automatic analyzer, the method comprising: transporting a sample fluid from a sample receiving vessel into a dosing chamber of a dosing device of an analyzer using a first pump, wherein the analyzer includes: the dosing device including the dosing chamber, a first fluid flow path fluidically connecting a sample receiving vessel to the dosing chamber, the first pump integrated into the first fluid flow path for fluid transport along the first fluid flow path, a tank containing a dilution medium, a second fluid flow path fluidically connecting the tank containing the dilution medium to the dosing chamber, a second pump integrated into the second fluid flow path for fluid transport along the second flow path, a measuring cell enclosing a cavity in fluid communication with the dosing chamber via a third fluid flow path, a third pump connected to the dosing chamber, and an electronic measuring and control system in communication with the first, second and third pumps, the measuring and control system configured to control the first, second and third pumps, wherein each of the first, second and third fluid flow paths can sel