Method for controlling a reciprocating piston pump and device for carrying out the method

The invention claimed is: 1. A method for the control of a reciprocating pump having an electromagnet and a displacement unit loaded by a spring, wherein the electromagnet is built of a magnetic coil, an iron return path, and a magnetic armature, wherein the control is by an electrical controller that comprises a memory-programmable processor, a switching device, and a measuring device, the method comprising: calculating with the processor an electrical resistance of the magnetic coil from measured values of an electrical voltage and of an electrical current measured by the measuring device; calculating with the processor a temporal change of a linked magnetic flux in the electromagnet from the measured values of the electrical voltage and the values of the electrical current and the calculated electrical resistance of the magnetic coil; calculating with the processor the linked magnetic flux in the electromagnet from a previously calculated or estimated magnetic flux and the temporal change; determining the present position of the magnetic armature using an estimation process performed by the processor by accessing a predetermined value from a previously determined table, wherein the previously determined table includes the predetermined values determined by measurements and/or calculations prior to operation of the electrical controller and the predetermined values are stored in a memory and accessed by the processor, wherein the predetermined values include associated values of a predetermined table electrical current, a predetermined table linked magnetic flux, and a predetermined table position of the magnetic armature; wherein the estimation of the position of the magnetic armature is based on different effective voltages at the magnetic coil and the previously determined table that includes the predetermined values of the voltage and/or the voltage change with previously associated values of the predetermined table electrical current and the predetermined table linked magnetic flux related to the predetermined table position of the magnetic armature; and changing an effective electrical voltage at the magnetic coil depending on the determined present position of the magnetic armature. 2. The method for the control of a reciprocating pump according to claim 1 , wherein the calculation of the linked magnetic flux utilizes an initial magnetization of the magnetic armature and of the iron return path such that a previous history of a temporal progression of the linked magnetic flux is taken into account during the calculation of the linked magnetic flux in a numerical integration. 3. The method for the control of a reciprocating pump according to claim 1 , wherein the calculation of the linked magnetic flux in the electromagnet is performed by a numerical integration of electrical and magnetic state variables of the electromagnet carried out in real time. 4. The method for the control of a reciprocating pump according to claim 1 , wherein the effective electrical voltage at the magnetic coil is effectively time-average reduced in comparison to a voltage of a voltage supply by being switched with the switching device to at least one of off, or switched off and on a plurality of times, depending on the position of the magnetic armature. 5. The method for the control of a reciprocating pump according to claim 1 , wherein during the return of the magnetic armature by the spring the electrical current through the magnetic coil, decaying slowly due to the coil inductance, is measured by the measuring device and is used through the calculation of the linked magnetic flux to determine the position of the magnetic armature, wherein the previously calculated table with associated values of the electrical current, the linked magnetic flux and the position of the magnetic armature, said table being selected according to a low effective voltage and a negative voltage change, is used. 6. The method for the control of a reciprocating pump according to claim 5 , wherein during the return of the magnetic armature by the spring, the determined present position of the magnetic armature is used in the electrical controller in order to increase the effective voltage at the magnetic coil depending on the position of the magnetic armature, and thus to brake the movement of the magnetic armature. 7. An apparatus for performing the method according to claim 1 , wherein the apparatus consists of the reciprocating pump and the electrical controller and wherein the reciprocating pump consists of the electromagnet and the displacement unit loaded by the spring, wherein the electromagnet is built of the magnetic coil, the iron return path and the magnetic armature, and wherein the electrical controller comprises the memory-programmable processor, the switching device and the measuring device, wherein the memory-programmable processor contains at least one table calculated prior to intended operation of the controller, with associated values of the electrical current through the magnetic coil, the linked magnetic flux in the electromagnet and the position of the magnetic armature, wherein this table or these tables allow the processor, on the basis of a plurality of measurements of the electrical current by a measuring device, to determine the position of the magnetic armature by an estimation procedure. 8. The apparatus according to claim 7 , wherein, by the memory-programmable processor and the switching device, the electrical controller lowers the effective mean electrical voltage at the magnetic coil depending on the armature travel relative to the voltage of a voltage supply such that the curve of the velocity of the magnetic armature is influenced in a manner specified in the processor, wherein the voltage supply feeds electrical power to the switching device and also to the measuring device and furthermore to the magnetic coil. 9. The method of claim 1 , further comprising: operating the switching device to cause the changing of the effective electrical voltage at the magnetic coil. 10. The method of claim 9 , wherein operating the switching device includes at least one of: (i) switching off an electrical voltage at the magnetic coil; or (ii) repeatedly switching off and switching on the electrical voltage at the magnetic coil; wherein the switching device is operable cause the effective voltage at the magnetic coil to differ from that of a voltage supply. 11. A method to control a reciprocating pump by an electrical controller, wherein the electrical controller comprises a memory-programmable processor, a switching device, and a measuring device, wherein the reciprocating pump has an electromagnet and a displacement unit loaded by a spring the electromagnet comprises a magnetic coil, an iron return path, and a magnetic armature, the method comprising: operating the processor to: access a previously determined table determined by measurements and/or calculations prior to operation of the reciprocating pump and stored in a memory, wherein the previously determined table includes a test position of the magnetic armature based on an electrical current test value through the magnetic coil and a linked magnetic flux test value in the magnetic coil; calculate a present electrical resistance of the magnetic coil from a measured present value of an electrical voltage at the magnetic coil and a present measured value of an electrical current through the magnetic coil, wherein the measuring device is operable to measure the present values of the electrical voltage at the magnetic coil and of the electrical current through the magnetic coil; calculate a present linked magnetic flux in the electromagnet based at least in part on the