Mold for impregnating a prefabricated condenser core of a high-voltage bushing and device for forming a condenser core of a high-voltage bushing

What is claimed is: 1. A mold for impregnating a prefabricated condenser core (C) of a high voltage bushing with a liquid resin, the mold comprising: at least two mold modules movable against each other and shaped to form a mold cavity, the mold being a column of cylindrical design, in which the at least two mold modules are arranged one on top of the other; and a first mold module of the at least two mold modules is a hollow cylinder, and the at least two mold modules each have a front face for forming a first sealable interface with an opposing front face of another mold module of the at least two mold modules; wherein the first mold module comprises an inner surface, at least a part of the inner surface of the first mold module tapering conically from the first sealable interface to a bottom of the mold. 2. The mold according to claim 1 , wherein a second mold module of the at least two mold modules is a hollow cylinder comprises: a closed front face forming a top of the mold; and an inner surface, at least part of the inner surface tapering conically from the first sealable interface to a top of the mold. 3. The mold according to claim 1 , wherein a second mold module comprises: a modular section which is a disk. 4. The mold according to claim 3 , wherein the disk comprises: at least a combined inlet and outlet (I 1 ) for applying liquid resin from the mold cavity to an expansion vessel or for applying optionally a liquid resin under pressure or a vacuum to the mold cavity. 5. The mold according to claim 1 , comprising: at least a third mold module arranged with a front face opposing the front face of the first mold module wherein the two opposing front faces of the first and the third mold module form a second sealable interface of the mold. 6. The mold according to claim 5 , wherein the at least third mold module is a hollow cylinder, and the third mold module comprises: includes an inner surface, at least part of the inner surface tapering conically from the second sealable interface to the bottom of the mold. 7. The mold according to claim 5 , wherein the third mold module forms a bottom of the mold and comprises: at least a first inlet (I 2 ) for applying liquid resin to the evacuated mold cavity. 8. The mold according to claim 7 , comprising: at least a second inlet (I 2 ) arranged in a cylindrical wall of at least one of the third and the first mold modules for applying liquid resin to an evacuated mold cavity. 9. The mold according to claim 1 , comprising: axially extended holes for receiving bolt members inserted into the opposing two front faces of the at least two mold modules. 10. The mold according to claim 1 , comprising: an assembling aid inserted into the opposing two front faces of the at least two mold modules. 11. The mold according to claim 1 , comprising: at least one groove for receiving an O-ring inserted into one of the two opposing front faces of the at least two mold modules. 12. The mold according to claim 1 , comprising: at least two heat supplying or heat dissipating zones that are annular around the mold cavity, arranged one on top of the other from a bottom to a top of the mold and adjustable independently from one another with respect to supply or dissipation of heat. 13. A device for forming a condenser core of a high voltage bushing, the device comprising: a mold for impregnating a prefabricated condenser core (c) of a high voltage bushing with a liquid resin, the mold including: at least two mold modules movable against each other and shaped to form a mold cavity, the mold being a column of cylindrical design, in which the at least two mold modules are arranged one on top of the other; a first mold module of the at least two mold modules being a hollow cylinder; and the at least two mold modules each having a front face for forming a first sealing interface, with an opposing front face of another mold module of the at least two mold modules; and a heater for controlling temperature of the mold when in a curing process, the heater, comprising: a contractible tubular jacket vertically extending from a bottom to top of the mold, the tubular jacket including at least two heat supplying or heat dissipating zones annular around the mold, that are arranged one on top of the other from the bottom to the top of the mold, and that are adjustable independently from one another with respect to the supply or dissipation of heat. 14. The device according to claim 13 , wherein a first of the at least two zones is integrated in a first of at least two annular contractible sections of the tubular jacket and a second of the at least two zones is integrated in a second of the at least two jacket sections, and wherein each of the at least two contractible jacket sections comprises: at least two curved jacket segments which are pivotably linked together; and tensioners for pushing the at least two curved jacket segments against a cylindrical surface of the mold. 15. The device according to claim 14 , wherein only one curved jacket segment of each of the at least two jacket sections is supported on a stationary carrier of the at least two contractible jacket sections. 16. The device according to claim 13 , wherein a first and a second of the at least two zones are integrated in an annular contractible section of the tubular jacket and the contractible jacket section comprises: at least two curved jacket segments pivotably linked together; and tensioners for pushing the at least two curved jacket segments against a cylindrical surface of the mold. 17. The device according to claim 13 , wherein each of the at least two heat supplying or heat dissipating zones comprises: a first conduit with an inlet and an outlet for receiving a heat carrier fluid. 18. The device according to claim 13 , wherein the heater comprises: a conveying and heating unit for conveying, and heating or cooling a heat carrier fluid; a second conduit which connects an outlet of the first conduit to an input of the conveying and heating unit; a third conduit which connects an output of the conveying and heating unit to an inlet of the first conduit; and a control unit arranged to control temperature and an amount of conveyed heat carrier fluid at the output of the conveying and heating unit. 19. The device according claim 18 , wherein the conveying and heating unit comprises: a conveying pump; a control valve arrangement; and a heater and a heat exchanger, wherein the control unit is arranged to control the conveying and heating unit in a manner to convey heat carrier fluid through the heater or the heat exchanger. 20. The device according to claim 17 , comprising: at least two temperature sensors, wherein a first temperature sensor is arranged in the first of the at least two heat supplying or heat dissipating zones. 21. The device according to claim 18 , comprising: at least two temperature sensors, wherein a first temperature sensor is arranged in the third conduit. 22. The device according to claim 13 , comprising: an enclosure of a thermal insulating material enclosing the tubular jacket and fittings of the mold and the tubular jacket tube. 23. A mold for impregnating a prefabricated condenser core (C) of a high voltage bushing with a liquid resin, the mold comprising: at least two mold modules movable against each other and shaped to form a mold cavity, the mold being a column of cylindrical desig