Electrically controlled pressure control valve for an adjustable hydrostatic pump

The invention claimed is: 1. A pressure control valve for a pressure-controlled adjustable hydrostatic pump, comprising: a valve housing defining a valve bore; a valve plunger guided in the valve bore; an electromagnet configured to act directly on the valve plunger to move the valve plunger within the valve bore; and an adjusting pressure port, a pump port, and a tank port defined in the valve housing, wherein the valve plunger is movable within the valve bore between a first position and a second position, the valve plunger being biased toward the first position by a spring, wherein, when the valve plunger is in the first position, the adjusting pressure port is relieved to the tank port and a connection between the pump port and the adjusting pressure port is blocked by the valve plunger, wherein the connection from the pump port to the adjusting pressure port is configured to be opened by moving the valve plunger counter to the force of the spring from the first position toward the second position by at least one of increasing a current of the electromagnet and increasing the pump pressure at the pump port, and wherein the pressure control valve is configured as a continuously adjustable 3/2-way valve and as a directly controlled pressure control valve, and further comprising a first nozzle arranged between the adjusting pressure port and an adjusting pressure chamber of an adjusting cylinder with respect to fluid flow, wherein a connection between the adjusting pressure port and the adjusting pressure chamber is open irrespective of a position of the valve plunger. 2. The pressure control valve according to claim 1 , wherein the force of the spring, the resultant force of the pump pressure, and the force of the electromagnet act along a common longitudinal axis of the valve plunger. 3. The pressure control valve according to claim 1 , wherein a pump pressure chamber is delimited by a larger collar and by a smaller collar of the valve plunger. 4. The pressure control valve according to claim 3 , wherein the larger collar and the force of the electromagnet act counter to the smaller collar and the force of the spring. 5. The pressure control valve according to claim 1 , wherein the first nozzle is inserted in a radial direction relative to the valve housing configured as a screw-in cartridge. 6. The pressure control valve according to claim 1 , further comprising a second nozzle arranged between the adjusting pressure port and the tank port with respect to fluid flow, the second nozzle being inserted in an axial direction relative to the valve housing into a radial step of the valve housing configured as a screw-in cartridge, wherein a connection between the adjusting pressure port and the tank port via the second nozzle is open irrespective of a position of the valve plunger. 7. The pressure control valve according to claim 1 , wherein the force of the spring is configured to be adjusted by a closure screw that is screwed into an end, remote from the electromagnet, of a housing configured as a screw-in cartridge. 8. The pressure control valve according to claim 1 , wherein the valve plunger has a longitudinal bore, via which a tank pressure chamber and a spring chamber located at the end, in which the spring is arranged, are connected to one another. 9. A pump, comprising: a housing with a housing bore; and a pressure control valve inserted into the housing bore, the pressure control valve including: a valve housing defining a valve bore; a valve plunger guided in the valve bore; an electromagnet configured to act directly on the valve plunger to move the valve plunger within the valve bore; and an adjusting pressure port, a pump port, and a tank port defined in the valve housing, wherein the valve plunger is movable within the valve bore between a first position and a second position, the valve plunger being biased toward the first position by a spring, wherein, when the valve plunger is in the first position, the adjusting pressure port is relieved to the tank port and a connection between the pump port and the adjusting pressure port is blocked by the valve plunger, wherein a connection from the pump port to the adjusting pressure port is configured to be opened by moving the valve plunger counter to the force of the spring from the first position toward the second position by at least one of increasing a current of the electromagnet and increasing the pump pressure at the pump port, and wherein the pressure control valve is configured as a continuously adjustable 3/2-way valve and as a directly controlled pressure control valve, and further comprising a first nozzle arranged between the adjusting pressure port and an adjusting pressure chamber of an adjusting cylinder with respect to fluid flow, wherein a connection between the adjusting pressure port and the adjusting pressure chamber is open irrespective of a position of the valve plunger. 10. The pump according to claim 9 , wherein the pump is of swashplate construction and configured as an axial piston pump, and wherein the housing bore is positioned obliquely to a drive shaft and a cylinder barrel. 11. The pump according to claim 10 , wherein an adjusting piston coupled to a swashplate is guided in the housing bore, and wherein the adjusting piston and a housing of the pressure control valve, which is configured as a screw-in cartridge, delimit an adjusting pressure chamber. 12. The pump according to claim 11 , wherein the adjusting piston is of cup-shaped configuration and, at the maximum pivoting angle of the swashplate, fits around an end, remote from the electromagnet, of the housing of the pressure control valve.