Valve device for a hydraulic circuit and oil pump control apparatus

What is claimed is: 1. A valve device for a hydraulic circuit, the valve device comprising: an actuator unit comprising an electromagnetic circuit comprising, an armature configured to be translationally movable, a core, a coil carrier, a coil configured to be energizable and which is arranged on the coil carrier, and a flux guiding device; a valve unit comprising, a unit formed by a valve tappet and the armature, an outlet port, an inlet port arranged so as to be spaced further from the actuator unit than the outlet port, and a control port arranged between the inlet port and the outlet port; a first control body configured to cooperate with a first valve seat formed between the control port and the outlet port; a second control body configured to cooperate with a second valve seat formed between the control port and the inlet port; a spring element; an actuator chamber formed between the core and the armature; and a longitudinal through bore configured to extend axially, the longitudinal through bore being arranged in the unit to extend from the inlet port into the actuator chamber, wherein, the armature and the valve tappet are loaded in an opening direction of the inlet port by the spring element and are loadable in an opening direction of the outlet port by energizing the electromagnetic circuit, the first control body and the second control body are arranged at the unit in which the longitudinal through bore is formed, the second control body comprises a force application surface on which a hydraulic pressure at the inlet port acts, the armature comprises a force application surface on which a hydraulic pressure in the actuator chamber acts, the force application surface of the second control body is always equal to the force application surface of the armature so that an equilibrium of forces is achieved on each side of the unit formed by the valve tappet and the armature in any state of the valve device. 2. The valve device as recited in claim 1 , wherein, the first control body comprises a diameter, the second control body comprises a diameter, and the diameter of the first control body corresponds to the diameter of the second control body. 3. The valve device as recited in claim 1 , wherein the armature comprise an axial end, and the first control body is formed by the axial end of the armature. 4. The valve device as recited in claim 1 , wherein, the armature comprises an armature longitudinal through bore, the valve tappet is pressed into the armature longitudinal through bore, and the second control body is fastened to the valve tappet. 5. The valve device as recited in claim 1 , wherein the armature comprises a bearing surface and a central protrusion, the bearing surface being configured to support the spring element, and the central protrusion being configured to extend from the bearing surface towards the core and to be surrounded by the spring element. 6. The valve device as recited in claim 1 , wherein, when the second control body rests on the second valve seat, a first gap exists between the armature and the core. 7. The valve device as recited in claim 1 , wherein, the valve unit further comprises a flow housing comprising an axial end, the flow housing being configured to have the control port and the outlet port be formed therein as transversal bores, and the inlet port is formed as a longitudinal bore at the axial end of the flow housing. 8. The valve device as recited in claim 7 , further comprising: a bearing bush, wherein, the flow housing comprises a section that is partly surrounded by the coil carrier and in which the bearing bush is fastened. 9. The valve device as recited in claim 1 , further comprising: a first sealing ring arranged at a first axial end of the coil carrier between the coil carrier and the core; and a second sealing ring arranged between the coil carrier and the flow housing of the valve unit at an opposite axial end of the coil carrier. 10. An oil pump control arrangement comprising: the valve device as recited in claim 1 ; and a variable oil pump comprising a control chamber and an oil sump, wherein, the control port is in a fluid communication with the control chamber, the outlet port is in a fluid communication with the oil sump, and a feed pressure of the oil pump prevails at the inlet port.