Piezo injector with hydraulically coupled nozzle needle movement

What is claimed is: 1. A piezo injector comprising: an actuator chamber, a piezo actuator arranged in the actuator chamber, a valve plunger bore, a valve plunger arranged in the valve plunger bore, wherein the valve plunger has a first end face facing the piezo actuator, wherein a portion of the valve plunger bore defined by the first end face forms a first control chamber, wherein a portion of the valve plunger bore opposite the first control chamber forms a spring chamber, and wherein the valve plunger is arranged between the first control chamber and the spring chamber, a nozzle needle disposed in a high-pressure area and having a second end face, wherein the nozzle needle slides within a nozzle needle sleeve, wherein the nozzle needle sleeve and the second end face define a second control chamber, a connecting bore between the first control chamber and the second control chamber, a leakage pin bore formed in an intermediate plate between the actuator chamber and the valve plunger bore, and a leakage pin arranged in the leakage pin bore transmitting force between the piezo actuator and the first end face of the valve plunger. 2. The piezo injector of claim 1 , comprising a connection plate at the end of the control plate facing the nozzle needle, the connection plate defining the second control chamber. 3. The piezo injector of claim 1 , wherein at least one of the intermediate plate, the control plate, and the leakage pin is produced from a hard metal. 4. The piezo injector of claim 1 , wherein at least one of the intermediate plate, the control plate, and the leakage pin has a modulus of elasticity three times higher than that of steel. 5. The piezo injector of claim 4 , wherein the modulus of elasticity lies in the range from 500 GPa to 700 GPa. 6. The piezo injector of claim 1 , wherein: a first leakage is allowed from the first control chamber, a second leakage is allowed from the spring chamber into the first control chamber, a third leakage is allowed from the high-pressure area into the second control chamber, a sum of the second leakage and the third leakage is at least equal to the first leakage, and the sum of the second leakage and the third leakage remains below a threshold providing an increase in pressure in the second control chamber, caused by the second leakage and the third leakage, does not lead to closure of the nozzle needle if the nozzle needle is in an open state. 7. The piezo injector of claim 1 , comprising a high-pressure bore connected to the high-pressure area, wherein the high-pressure area is connected to the spring chamber. 8. The piezo injector of claim 1 , comprising a valve plunger spring arranged in the spring chamber, wherein the valve plunger spring acts on the valve plunger with a force acting in the direction of the first control chamber. 9. The piezo injector of claim 1 , comprising a nozzle spring that acts on the nozzle needle with a force pushing the nozzle needle away from nozzle sleeve and the second control chamber. 10. The piezo injector of claim 1 , wherein a mating play exists between the leakage pin and the leakage pin bore, wherein the mating play allows a leakage from the first control chamber, and wherein the mating play is less than two 2 μm. 11. The piezo injector of claim 1 , wherein a mating play exists between the nozzle needle and the nozzle needle sleeve, wherein the mating play allows a leakage from the high-pressure area into the second control chamber, and wherein the mating play is between 2 μm and 4 μm. 12. The piezo injector of claim 11 , wherein a mating play exists between the valve plunger and the valve plunger bore, wherein the mating play allows a leakage from the spring chamber into the first control chamber, and wherein the mating play is between 2 μm and 4 μm. 13. The piezo injector of claim 1 , wherein the valve plunger has a restriction bore running between the first control chamber and the spring chamber, wherein the restriction bore allows a leakage from the spring chamber into the first control chamber. 14. The piezo injector of claim 13 , wherein the restriction bore is closed by the leakage pin when the leakage pin bears on the valve plunger. 15. The piezo injector of claim 1 , wherein the piezo actuator is a fully active piezo stack. 16. An internal combustion engine, comprising: at least one piezo injector, each piezo injector comprising: an actuator chamber, a piezo actuator arranged in the actuator chamber, a valve plunger bore, a valve plunger arranged in the valve plunger bore, wherein the valve plunger has a first end face facing the piezo actuator, wherein a portion of the valve plunger bore defined by the first end face forms a first control chamber, wherein a portion of the valve plunger bore opposite the first control chamber forms a spring chamber, and wherein the valve plunger is arranged between the first control chamber and the spring chamber, a nozzle needle with a second end face, wherein the nozzle needle slides within a nozzle needle sleeve, wherein the nozzle needle sleeve and the second end face define a second control chamber, a connecting bore between the first control chamber and the second control chamber, a leakage pin bore formed in an intermediate plate between the actuator chamber and the valve plunger bore, and a leakage pin arranged in the leakage pin bore transmitting force between the piezo actuator and the first end face of the valve plunger.