Vehicle with force-controlled shock absorber (2-pipe shock absorber)

The invention claimed is: 1. A shock absorber comprising: a) a housing; b) an inner pipe arranged in the housing; c) a piston rod that plunges into the inner pipe; d) a piston arranged on the end of the piston rod that plunges into the inner pipe, which piston divides the inside of the inner pipe into a lower chamber and an upper chamber; e) a first valve arrangement arranged on the piston, by means of which a working medium received in the inner pipe can flow out of the lower chamber into the upper chamber and vice versa when the piston is moved in the inner pipe; f) a second valve arrangement arranged at the upper end of the inner pipe, by means of which, when the piston is moved in the inner pipe, the working medium received in the inner pipe can flow out of the upper chamber only into the inside of the housing serving as a tank for the working medium; and g) a third valve arrangement arranged at the lower end of the inner pipe, by means of which the working medium received in the inside of the housing serving as a tank can flow out of the inside of the housing serving as a tank only into the lower chamber when the piston is moved in the inner pipe, wherein a hydraulic pump drive is arranged between a first connection element of the lower chamber of the inner pipe and a second connection element at the upper chamber of the inner pipe, and wherein a leakage pipe for the working medium is provided between the housing serving as a tank for the working medium and the hydraulic pump drive. 2. The shock absorber according to claim 1 , wherein the hydraulic pump drive is connected to the lower and the upper connection element by means of pressure lines. 3. The shock absorber according to claim 1 , wherein a valve arrangement, in particular a solenoid valve or a proportional flow control valve, is provided for controlling the flow resistance of the working medium in the first valve arrangement, said valve arrangement being arranged between a pressure line connected at the lower connection element and a pressure line connected at the upper connection element. 4. The shock absorber according to claim 1 , wherein the hydraulic pump drive comprises a controllable pump and a motor for the pump. 5. The shock absorber according to claim 2 , wherein a feed line for the working medium is provided between the housing serving as a tank for the working medium and at least one of the lower pressure line and the upper pressure line. 6. The shock absorber according to claim 5 , wherein a non-return valve or a control valve respectively is arranged between the feed line and at least one of the lower pressure line and the upper pressure line. 7. The shock absorber according to claim 1 , wherein a rising pipe is arranged at the upper end of the inner pipe, which rising pipe protrudes into the working medium received in the housing and by means of which working medium can be transferred from the housing serving as a tank into the upper chamber of the inner pipe. 8. The shock absorber according to claim 1 , wherein the hydraulic pump drive comprises a controllable pump and a motor for the pump. 9. A shock absorber comprising: a) a housing; b) an inner pipe arranged in the housing; c) a piston rod that plunges into the inner pipe; d) a piston arranged on the end of the piston rod that plunges into the inner pipe, which piston divides the inside of the inner pipe into a lower chamber and an upper chamber; e) a first valve arrangement arranged on the piston, by means of which a working medium received in the inner pipe can flow out of the lower chamber into the upper chamber and vice versa when the piston is moved in the inner pipe; f) a second valve arrangement arranged at the upper end of the inner pipe, by means of which, when the piston is moved in the inner pipe, the working medium received in the inner pipe can flow out of the upper chamber only into the inside of the housing serving as a tank for the working medium; and g) a third valve arrangement arranged at the lower end of the inner pipe, by means of which the working medium received in the inside of the housing serving as a tank can flow out of the inside of the housing serving as a tank only into the lower chamber when the piston is moved in the inner pipe, wherein a hydraulic pump drive is arranged between a first connection element of the lower chamber of the inner pipe and a second connection element at the upper chamber of the inner pipe, wherein the hydraulic pump drive is connected to the lower and the upper connection element by means of pressure lines, and wherein a feed line for the working medium is provided between the housing serving as a tank for the working medium and at least one of the lower pressure line and the upper pressure line. 10. The shock absorber according to claim 9 , wherein a non-return valve or a control valve respectively is arranged between the feed line and at least one of the lower pressure line and the upper pressure line. 11. The shock absorber according to claim 9 , wherein a valve arrangement, in particular a solenoid valve or a proportional flow control valve, is provided for controlling the flow resistance of the working medium in the first valve arrangement, said valve arrangement being arranged between a pressure line connected at the lower connection element and a pressure line connected at the upper connection element. 12. A shock absorber comprising: a) a housing; b) an inner pipe arranged in the housing; c) a piston rod that plunges into the inner pipe; d) a piston arranged on the end of the piston rod that plunges into the inner pipe, which piston divides the inside of the inner pipe into a lower chamber and an upper chamber; e) a first valve arrangement arranged on the piston, by means of which a working medium received in the inner pipe can flow out of the lower chamber into the upper chamber and vice versa when the piston is moved in the inner pipe; f) a second valve arrangement arranged at the upper end of the inner pipe, by means of which, when the piston is moved in the inner pipe, the working medium received in the inner pipe can flow out of the upper chamber only into the inside of the housing serving as a tank for the working medium; g) a third valve arrangement arranged at the lower end of the inner pipe, by means of which the working medium received in the inside of the housing serving as a tank can flow out of the inside of the housing serving as a tank only into the lower chamber when the piston is moved in the inner pipe, wherein a hydraulic pump drive is arranged between a first connection element of the lower chamber of the inner pipe and a second connection element at the upper chamber of the inner pipe, wherein a rising pipe is arranged at the upper end of the inner pipe, which rising pipe protrudes into the working medium received in the housing and by means of which working medium can be transferred from the housing serving as a tank into the upper chamber of the inner pipe. 13. The shock absorber according to claim 12 , wherein the hydraulic pump drive is connected to the lower and the upper connection element by means of pressure lines. 14. The shock absorber according to claim 13 , wherein a feed line for the working medium is provided between the housing serving as a tank for the working medium and at least one of the lower pressure line and the upper pressure line. 15. The shock absorber according to claim 12 , wherein a valve arrangement, in particular a solenoid valve or a proportional flow control valve, is provided for controlling the flow resista