Passive orthopedic aid in the form of a foot prosthesis or foot orthosis

The invention claimed is: 1. Passive orthopedic aid being a foot prosthesis or foot orthosis, comprising: a first part and a second part both rotatably connected to each other by a swivel joint, so as to allow a rotation movement between the first part and the second part having a certain movement resistance, a sensor arrangement for measuring parameters that provide indications of instantaneous operation requirements of the passive orthopedic aid, a controller connected to the sensor arrangement including a processor arrangement configured to determine operation requirements and to generate control signals corresponding to the determined operation requirements, a controllable hydraulic damping arrangement configured to modify the certain movement resistance of the rotation movement between the first part and the second part and being controlled by the control signals of said controller, wherein the controllable hydraulic damping arrangement has hydraulic chambers, the hydraulic chambers are connected to permit flow of hydraulic fluid between the hydraulic chambers in a first flow direction or a second flow direction opposite the first flow direction, flow resistances between the hydraulic chambers are controlled by the controller using controllable valves for adjusting the certain movement resistance, including different flow resistances during a gait cycle, the sensor arrangement includes an ankle moment sensor configured to detect where an ankle moment crosses zero during said gait cycle, the processor arrangement is configured to determine a current neutral point position for each gait cycle from the zero crossing of the ankle moment detected by the ankle moment sensor, and the processor is configured to take into account the current neutral point position determined by the processor arrangement from the zero crossing of the ankle moment for generating the control signals which control the flow resistances between the hydraulic chambers. 2. Passive orthopedic aid according to claim 1 , wherein at least one flow resistance of the different flow resistances between the hydraulic chambers is increasable such that the swivel joint can be locked in any desired position. 3. Passive orthopedic aid according to claim 2 , wherein the locked position corresponds to the neutral point position. 4. Passive orthopedic aid according to claim 1 , wherein the neutral point position is determinable as a function of a ground inclination. 5. Passive orthopedic aid according to claim 4 , wherein the neutral point position is determinable as a function of a current height of a heel of a shoe that is used with the orthopedic aid. 6. Passive orthopedic aid according to claim 1 , wherein the first part and the second part are mostly rigid, and wherein at least most of said rotation movement within said gait cycle is controlled by control of the different flow resistances, without being influenced by material elasticities. 7. Passive orthopedic aid according to claim 1 , wherein the swivel joint is an ankle joint. 8. A passive orthopedic aid that is a foot prosthesis or foot orthosis, comprising: a first part and a second part; a swivel joint connecting and allowing a rotation movement between the first part and the second part; a controllable hydraulic damping arrangement having hydraulic chambers connected to passively permit flow of hydraulic fluid between the hydraulic chambers in a first flow direction or a second flow direction opposite the first flow direction, wherein the controllable hydraulic damping arrangement is configured to modify a movement resistance of the rotation movement between the first part and the second part by adjusting flow resistances between the hydraulic chambers during a gait cycle using controllable valves; a sensor arrangement including an ankle moment sensor measuring an ankle moment; and a controller connected to the sensor arrangement including a processor arrangement configured to determine operation requirements, wherein the processor arrangement is configured to: determine where the ankle moment measured by the ankle moment sensor crosses zero during said gait cycle, determine a current neutral point position for said gait cycle from the determined zero crossing of the ankle moment, and a controller connected to the sensor arrangement including a processor arrangement configured to determine operation requirements and generate control signals which control the flow resistances through the controlled valves between the hydraulic chambers of the hydraulic damping arrangement taking into account the current neutral point position determined from the determined zero crossing of the ankle moment. 9. The passive orthopedic aid according to claim 8 , wherein the hydraulic chambers are synchronously changing hydraulic chambers.