Positioning and safety apparatus suitable for control of concave suspension in a combine harvester

The invention claimed is: 1. A positioning and safety apparatus for controlling the position of a movable component of a mechanical system, the movable component being movable with respect to a fixed structure, and for exhibiting a safety function when the movable component is subjected to a force that exceeds a pre-defined limit, the positioning and safety apparatus comprising: a control part for being mounted on the fixed structure and for being pivotable with respect to the fixed structure about a pivot axis, the control part having a first end and a second end opposite to the first end with respect to the pivot axis, the first end of the control part configured for being connected to the movable component so that a rotation of the control part about the pivot axis actuates a movement of the movable component; an auxiliary part that is pivotable with respect to the fixed structure about the same pivot axis as the control part; and an actuator configured to actuate the rotation of the control part about the pivot axis so as to thereby actuate the movement of the movable component in order to control its position, and further configured to act upon the auxiliary part, wherein the auxiliary part is: tied to the second end of the control part by a spring force, and remains so when the movable component is subjected to a force lower than the pre-defined limit; and configured to become untied from the control part, when the movable component is subjected to a force higher than the pre-defined limit, thereby allowing the movable component to move freely towards a stop position, and wherein the actuator is configured to be able to return the auxiliary part to the position wherein it is tied to the control part, thereby resuming control of the position of the movable component. 2. The apparatus according to claim 1 , wherein the actuator is pivotable with respect to the fixed structure. 3. The apparatus according to claim 1 , wherein: the auxiliary part is tied to the second end of the control part through a force transmission part that is pivotable about a pivot axis with respect to the auxiliary part, and which carries at one end a roller, rotatable with respect to the force transmission part, the control part is provided at its second end with a seat portion configured to receive the roller, the spring force is generated by a spring configured to exert the spring force between the auxiliary part and the force transmission part, the force transmission part is subjected to the spring force in such a manner that the roller is pushed into the seat portion, and maintained therein when the movable component is subjected to forces lower than the pre-defined limit, the roller is configured to be able to roll out of the seat portion when the movable component is subjected to forces higher than the pre-defined limit, and the actuator is configured to be able to return the auxiliary part to the position wherein it is tied to the control part, thereby rolling the roller back into the seat portion. 4. The apparatus according to claim 3 , wherein the force transmission part has a first end and a second end opposite the first end with respect to the pivot axis of the force transmission part, and wherein the roller is mounted at the first end of the force transmission part and the spring force acts on the second end of the force transmission part. 5. The apparatus according to claim 4 , wherein the spring is a linear spring mounted between a lower end plate and an upper end plate, the lower end plate being supported by the auxiliary part, and wherein the spring is configured to pull the second end of the force transmission part towards the auxiliary part. 6. The apparatus according to claim 5 , wherein the spring is provided with a rod running through the spring, through the lower end plate, and through the auxiliary part, the rod being pivotably connected at one end of the rod to the force transmission part and connectable at the other end of the rod to the upper end plate, so that when the spring is compressed, the rod pulls the second end of the force transmission part towards the auxiliary part. 7. The apparatus according to claim 6 , wherein: the control part is a control plate, the auxiliary part is a fork having a platform portion and two legs extending downward from the platform portion, the legs extending on either side of the control plate, the force transmission part is mounted between the legs of the fork, and the spring is mounted on top of the platform portion. 8. The apparatus according to claim 3 , wherein the force transmission part has a first end and wherein the roller is mounted at the first end of the force transmission part and the spring force acts on the first end of the force transmission part. 9. The apparatus according to claim 8 , wherein the spring is a linear spring mounted between a lower end plate and an upper end plate, the lower end plate being supported by the force transmission part, and wherein the spring is configured to pull one end of the auxiliary part towards the force transmission part. 10. The apparatus according to claim 9 , wherein the spring is provided with a rod running through the spring, through the lower end plate and through the force transmission part, the rod being pivotably connected at one end of the rod to the auxiliary part and connectable at the other end of the rod to the upper end plate, so that when the spring is compressed, the rod pulls the one end of the auxiliary part towards the force transmission part. 11. The apparatus according to claim 3 , wherein the seat portion and the roller are configured so that the separation of the auxiliary part from the control part resembles the operation of a shear bolt. 12. A combine harvester, comprising: a fixed structure; a component movable with respect to the fixed structure; and at least one positioning and safety apparatus for controlling the position of the movable component, and for exhibiting a safety function when the movable component is subjected to a force that exceeds a pre-defined limit, the at least one positioning and safety apparatus comprising: a control part mounted on the fixed structure and for being pivotable with respect to the fixed structure about a pivot axis, the control part having a first end and a second end opposite to the first end with respect to the pivot axis, the first end of the control part connected to the movable component so that a rotation of the control part about the pivot axis actuates a movement of the movable component; an auxiliary part that is pivotable with respect to the fixed structure about the same pivot axis as the control part; and an actuator configured to actuate the rotation of the control part about the pivot axis so as to thereby actuate the movement of the movable component in order to control its position and further configured to act upon the auxiliary part, wherein the auxiliary part is: tied to the second end of the control part by a spring force, and remain so when the movable component is subjected to a force lower than the pre-defined limit, and configured to become untied from the control part, when the movable component is subjected to a force higher than the pre-defined limit, thereby allowing the movable component to move freely towards a stop position, and wherein the actuator is configured to be able to return the auxiliary part to the position wherein it is tied to the control part, thereby resuming control of the position of the movable component. 13. The combine harvester according to claim 12 , further comprising at least one threshing rotor comprising one or more mov