Vibrating aggregate, an apparatus for processing mineral material, and a method for moving a processing device of an apparatus for processing mineral material

The invention claimed is: 1. A vibratory aggregate for an apparatus for processing mineral material, the vibratory aggregate comprising: a frame; a shaft having an axis extending in a first direction, the shaft being arranged to rotate with respect to the frame, and the shaft having an eccentric portion; a first element coupled to the shaft outside of the frame such that a mass centre of the first element is not on the axis of the shaft, the first element being arranged to rotate with the shaft, rotation of the shaft and the first element causing the shaft and the first element to move along a circular path; and a second element inside of the frame having (i) a first end coupled to the eccentric portion of the shaft and (ii) a free second end, the eccentric portion being disposed within the first end of the second element, the eccentric portion being rotatable relative to the first end of the second element, and the free second end of the second element being (a) configured to move along a substantially linear path in a first direction when the shaft is rotating at a constant speed, and (b) restricted by the frame from movement in a second direction, perpendicular to the first direction, and in a direction of the axis of the shaft, wherein a phase of the movement of the first element in relation to a phase of the movement of the free second end of the second element is adjusted such that an elliptical movement of the vibratory aggregate is generated when the shaft is rotated, the second element is one uniform piece, and when viewed from the first direction, the path of the second element is at least partly within the path of the first element. 2. The aggregate according to claim 1 , wherein the substantially linear path of the free second end of the second element is perpendicular to the axis of the shaft. 3. The aggregate according to claim 1 , wherein the first element is divided into two parts, which parts are oriented in parallel with each other and displaced in a direction of the axis of the shaft on different sides of the second element. 4. The aggregate according to claim 1 , wherein the eccentric portion of the shaft is embedded within the first end of the second element. 5. A processing apparatus for processing mineral material, comprising at least a processing device and a vibrating aggregate for moving the processing device, the vibrating aggregate comprising: a frame; a shaft having an axis extending in a first direction, the shaft being arranged to rotate with respect to the frame, and the shaft having an eccentric portion; a first element coupled to the shaft outside of the frame such that a mass centre of the first element is not on the axis of the shaft, the first element being arranged to rotate with the shaft, rotation of the shaft and the first element causing the shaft and the first element to move along a circular path; and a second element inside of the frame having (i) a first end coupled to the eccentric portion of the shaft and (ii) a free second end, the eccentric portion being disposed within the first end of the second element, the eccentric portion being rotatable relative to the first end of the second element, and the free second end of the second element being (a) configured to move along a substantially linear path in a first direction when the shaft is rotating at a constant speed, and (b) restricted by the frame from movement in a second direction, perpendicular to the first direction, and in a direction of the axis of the shaft, wherein a phase of the movement of the first element in relation to a phase of the movement of the free second end of the second element is adjusted such that an elliptical movement of the vibratory aggregate is generated when the shaft is rotated, the second element is one uniform piece, and when viewed from the first direction, the path of the second element is at least partly within the path of the first element. 6. The processing apparatus according to claim 5 , wherein the aggregate is arranged to move the processing device along an elliptical path. 7. The processing apparatus according to claim 6 , wherein the substantially linear path of the free second end of the second element is perpendicular to the axis of the shaft. 8. The processing apparatus according to claim 6 , wherein the processing apparatus is one of the following: a feeder, a screen, a stationary crushing plant and a movable crushing plant. 9. The processing apparatus according to claim 5 , wherein the eccentric portion of the shaft is embedded within the first end of the second element. 10. A method for moving a processing device of a mineral material processing apparatus along an elliptical path, the method comprising: generating a first portion of the movement of the processing device by a first element rotatably connected to a rotatable shaft, which is arranged to rotate with respect to a frame, and moving along a circular path with the shaft when the shaft is rotating about an axis of the shaft, the first element being coupled to the shaft outside of the frame and positioned such that a centre of mass of the first element is not on the axis of the shaft; and generating a second portion of the movement of the processing device by a second element having a first end connected to an eccentric portion of the rotatable shaft inside of the frame, the rotatable shaft being disposed within the first end of the second element, and a free second end of the second element being (a) configured to move along a substantially linear path in a first direction when the shaft is rotating at a constant speed, and (b) restricted by the frame from movement in a second direction, perpendicular to the first direction, by a frame and in a direction of the axis of the shaft, wherein a phase of the movement of the first element in relation to a phase of the movement of the free second end of the second element is adjusted such that an elliptical movement of the vibratory aggregate is generated when the shaft is rotated, the second element is one uniform piece, and when viewed from the first direction, the path of the second element is at least partly within the path of the first element. 11. The method according to claim 10 , wherein the free second end of the second element moves in a direction perpendicular to the axis of the shaft. 12. The method according to claim 10 , wherein a shape of the elliptical path is adjusted by changing a relationship between the mass of the rotating first element and a mass of the second element. 13. The method according to claim 10 , wherein a shape of the elliptical path is adjusted by changing a travel distance of the free second end of the second element moving substantially linearly. 14. The method according to claim 10 , wherein the eccentric portion of the rotatable shaft is embedded within the first end of the second element.