Mineral material processing plant and a method for operating a processing plant

The invention claimed is: 1. A mineral material processing plant comprising: a frame; a screen which is supported on the frame; and a conveyor positioned above the screen which conveyor is fixed in connection with the screen for transporting material to be processed by the screen, wherein the support of the screen on the frame includes a first support arm and a second support arm fixed at a distance from each other and pivotably at first pivot points in connection with the screen and pivotably at second pivot points in connection with the frame, forming a movable first four-bar linkage mechanism; and the support of the conveyor comprises a third support arm and a fourth support arm fixed at a distance from each other and pivotably at third pivot points in connection with the conveyor above the screen and pivotably at fourth pivot points in connection with the screen, forming a movable second four-bar linkage mechanism, wherein the conveyor is arranged to be moved farther from the screen, so as to reduce the transport height of the mineral material processing plant, and closer to the screen by the movement of the second four-bar linkage. 2. The processing plant according to claim 1 , comprising a discharge conveyor below the screen which discharge conveyor is supported at its first end in connection with the screen; and the discharge conveyor comprises a conveyor pivot at the centre region of the screen; and the discharge conveyor is supported at the conveyor pivot in connection with the screen; and the discharge conveyor comprises a discharge end which is pivotable around the conveyor pivot closer to and farther from the screen, and the discharge end is arranged to move farther from the screen and closer to the screen through a support structure which is formed to the support arm of the first four-bar linkage mechanism. 3. The processing plant according to claim 1 , comprising a discharge conveyor below the screen which discharge conveyor is supported at its first end in connection with the screen; and the discharge conveyor comprises a conveyor pivot at said first end; and the discharge conveyor is supported at the conveyor pivot in connection with the screen; and the discharge conveyor comprises a discharge end which is pivotable around the conveyor pivot closer to and farther from the screen, and the discharge end is arranged to move farther from the screen and closer to the screen through a support structure which is formed to the support arm of the first four-bar linkage mechanism. 4. The processing plant according to claim 1 , wherein the second four-bar linkage mechanism further comprises a controllable actuator which is configured to decrease an area formed by the pivot points of the second four-bar linkage mechanism therebetween to move the conveyor closer to the screen and to increase the area formed by the pivot points therebetween to move said conveyor farther from the screen. 5. The processing plant according to claim 1 , wherein the location of the conveyor in the position closest to the screen, provided by the movement of the second four-bar linkage mechanism, is a transport position of the conveyor. 6. The processing plant according to claim 1 , wherein the first four-bar linkage mechanism comprises an adjustable reaction bar for locking a turnbuckle mounted between the support arm and the frame in an upper position of the first four-bar linkage. 7. The processing plant according to claim 1 , wherein the second four-bar linkage mechanism comprises as a locking a pin-hole-combination where the pin is mountable in holes which are formed to the support arm and a sub-frame which is operating as a fixing base of the screen. 8. The processing plant according to claim 1 , wherein the second four-bar linkage mechanism is positioned at both longitudinal sides of the screen and includes a controllable actuator belonging to said second four-bar linkage mechanism, wherein the controllable actuator is an expandable and retractable hydraulic cylinder. 9. The processing plant according to claim 1 , further comprising a crusher and a first conveyor, and the conveyor above the screen is feedable above the crusher by the first conveyor. 10. The processing plant according to claim 1 , wherein the conveyor arranged above the screen is arranged to move in the longitudinal direction of the screen by the movement of the second four-bar linkage mechanism. 11. The processing plant according to claim 10 , wherein the processing plant is configured to feed the crusher by the first conveyor when the conveyor above the screen is moved in the longitudinal direction of the screen away from a feed connection of the first conveyor. 12. The processing plant according to claim 9 , wherein the crusher comprises a feed hopper of the crusher which feed hopper comprises an open pivotable side, and a discharge end of the first conveyor is located in a transport position in between sides of the feed hopper via the open pivotable side. 13. The processing plant according to claim 1 , wherein the mineral material processing plant is a movable screening and crushing plant. 14. A method for operating a mineral material processing plant which processing plant comprises a frame and a screen which is supported on the frame, comprising the steps of: positioning a conveyor above the screen which conveyor is fixed in connection with the screen for transporting material to be processed by the screen; forming a movable first four-bar linkage mechanism to support the screen on the frame including a first support arm and a second support arm fixed at a distance from each other and pivotably at first pivot points in connection with the screen and pivotably at second pivot points in connection with the frame; forming a movable second four-bar linkage mechanism to support the conveyor relative to the screen including a third support arm and a fourth support arm fixed at a distance from each other and pivotably at third pivot points in connection with the conveyor above the screen and pivotably at fourth pivot points in connection with the screen; and moving the conveyor farther from the screen and closer to the screen, so as to reduce the transport height of the mineral material processing plant, by the movement of the second four-bar linkage. 15. The method according to claim 14 , wherein the processing plant comprises a discharge conveyor below the screen which discharge conveyor is supported at its first end in connection with the screen; and the discharge conveyor comprises a conveyor pivot at the centre region of the screen; and the discharge conveyor is supported at the conveyor pivot in connection with the screen; and the discharge conveyor comprises a discharge end which is pivotable around the conveyor pivot closer to and farther from the screen, and the discharge end is arranged to move farther from the screen and closer to the screen through a support structure which is formed to the support arm of the first four-bar linkage mechanism. 16. The method according to claim 14 , wherein the processing plant comprises a discharge conveyor below the screen which discharge conveyor is supported at its first end in connection with the screen; and the discharge conveyor comprises a conveyor pivot at said first end; and the discharge conveyor is supported at the conveyor pivot in connection with the screen; and the discharge conveyor comprises a discharge end which is pivotable around the conveyor pivot closer to and farther from the screen, and the discharge end is arranged to move farther from the screen and closer to the screen through a support st