Adjusting apparatus, adjusting system, crusher, crushing plant and method for adjusting the crusher

The invention claimed is: 1. A pressing mineral material crusher comprising: a crushing chamber; a feed opening of the crushing chamber; a measuring means for measuring at least one of crushing power used, a crushing pressure and a surface height of mineral material in the crushing chamber; and an adjusting apparatus including a body and a plurality of adjusting parts each bearing-mounted at their first ends to the body by rotating axes, each of the plurality of adjusting parts including a second end rotatable about the rotating axes, wherein curved front edges of the adjusting parts combine to form a single unitary flow opening having a flow area which is adjustable by moving the plurality of adjusting parts, and wherein the plurality of adjusting parts are arranged such that the curved front edges form a perimeter around the flow area of the flow opening, and the flow area is adjustable by moving the plurality of adjusting parts, and the plurality of adjusting parts are configured to move such that the flow area is decreasing when at least one of the crushing power, the crushing pressure and the surface height measured by the measuring means is increasing and the flow area is increasing when at least one of the crushing power, the crushing pressure and the surface height measured by the measuring means is decreasing. 2. The crusher of claim 1 , wherein the crusher further comprises a crusher drive and an adjusting system with a feedback, which adjusting system comprises a power measuring means of the crusher drive and/or a pressure measuring means of the crushing event and moving means of the adjusting parts for adjusting the adjusting parts based on the power measuring and/or the pressure measuring. 3. The crusher of claim 1 , wherein the crusher is a gyratory or a cone crusher. 4. The crusher of claim 1 , wherein the crusher comprises a stationary wear part and a movable wear part, the distance between the stationary wear part and the movable wear part being changing during crushing. 5. A crushing plant comprising: a pressing mineral material crusher comprising a crushing chamber, a feed opening of the crushing chamber, and a measuring means for measuring at least one of crushing power used, a crushing pressure and a surface height of mineral material in the crushing chamber, wherein the crusher comprises an adjusting apparatus comprising a body and a plurality of adjusting parts each bearing-mounted at their first ends to the body by rotating axes and second ends of the plurality of adjusting parts are rotatable around the rotating axes, wherein curved front edges of the adjusting parts form a single unitary flow opening having a flow area which is adjustable by moving the plurality of adjusting parts, and wherein the plurality of adjusting parts are arranged such that the curved front edges form a perimeter around the flow area of the flow opening, and the flow area is adjustable by moving the plurality of adjusting parts, and the plurality of adjusting parts are configured to move such that the flow area is decreasing when at least one of the crushing power, the crushing pressure and the surface height measured by the measuring means is increasing and the flow area is increasing when at least one of the crushing power, the crushing pressure and the surface height measured by the measuring means is decreasing. 6. An adjusting apparatus positioned above a feed opening for a crushing chamber of a mineral crusher, the adjusting apparatus comprising: a body; and a plurality of adjusting parts each having a first end, a second end and a curved front edge extending from the first end to the second end, wherein each first end is bearing-mounted to the body about a vertical rotating axis and each second end is rotatable around the vertical rotating axis of the adjusting part, wherein the plurality of adjusting parts are mounted to the body such that the curved front edges combine to define a perimeter of a single unitary flow opening having a flow area, each of the plurality of adjusting parts being rotatable about the vertical rotating axes to selectively modify the flow area. 7. The adjusting apparatus of claim 6 wherein the body includes a bottom part and an upper part fixed together, wherein the plurality of adjusting parts are supported between the bottom part and the upper part in vertical direction. 8. The adjusting apparatus of claim 6 , wherein the plurality of adjusting parts are configured to be moved such that the plurality of adjusting parts are moved towards the flow opening for decreasing the flow area of the flow opening, and the plurality of adjusting parts are moved away from the flow opening for increasing the flow area of the flow opening. 9. The adjusting apparatus of claim 6 , wherein the plurality of adjusting parts are locatable before the feed opening in flow direction of the material to be crushed. 10. The adjusting apparatus of claim 6 , wherein the second ends of the plurality of adjusting parts are rotatable around the rotating axes and the rotating axes are vertical. 11. The adjusting apparatus of claim 6 , wherein the body comprises a bottom part and an upper part fixed together and the plurality of adjusting parts are supported between the bottom part and the upper part in vertical direction. 12. The adjusting apparatus of claim 6 , wherein the plurality of adjusting parts are arranged in two layers. 13. The adjusting apparatus of claim 6 , wherein the body and the plurality of adjusting parts are plate structures.