Microplate reader with lid lifter for microplates

The invention claimed is: 1. A method for optically measuring in a microplate reader ( 1 ) samples in wells ( 25 ) of a microplate ( 8 ) provided with a microplate lid ( 7 ), wherein the microplate reader ( 1 ) comprises at least one optical measuring/detection device ( 2 ), a housing ( 3 ), a microplate support ( 4 ) and a moving unit ( 5 ), wherein the moving unit ( 5 ) is arranged to move the microplate support ( 4 ) out of the housing, into the housing ( 3 ) and in at least one horizontal direction within the housing ( 3 ), wherein the measuring method comprises the following steps: (a) placing the microplate ( 8 ) covered by the microplate lid ( 7 ) on the microplate support ( 4 ) of the microplate reader ( 1 ), the microplate lid comprising magnetizable material; (b) retracting the microplate support ( 4 ) and the covered microplate ( 8 ) by the moving unit ( 5 ) into the housing ( 3 ) of the microplate reader ( 1 ); (c) moving the microplate lid ( 7 ) away from the microplate ( 8 ) positioned on the microplate support ( 4 ) with a lid holding apparatus ( 6 ) integrated in the microplate reader ( 1 ) and arranged within the housing ( 3 ), and (d) measuring samples in wells ( 25 ) of the microplate ( 8 ) with the lifted microplate lid ( 7 ) by the at least one optical measuring/detection device ( 2 ), wherein the lid holding apparatus ( 6 ) is arranged as a magnetic lifter ( 6 ′) and comprises a non-array arrangement of at least one: (i) permanent magnet ( 9 ′), or (ii) electro magnet ( 10 ′), or (iii) switchable permanent magnet ( 11 ), and wherein each microplate lid ( 7 ) to be moved away from the microplate ( 8 ) comprises magnetizable material ( 12 ) with a physical area; a projected area of the at least one permanent magnet ( 9 ′), electro magnet ( 10 ′), or switchable permanent magnet ( 11 ) being smaller than the physical area of the magnetizable material ( 12 ) of the microplate lid ( 7 ). 2. The method of claim 1 , wherein a microplate lid ( 7 ) utilized for carrying out the method comprises magnetizable material ( 12 ) with a physical area that is at least double the projected area of the at least one permanent magnet ( 9 ′), electro magnet ( 10 ′), or switchable permanent magnet ( 11 ) of the magnetic lifter ( 6 ′). 3. The method of claim 1 , wherein moving the microplate lid ( 7 ) away from the microplate ( 8 ) is carried out by: lifting the lid holding apparatus ( 6 ) with the microplate lid ( 7 ) in an at least approximately vertical direction away from the microplate ( 8 ), or lowering the microplate support ( 4 ) with the microplate ( 8 ) in an at least approximately vertical direction away from the lid holding apparatus ( 6 ) with the microplate lid ( 7 ), or lifting the lid holding apparatus ( 6 ) with the microplate lid ( 7 ) and lowering the microplate support ( 4 ) with the microplate ( 8 ) in an at least approximately vertical directions away from each other. 4. The method of claim 1 , wherein the microplate lid ( 7 ) is replaced on the microplate ( 8 ) positioned on the microplate support ( 4 ) by using the lid holding apparatus ( 6 ) integrated in the microplate reader ( 1 ). 5. The method of claim 1 , wherein the microplate support ( 4 ) and the covered microplate ( 8 ) are conveyed by the moving unit ( 5 ) out of the housing ( 3 ) of the microplate reader ( 1 ). 6. The method of claim 1 , wherein the microplate lid ( 7 ) is held by the lid holding apparatus ( 6 ) within the housing ( 3 ) of the microplate reader ( 1 ) or placed in the housing ( 3 ) during the optical measurement of samples in wells ( 25 ) of the microplate ( 8 ). 7. The method of claim 1 , wherein the samples in the wells ( 25 ) of the microplate ( 8 ) are brought into contact with air and/or a reagent for triggering luminescence or other reactions between the lifting of the microplate lid ( 7 ) from the microplate ( 8 ) positioned on the microplate support ( 4 ) according to step (c) and the optical measurement of samples in wells ( 25 ) of the microplate ( 8 ) with lifted microplate lid ( 7 ) is performed by the at least one optical measuring/detection device ( 2 ) according to step (d). 8. The curing method of claim 1 , wherein the microplate lid ( 7 ) is placed on the microplate ( 8 ) within the housing ( 3 ) of the microplate reader ( 1 ) by using the lid holding apparatus ( 6 ) after the optical measurement of the samples in wells ( 25 ) of the microplate ( 8 ), and the microplate support ( 4 ) and the covered microplate ( 8 ) are conveyed by the moving unit ( 5 ) out of the housing ( 3 ) of the microplate reader ( 1 ). 9. The method of claim 1 , wherein the microplate lid ( 7 ) is lifted and replaced several times during a long-term test, for the optical measurement of samples in wells ( 25 ) of the microplate ( 8 ) to occur.