A Conveyor Device

1 .- 17 . (canceled) 18 . A conveyor device, comprising a) a plurality of rack elements ( 310 a - d ) arranged in a first row to define a first conveyor track ( 310 a - d ), wherein said first conveyor track ( 310 ) is adapted to guide and carry an object ( 40 , 140 , 340 ) along a first conveying direction b) a plurality of rack elements ( 320 a - d ) arranged in a second row to define a second conveyor track ( 320 ), wherein said second conveyor track ( 320 ) is adapted to guide and carry an object ( 40 , 140 , 340 ) along a second conveying direction, wherein said second conveyor track ( 320 ) extends in said second conveying direction and is positioned in a lateral distance to said first conveyor track ( 310 ) with respect to said second conveying direction, wherein each rack element comprises a movable carrier device having an upper load surface ( 11 ) and a coupling interface ( 12 ), c) a robot unit ( 20 ) with a traction device ( 21 ) and a driving device ( 30 ), wherein said traction device ( 21 ) is adapted to move said robot ( 20 ) unit along said first or said second conveying direction and said driving device ( 30 ) is adapted to engage said coupling interface ( 12 ) of said movable carrier device ( 10 ) to drive said movable carrier device ( 10 ), d) a cross traverse rack element ( 350 ) adapted to take up said robot unit ( 20 ), wherein said cross traverse rack element ( 350 ) comprises a traverse movable load carrying device ( 10 ) having an upper traverse load surface ( 11 ) adapted to take up an object and a traverse coupling interface ( 12 ), wherein said cross traverse rack element ( 350 ) is adapted to move in a lateral direction with respect to said second conveying direction from said first conveyor track ( 310 ) to said second conveyor track ( 320 ) and vice versa, wherein said cross traverse rack element ( 350 ) is further adapted to couple to said first conveyor track ( 310 ) and to transfer an object ( 40 ) positioned on said traverse load surface ( 11 ) to said load surface ( 10 ) of said movable carrier device ( 10 ) of a rack element ( 310 a - d ) of said first conveyor track ( 310 ) and vice versa in a first position of said cross traverse rack element ( 350 ), wherein in said first position said cross traverse rack element ( 350 ) is coupled to said rack element ( 310 a - d ) of said first conveyor track ( 310 ) such that said robot unit ( 20 ) may move from said cross traverse rack element ( 350 ) to said rack element ( 310 a - d ) of said first conveyor track ( 310 ) and vice versa, wherein said cross traverse rack element ( 350 ) is further adapted to couple to said second conveyor track ( 320 ) and to transfer an object positioned on said traverse load surface ( 11 ) to said load surface ( 11 ) of said movable carrier device ( 10 ) of a rack element ( 320 a - c ) of said second conveyor track ( 320 ) and vice versa in a second position of said cross traverse rack element ( 350 ), wherein in said second position said cross traverse element ( 350 ) is coupled to said rack element ( 320 a - c ) of said second conveyor track ( 320 ) such that said robot unit ( 20 ) may move from said cross traverse rack element ( 350 ) to said rack element ( 320 a - c ) of said second conveyor track ( 320 ) and vice versa. 19 . A conveyor device according to claim 18 , wherein said cross traverse rack element ( 350 ) is adapted to be coupled to said robot unit ( 20 ) such that said traction device ( 21 ) of said robot unit effects said lateral movement of said cross traverse rack element ( 350 ), or said cross traverse rack element ( 350 ) comprises a traverse traction device ( 21 ) with a traverse traction coupling interface adapted to couple to said traction device ( 21 ) or said driving device ( 30 ) of said robot unit ( 20 ) when said robot ( 20 ) unit taken up by said cross traverse rack element ( 350 ) such that a driving force transmitted via said traverse traction coupling interface from said robot unit ( 20 ) to said traverse traction device ( 21 ) drives the lateral movement of the cross traverse rack element ( 350 ) with said robot unit taken up, or wherein said cross traverse rack element ( 350 ) comprises a cross traverse traction device for effecting said lateral movement of said cross traverse rack element. 20 . A conveyor device according to claim 18 , wherein said traverse coupling interface ( 12 ) is adapted to couple to said driving device ( 30 ) of said robot unit ( 20 ) and wherein a force transferred via said traverse coupling interface ( 12 ) from said driving device to said traverse movable carrier device conveys an object ( 40 ) positioned on said traverse load carrying surface ( 11 ). 21 . A conveyor device according to claim 18 , wherein said movable carrier device ( 10 ) and/or said traverse movable carrier device ( 10 ) comprises a plurality of idle rollers ( 10 a,b,c ), wherein a first surface section, in particular a top circumferential surface section or a first axial circumferential surface of the idle rollers define the load carrying surface ( 11 ) and the traverse load carrying surface ( 11 ), respectively, wherein a second surface section, in particular a bottom circumferential surface section or a second axial circumferential surface section of the idle rollers define the coupling interface ( 12 ) and the traverse coupling interface ( 12 ), respectively. 22 . A conveyor device according to claim 18 , wherein at least one of the first and the second conveyor track ( 310 , 320 ) comprises a coupling end or a gap ( 310 g , 320 g ) between two rack elements forming said first and second conveyor track, respectively, said gap being dimensioned to take up said cross traverse rack element ( 350 ) in said first and said second position, respectively. 23 . A conveyor arrangement, comprising a plurality of rack elements ( 310 a - d , 320 a - c ) extending along a conveying direction, each of said rack elements comprising a movable load carrying surface ( 11 ) defined by a movable carrier ( 10 ) device, a second conveyor module configured as a robot unit ( 20 ), wherein said robot unit ( 20 ) comprises a traction device ( 21 ) for driving said drive robot unit ( 20 ) along said rack element in said conveying direction, and a driving device ( 30 ) adapted to couple with said movable carrier ( 10 ) device and to drive said movable carrier device ( 10 ), wherein said coupling of said driving device ( 30 ) to said movable carrier device ( 10 ) enables said driving device ( 30 ) to move said movable load carrying surface ( 11 ), at least one tool machine ( 600 ) representing a first station capable to input objects into the conveyor device, a fence ( 620 ) circumscribing a safeguarded zone ( 610 ) wherein said tool machine ( 620 ) is positioned within said safeguarded zone ( 610 ), further comprising a human work zone ( 630 ) adjacent to said safeguarded zone ( 610 ) and separated from said safeguarded zone ( 610 ) by said fence ( 620 ), wherein said rack element s define a conveying track extending from said human work zone through said fence into said safeguarded zone, wherein said robot unit ( 20 ) is adapted to drive in said rack elements from said human work zone into said safeguarded zone and vice versa. 24 . The conveyor arrangement of claim 18 , wherein said robot unit has a front end and a rear end, with at least one front time-of-flight sensor being positioned at said front end and preferably at least one rear time-of-flight sensor being positioned at said rear end, further comprising a control unit coupled to said front time-of-flight sensor for receiving a sensor signal with said control unit being adapted to interpret said sensor signal to id