Demag ZKKE standard double-girder overhead travelling crane with EZDR double-rail crab Dimension catalogue

Demag ZKKE standard doule-girder overhead travelling crane with EZDR doule-rail cra Dimension catalogue 0405 EN 3 561 44 7 I 1

Description Crane girders The steel superstructure is specified to DIN 0, hoisting class H2, loading group B3 for indoor operations (other classifications on request). The crane girder and the end carriages, of welded ox-section design, are connected y high-tensile HV screws. The perfectly reproducile crane geometry (precondition for good travel characteristics) is achieved y machining of the connecting surfaces to engineering tolerances, exact measurement and precise adjustment in the plant. All design and production procedures as well as the component parts are sujected to a permanent and comprehensive quality control to DIN IO 9001. tandard crane girder designs Design 1 for existing uilding clearance dimensions with limited dimension X and dimension U>0 356001.eps pecial crane girder designs Design 2 Raised U 0 Design 3 Raised U 0 356002.eps 356003.eps Design 4 2 356004.eps For further information, please refer to the fold out page 3561K1.p65/0405

Crane end carriages The end carriage consists of the welded ox structure, the driven wheel lock with geared motor and the non-driven wheel lock. The travel wheel is made of wearresistant spheroidal graphite cast iron (minimum tensile strength = N/mm²). The design features include high duraility due to roller earings which are luricated for life in the wheel earing, track gauge changes y means of spacer elements and drive arrangements optionally to the right or left. Documentation: 3 9 44 DFW--Z end carriages Travel wheel tread DFW--Z end carriage Dimensions in mm rad ize max rad max schi 0 65 50 ød min. 65 50 0 70 55 schi 356005.eps ong travel drives Virtually maintenance-free single drives drive one travel wheel on each side of the crane. The integrated flywheel mass of the cylindrical rotor motor ensures smooth starting of the crane and the special motor winding allows a high numer of starts and stops. The disk rake integrated in the motor is spring-actuated and features electro-magnetic release. It is controlled independently of the motor and causes no axial movement of the rotor shaft or forces on the earings. ong travel speeds: Documentation: V kr = 10/40 m/min (pole-changing motor) V kr = 60 m/min (infinitely variale) (other speeds on request) 3 351 44 Travel unit components 3 356 44 Geared travel motors Doule-rail cra Compact doule-rail cras type EZ with Demag DR 5 and 10 rope hoist. Cross travel speeds: Documentation: V ka = 1,5 m/min (infinitely variale) y means of cylindrical rotor motors with frequency inverter 3 648 44 EZDR 5, 10-Pro 3561K1.p65/0405 3

Power supply to the cra Transmission of power and control commands from the electrical equipment enclosure of the crane to the cra is via a trailing cale system featuring highly flexile flat cales with KBK (KBK profile girder section). A protective earth conductor is always installed. In accordance with the VDE regulations, a crane switch is provided. Crane controls All motions of the crane are controlled via an integrated CAN BU system. The crane is controlled from the ground optionally y means of: Demag ine Control pendants which can travel independently of the cra position or are fixed on the cra, Demag Radio Control wireless radio control systems. ZKKE with EZDR, no crane platform Moile control Cra power supply, control Forwards ZKKE with EZDR, with crane platform eft Right Moile control Cra power supply, control Reverse 3560.eps Corrosion protection After a thorough pre-treatment (degree of purity a2 to DIN 559), the steel parts are given a paint finish of synthetic resin-ased paint (semi-matt golden yellow; min. coat thickness 60 µm). Cra 2-colour power-coated in azure lue and silver grey (RA 5009 and RA 1; coat thickness 80 µm). Travel drives in azure lue (RA 5009). 4 3561K1.p65/0405

Demag ZKKE standard doule-girder overhead travelling crane Crane girders: Box-girder; design 1 End carriage: DFW--Z _ / / Cra: 1 x EZDR kr X1 Y g U Ian 1 Ian 2 356008.eps Type designation DFW--Z 0 / / ide connection Wheel ase ekt Travel wheel diameter d Demag end carriage type Z EZDR 10-8 4/1 FEM 3m Rope reeving W in t 3561K1.p65/0405 Range 5; 10 Doule-rail cra with Demag rope hoist type DR 5

ZKKE without crane platform W 3,2 t Crane girders: Box-girder; design 1 End carriage: DFW--Z _ / / Cra: 1x EZDR 5-3,2 4/1 FEM 4m kr g Y X1 U Ian 1 Ian 2 356009.eps Hook path: 10 or 6 m; lifting speed: 9/1,5 m/min or 1,5 m/min infinitely variale Cross travel speed 1,5 m/min infinitely variale Crane girder Cra End carriage X H U lan 1 lan 2 g y ka lan 3 lan 4 d e KT lekt DPZ 4, 5, 6, 7, 8, 9, 10,,,,, 70 570, 1 6, 1 6, 0 670, 2 672, 2 7 47, 5 94, 3642 0 770 47, 5 94, 3642 2 772 47, 5 94, 3642 0 770 47, 5 94, 3642 3 8 67, 5, 32 1 0 781 40, 5 22, 1 1 781 40, 5 22, 381 1 881 40, 5 22, 381 1 881 40, 5 22, 383 1 883 40, 5 22, 385 1 885 40, 5 22, 6 All dimensions in mm ( in m). For further information, refer to the fold out page. All structural dimensions, approach dimensions and information on the crane runway dimensions are ased on the standard design 1 presented in this catalogue. Check for any deviations. Comply with the instructions on the fold out page. 3561K2.p65/0405

ZKKE without crane platform W 5 t Crane girders: Box-girder; design 1 End carriage: DFW--Z _ / / Cra: 1x EZDR 5-5 4/1 H kr g Y X1 U Ian 1 Ian 2 356009.eps Hook path: 10 or 6 m; lifting speed: 6/1 m/min; 9/1,5 m/min or 1,5 m/min infinitely variale Cross travel speed 1,5 m/min infinitely variale Crane girder Cra End carriage X H U lan 1 lan 2 g y ka lan 3 lan 4 d e KT lekt DPZ 4, 5, 6, 7, 8, 9, 10,,, 1 6, 1 6, 1 6, 0 670, 2 7, 2 7, 0 770, 2 7 47, 5 94, 3642 0 770 47, 5 94, 3642 0 770 47, 5 94, 3642 3 8 67, 5, 32 0 870 67, 5, 32 381 1 881 40, 5 22, 381 1 881 40, 5 22, 1 981 40, 5 22, 1 981 40, 5 22, 483 1 983 40, 5 22, 485 1 985 40, 5 22, 3561K2.p65/0405 All dimensions in mm ( in m). For further information, refer to the fold out page. All structural dimensions, approach dimensions and information on the crane runway dimensions are ased on the standard design 1 presented in this catalogue. Check for any deviations. Comply with the instructions on the fold out page. 7

ZKKE without crane platform W 6,3 t Crane girders: Box-girder; design 1 End carriage: DFW--Z _ / / Cra: 1x EZDR 10-6,3 4/1 H kr g Y X1 U Ian 1 Ian 2 356009.eps Hook path 10 or 6 m; lifting speed: 6/1 m/min; 9/1,5 m/min or 1,5 m/min infinitely variale Cross travel speed 1,5 m/min infinitely variale Crane girder Cra End carriage X H U lan 1 lan 2 g y ka lan 3 lan 4 d e KT lekt DPZ 4 5 6 7 8 9 10 1 6 1 6 0 670 2 35 672 35 675 0 770 2 35 772 8 7 2 33 772 0 870 3 8 44, 5 97, 3642 3 8 44, 5 97, 3642 0 870 64, 5, 32 0 35 870 64, 5, 32 4 9 64, 5, 32 383 1-50 883 40, 5 81, 383 1-52 883 40, 5 81, 1-52 981 40, 5 81, 483 1-50 983 40, 5 81, 581 1-50 1081 40, 5 81, 581 1-52 1081 40, 5 81, 8 All dimensions in mm ( in m). For further information, refer to the fold out page. All structural dimensions, approach dimensions and information on the crane runway dimensions are ased on the standard design 1 presented in this catalogue. Check for any deviations. Comply with the instructions on the fold out page. 3561K2.p65/0405

ZKKE without crane platform W 8 t Crane girders: Box-girder; design 1 End carriage: DFW--Z _ / / Cra: 1x EZDR 10-8 4/1 H kr g Y X1 U Ian 1 Ian 2 356009.eps Hook path 10 or 6 m; lifting speed: 6/1 m/min; 9/1,5 m/min or 1,5 m/min infinitely variale Cross travel speed 1,5 m/min infinitely variale Crane girder Cra End carriage X H U lan 1 lan 2 g y ka lan 3 lan 4 d e KT lekt DPZ 4 5 6 7 8 9 70 570 10 72 35 572 1 6 0 35 670 2 7 2 7 0 35 770 5 35 775 0 35 870 2 35 872 4 9 4 9 64, 5, 32 4 9 64, 5, 32 4 9 64, 5, 32 4 9 64, 5, 32 470 970 64, 5, 32 1-50 981 40, 5 81, 1-50 981 40, 5 81, 483 1-52 983 40, 5 81, 581 1-50 1081 40, 5 81, 581 1-50 1081 40, 5 81, 581 1-52 1081 40, 5 81, 3561K2.p65/0405 All dimensions in mm ( in m). For further information, refer to the fold out page. All structural dimensions, approach dimensions and information on the crane runway dimensions are ased on the standard design 1 presented in this catalogue. Check for any deviations. Comply with the instructions on the fold out page. 9

ZKKE without crane platform W 10 t Crane girders: Box-girder; design 1 End carriage: DFW--Z _ / / Cra: 1x EZDR 10-10 4/1 H kr g Y X1 U Ian 1 Ian 2 356009.eps Hook path 10 or 6 m; lifting speed: 6/1 m/min; 9/1,5 m/min or 1,5 m/min infinitely variale Cross travel speed 1,5 m/min infinitely variale Crane girder Cra End carriage X H U lan 1 lan 2 g y ka lan 3 lan 4 d e KT lekt DPZ 4 5 6 7 8 9 72 35 572 10 1 6 0 35 670 2 7 0 770 5 35 775 3 8 3 1-52 783 52, 5 05, 899 799 5 1-54 785 52, 5 05, 381 1-52 881 52, 5 05, 383 1-52 883 52, 5 05, 381 1-50 881 97, 5 50, 48 381 1-52 881 97, 5 50, 48 383 1-52 883 97, 5 50, 48 899 799 385 1-54 885 97, 5 50, 48 483 1-52 983 97, 5 50, 48 483 1-52 983 40, 5 81, 899 799 483 1-54 983 40, 5 81, 581 1-50 1081 40, 5 81, 583 1-52 1083 40, 5 81, 583 1-50 1083 40, 5 81, 585 1-52 1085 40 48, 5, 4662 0 10 All dimensions in mm ( in m). For further information, refer to the fold out page. All structural dimensions, approach dimensions and information on the crane runway dimensions are ased on the standard design 1 presented in this catalogue. Check for any deviations. Comply with the instructions on the fold out page. 3561K2.p65/0405

ZKKE without crane platform W,5 t Crane girders: Box-girder; design 1 End carriage: DFW--Z _ / / Cra: 1x EZDR 10 -,5 6/1 H kr g Y X1 U Ian 1 Ian 2 356009.eps Hook path 6,7 m; lifting speed: 6/1 m/min; 2,7/0,4 m/min or 0,7 6 m/min infinitely variale Cross travel speed 1,5 m/min infinitely variale Crane girder Cra End carriage X H U lan 1 lan 2 g y ka lan 3 lan 4 d e KT lekt DPZ 4 958 858 1 0 347 91, 5 1, 5 958 858 1 0 347 91, 5 1, 6 958 858 1 0 347 91, 5 1, 7 1045 945-0, 5 33, 8 1047 947-8 485, 5 33, 9 1045 945 81 0 581, 5 33, 10 1047 947 83 8 583, 5 33, 1047 947 1 8 1, 5 33, 1049 949 3 6 3, 5 33, 1045 945 1 0 781, 5 33, 1047 947 1 8 781, 5 33, 1047 947 5 8 785, 5 33, 1045 945 381 0 881, 5 33, 1047 947 383 8 883, 5 33, 1049 949 385 6 885 44, 5 3, 98 1052 952 388 3 888 44, 5 3, 98 1045 945 0 981 69, 5 78, 48 1045 945 0 981 69, 5 78, 48 1045 945 483 0 983 69, 5 78, 48 1049 949 483 6 983 69, 5 78, 48 1045 945 583 0 1083 69, 5 78, 48 1063 963 565 1 0 2 1065 40 66, 5, 4642 1063 963 565 1 0 2 1065 40 66, 5, 4642 1065 965 567 1 0 0 1067 40 66, 5, 4642 1065 965 565 1 0 0 1065 40 98, 5 07, 4706 0 1067 967 567 1 0 8 1067 40 98, 5 07, 4706 0 1067 967 570 1 0 8 1070 40 98, 5 07, 4706 0 3561K2.p65/0405 All dimensions in mm ( in m). For further information, refer to the fold out page. All structural dimensions, approach dimensions and information on the crane runway dimensions are ased on the standard design 1 presented in this catalogue. Check for any deviations. Comply with the instructions on the fold out page.

ZKKE without crane platform W t Crane girders: Box-girder; design 1 End carriage: DFW--Z _ / / Cra: 1x EZDR 10-6/1 H kr g Y X1 U Ian 1 Ian 2 356009.eps Hook path 6,7 m; lifting speed: 6/1 m/min; 2,7/0,4 m/min or 0,7 6 m/min infinitely variale Cross travel speed 1,5 m/min infinitely variale Crane girder Cra End carriage X H U lan 1 lan 2 g y ka lan 3 lan 4 d e KT lekt DPZ 4 1045 945-0, 5 33, 5 1045 945-0, 5 33, 6 1045 945-0, 5 33, 7 1047 947-8 483, 5 33, 8 1045 945 81 0 581, 5 33, 9 1047 947 83 8 583, 5 33, 10 1045 945 1 0 1, 5 33, 1047 947 3 8 3, 5 33, 1045 945 1 0 781, 5 33, 1065 965 5 1 0 0 765 46, 5 5, 3102 1065 965 365 1 0 0 865 46, 5 5, 3102 1065 965 365 1 0 0 865 46, 5 5, 3102 1070 970 465 1 0 5 965 46, 5 5, 3102 1070 970 465 1 0 5 965 66, 5 75, 32 1070 970 465 1 0 5 965 66, 5 75, 32 1070 970 470 1 0 5 970 66, 5 75, 32 1065 965 465 1 0 0 965 91, 5 2, 92 1067 967 467 1 0 8 967 91, 5 2, 92 1070 970 467 1 0 5 967 91, 5 2, 92 1070 970 470 1 0 5 970 91, 5 2, 92 1070 970 565 1 0 5 1065 91, 5 2, 92 1070 970 565 1 0 5 1065 40 66, 5, 4642 1070 970 565 1 0 5 1065 40 66, 5, 4642 1063 963 7 1 0 2 40 66, 5, 4642 1063 963 7 1 0 2 40 66, 5, 4642 1065 965 7 1 0 0 40 98, 5 07, 4706 0 1067 967 7 1 0 8 40 98, 5 07, 4706 0 All dimensions in mm ( in m). For further information, refer to the fold out page. All structural dimensions, approach dimensions and information on the crane runway dimensions are ased on the standard design 1 presented in this catalogue. Check for any deviations. Comply with the instructions on the fold out page. 3561K2.p65/0405

Demag ZKKE standard doule-girder overhead travelling crane Crane girders: Box-girder; design 1 End carriage: DFW--Z _ / / Cra: 2 x EZDR kr X1 Y g U Ian 1 lh Ian 2 Demag rope hoist Range Reeving lh mm EZDR 5 10 2/1, 4/1 50 356010.eps Type designation DFW--Z 0 / / ide connection Wheel ase ekt Travel wheel diameter d Demag end carriage type Z EZDR 10-8 4/1 FEM 3m Reeving W in t 3561K3.p65/0405 Range 3; 5; 10 Doule-rail cra with Demag rope hoist type DR

ZKKE without platform W 2 x 3,2 t Crane girders: Box girder; design 1 End carriage: DFW--Z _ / / Cra: 2 x EZDR 5-3,2 4/1 FEM 4m kr U Y X1 g Ian 1 Ian 2 3560.eps Hook path: 10 or 6 m; lifting speed: 9/1,5 m/min; 1,5 m/min infinitely variale Cross travel speed 1,5 m/min infinitely variale Crane girder Cra End carriage X H U lan 1 lan 2 g y ka lan 3 lan 4 d e KT lekt DPZ 4, 5, 6, 7, 8, 9, 10, 70 570, 1 6, 1 6, 0 670, 2 672, 2 7, 0 770, 2 772, 3 8, 3 8 47, 5 94, 3642 3 8 67, 5, 32 3 8 67, 5, 32 0 870 67, 5, 32 4 9 67, 5, 32 383 1 883 40, 5 22, 385 1 885 40, 5 22, 483 1 983 40, 5 22, 483 1 983 40, 5 22, 899 799 485 1-69 985 40, 5 22, 583 1 1083 40, 5 22, All dimensions in mm ( in m). For further information, refer to the fold out page. All structural dimensions, approach dimensions and information on the crane runway dimensions are ased on the standard design 1 presented in this catalogue. Check for any deviations. Comply with the instructions on the fold out page. 3561K4.p65/0405

ZKKE without platform W 2 x 4 t Crane girders: Box girder; design 1 End carriage: DFW--Z _ / / Cra: 2 x EZDR 5-4 4/1 H kr U Y X1 g Ian 1 Ian 2 3560.eps Hook path: 10 or 6 m; lifting speed: 9/1,5 m/min; 1,5 m/min infinitely variale Cross travel speed 1,5 m/min infinitely variale Crane girder Cra End carriage X H U lan 1 lan 2 g y ka lan 3 lan 4 d e KT lekt DPZ 4, 5, 6, 7, 8, 9, 10 70 570, 1 6, 1 6, 0 670, 2 7, 2 7, 0 770, 3 8, 0 870, 0 870, 3 8 47, 5 94, 3642 0 870 67, 5, 32 0 870 67, 5, 32 4 9 67, 5, 32 470 970 67, 5, 32 1 981 40, 5 22, 483 1 983 40, 5 22, 485 1 985 40, 5 22, 581 1 1081 40, 5 22, 581 1 1081 40, 5 22, 583 1 1083 40, 5 22, 3561K4.p65/0405 All dimensions in mm ( in m). For further information, refer to the fold out page. All structural dimensions, approach dimensions and information on the crane runway dimensions are ased on the standard design 1 presented in this catalogue. Check for any deviations. Comply with the instructions on the fold out page.

ZKKE without platform W 2 x 5 t Crane girders: Box girder; design 1 End carriage: DFW--Z _ / / Cra: 2x EZDR 5-5 4/1 H kr U Y X1 g Ian 1 Ian 2 3560.eps Hook path: 10 or 6 m; lifting speed: 9/1,5 m/min; 1,5 m/min infinitely variale Cross travel speed 1,5 m/min infinitely variale Crane girder Cra End carriage X H U lan 1 lan 2 g y ka lan 3 lan 4 d e KT lekt DPZ 4, 5, 6, 7, 8, 9 70 570, 10 1 6, 1 6, 2 7, 2 7, 0 770, 3 8, 3 8, 0 870, 4 9, 470 970, 381 1 881 00, 5 47, 48 381 1 881 00, 5 47, 48 383 1 883 00, 5 47, 48 383 1 883 00, 5 47, 48 1 981 00, 5 47, 48 483 1 983 40, 5 22, 485 1 985 40, 5 22, 581 1 1081 40, 5 22, 899 799 583 1-69 1083 40, 5 22, 583 1 1083 40, 5 22, 585 1 1085 40 57, 5 04, 4662 0 All dimensions in mm ( in m). For further information, refer to the fold out page. All structural dimensions, approach dimensions and information on the crane runway dimensions are ased on the standard design 1 presented in this catalogue. Check for any deviations. Comply with the instructions on the fold out page. 3561K4.p65/0405

ZKKE without platform W 2 x 6 t Crane girders: Box girder; design 1 End carriage: DFW--Z _ / / Cra: 2x EZDR 10-6,3 4/1 H kr U Y X1 g Ian 1 Ian 2 3560.eps Hook path: 10 or 6 m; lifting speed: 9/1,5 m/min; 1,5 m/min infinitely variale Cross travel speed 1,5 m/min infinitely variale Crane girder Cra End carriage X H U lan 1 lan 2 g y ka lan 3 lan 4 d e KT lekt DPZ 4 8 7 5 8 7 6 8 7 7 910-1 52, 5 05, 8 9 8-1 483 52, 5 05, 9 910 81 1 581 52, 5 05, 10 910 83 1 583 52, 5 05, 910 1 1 1 52, 5 05, 910 3 1 3 52, 5 05, 910 1 1 781 52, 5 05, 910 3 1 783 52, 5 05, 9 8 5 1 785 52, 5 05, 910 381 1 881 52, 5 05, 9 8 383 1 883 52, 5 05, 9 8 385 1-69 885, 5, 98 910 483 1 983, 5, 98 9 8 1 981 97, 5 50, 48 9 8 1 981 97, 5 50, 48 9 8 483 1-69 983 97, 5 50, 48 9 8 483 1 983 97, 5 50, 48 910 581 1 1081 97, 5 50, 48 9 8 581 1-69 1081 40, 5 81, 9 8 565 1-85 1065 40 38, 5 03, 4642 932 832 567-87 1067 40 38, 5 03, 4642 932 832 565-87 1065 40 70, 5 35, 4706 0 932 832 567-87 1067 40 70, 5 35, 4706 0 935 835 570-90 1070 40 70, 5 35, 4706 0 3561K4.p65/0405 All dimensions in mm ( in m). For further information, refer to the fold out page. All structural dimensions, approach dimensions and information on the crane runway dimensions are ased on the standard design 1 presented in this catalogue. Check for any deviations. Comply with the instructions on the fold out page.

ZKKE without platform W 2 x 8 t Crane girders: Box girder; design 1 End carriage: DFW--Z _ / / Cra: 2x EZDR 10-8 4/1 H kr U Y X1 g Ian 1 Ian 2 3560.eps Hook path: 10 or 6 m; lifting speed: 9/1,5 m/min; 1,5 m/min infinitely variale Cross travel speed 1,5 m/min infinitely variale Crane girder Cra End carriage X H U lan 1 lan 2 g y ka lan 3 lan 4 d e KT lekt DPZ 4 910-1 52, 5 05, 5 910-1 52, 5 05, 6 910-1 52, 5 05, 7 910-1 483 52, 5 05, 8 910 81 1 581 52, 5 05, 9 9 8 83 1 583 52, 5 05, 10 910 1 1 1 52, 5 05, 9 8 3 1 3 52, 5 05, 910 1 1 781 52, 5 05, 9 8 5-85 765, 5, 3102 9 8 363-83 863, 5, 3102 9 8 365-83 865, 5, 3102 9 8 463-83 963 94, 5 47, 32 9 8 465-83 965 94, 5 47, 32 9 8 467-85 967 94, 5 47, 32 932 832 470-87 970 94, 5 47, 32 9 8 465-85 965, 5 72, 92 9 8 467-85 967, 5 72, 92 9 8 565-83 1065, 5 72, 92 9 8 565-85 1065, 5 72, 92 932 832 567-87 1067, 5 72, 92 932 832 567-87 1067 40 38, 5 03, 4642 932 832 570-87 1070 40 38, 5 03, 4642 9 8 7-83 40 38, 5 03, 4642 9 8 7-83 40 70, 5 35, 4706 0 9 8 7-85 40 70, 5 35, 4706 0 932 832 7-87 40 70, 5 35, 4706 0 All dimensions in mm ( in m). For further information, refer to the fold out page. All structural dimensions, approach dimensions and information on the crane runway dimensions are ased on the standard design 1 presented in this catalogue. Check for any deviations. Comply with the instructions on the fold out page. 3561K4.p65/0405

3561K5.p65/0405

Details for crane runway dimensions DIN 42 Note: The effects of maximum and minimum loads and forces of the crane on the crane runways can vary depending on the cra position and long travel direction (see figures 1 4). The following tales provide the maximum and minimum values for standard cranes. Fig. 1: Cra at lan 1; + V Kran kr lan1 Is max Hs max Hm max R min R min Hm min Hs ekt max Hm min Hm max R +V kran min R Pu1 = max Pu Pu2 3560.eps Fig. 2: Cra at lan 2; + V Kran kr Is lan2 min Hs min Hm min R max R max Hm max Hs ekt min Hm max Hm min R +V kran max R Pu2 Pu1 = max Pu 3560.eps Crane system: EFF to DIN0 (Cra in unfavourale approach dimension) Wheel loads (without coefficients) Brake forces Inertia forces resulting from long travel kewing forces Buffer end force max. R min. R min. HM max. HM max. H min. H max. Pu 3561K5.p65/0405

Details for crane runway dimensions DIN 42 Note: The effects of maximum and minimum loads and forces of the crane on the crane runways can vary depending on the cra position and long travel direction (see figures 1 4). The following tales provide the maximum and minimum values for standard cranes. Fig. 3: Cra at lan 1; V Kran kr lan1 Is max Hm max R min R min Hm ekt max Hs max Hm max R +V kran min R min Hm min Hs Pu1 = max Pu Pu2 3560.eps Fig. 4: Cra at lan 2; V Kran kr Is lan2 min Hm min R max R max Hm ekt min Hs min Hm min R +V kran max R max Hm max Hs Pu2 Pu1 = max Pu 3560.eps Crane system: EFF to DIN0 (Cra in unfavourale approach dimension) Wheel loads (without coefficients) Brake forces Inertia forces resulting from long travel kewing forces Buffer end force max. R min. R min. HM max. HM max. H min. H max. Pu 3561K5.p65/0405

oads and forces to DIN 0 Wheel loads/inertia forces/skewing forces/uffer forces/crane dead weight forces W 3,2 t - 1x EZDR5-3,2 4/1 FEM 4m m 4 5 6 7 8 9 10 max. R 38 91 57 75 31 85 75 33 max. R 03 77 42 03 60 66 66 99 89 42 36 78 min. R 6 604 6 632 659 9 7 758 833 873 949 1032 1079 6 min. R 5 5 541 562 591 6 656 692 7 767 806 881 963 9 1098 34 Rm = (2 x maxr + minr)v3 88 48 03 55 06 6 03 52 99 45 92 74 63 49 0,54 0,59 0,65 0,70 0,75 0,81 0,86 0,91 0,97 1,02 1,08 1, 1, 1,34 1,45 1,61 min. HM 0, 0, 0, 0, 0, 0, 0,43 0,51 0,59 0, 0,77 0,89 1,03 1, 1, 1,51 max. HM 0, 0,53 0,70 0,89 1,08 1, 1,48 1,69 1,90 2, 2,33 2,58 2,83 3,05 3,31 3,59 6,84 7,09 7,33 7,58 7,82 8,07 8,31 8,56 8,81 9,05 9, 9,74 10, 10,49 10,99,76 max. Hs 5, 5,56 5,78 5,97 6, 6, 6,46 6,60 6,75 6,89 7,03 7, 7,51 7,66 7,92 8,31 min. Hs 1,54 1,53 1,55 1,61 1, 1,77 1,85 1,96 2,06 2, 2, 2,48 2,70 2,83 3,07 3,45 max.p U ( V K R= 40 m/min) 7,06 7,61 8,41 9,08 9,90 10,72,34,03,03,89,76,32,36,55,66,82 max.pu V K R= 60 m/min),63,45,38,54,05,83 32,51 35, 38,42,66,08,89,64,71 35, 41,89 91 72 51 10 66 47 36 3403 3583 3904 42 4453 48 5381 W 5,0 t - 1x EZDR5-5 4/1 FEM 2m m 4 5 6 7 8 9 10 max.r 94 92 3 39 33 3380 3440 3498 36 3675 34 38 39 3990 4094 max.r 2 65 54 2 60 74 39 34 30 3356 3447 3547 3605 06 min.r 696 701 694 701 7 743 770 802 836 934 976 10 1099 41 35 min.r 671 6 6 6 644 670 698 731 765 863 905 947 10 10 67 60 Rm = (2 x maxr + minr)v3 40 80 35 88 40 89 39 88 98 50 03 91 64 45 45 0,54 0,59 0,65 0,70 0,75 0,81 0,86 0,91 0,97 1,10 1, 1, 1,32 1,43 1,50 1,62 min.hm max.hm 0,10 0, 0, 0, 0, 0,34 0,41 0,48 0,56 0,70 0,80 0,91 1,06 1, 1, 1,56 0,42 0,61 0,81 1,04 1, 1,52 1,77 2,04 2,32 2, 2,97 3, 3,62 3,99 4,31 4, 9,31 9,55 9,80 10,04 10, 10,54 10,78,03,,86,,41,88,41,71, max.h 7,46 7,78 8,04 8, 8,45 8,63 8,80 8,96 9, 9,43 9,59 9,75 10,00 10, 10,44 10,72 min.h 1,85 1,77 1,76 1,78 1,84 1,91 1,98 2,07 2, 2,43 2,55 2,66 2,88 3, 3, 3,53 max.pu (VK R= 40 m/min) 7,06 7,61 8,41 9,08 9,90 10,72,34,03,03,06,00,,,42,70,91 max.pu (VK R= 60 m/min),63,45,38,54,05,83 32,51 35, 38,42,58,,50, 34,72,60 42,05 GG 91 72 52 09 90 66 47 38 3657 3856 4056 4400 4783 5003 5395 W 6,3 t - 1x EZDR10-6,3 4/1 FEM 4m m 4 5 6 7 8 9 10 max.r 86 31 36 3382 3452 35 36 3694 85 39 4031 4046 40 40 43 max.r 3862 3974 4066 46 48 44 4400 4465 4556 44 4803 48 4960 5070 5098 min.r 765 7 7 7 735 757 783 866 904 973 1082 34 min.r 807 750 7 7 7 746 767 846 880 946 1051 48 77 89 Rm = (2 x maxr + minr)v3 89 2 36 97 54 09 61 65 3105 36 3340 3349 3489 3595 36 0,59 0,65 0,70 0,75 0,81 0,86 0,92 1,03 1,09 1, 1,33 1,46 1,47 1,63 1,76 1,78 min.hm 0, 0, 0, 0, 0, 0,35 0,41 0,52 0,61 0,73 0,90 1,08 1, 1,38 1,59 1,70 max.hm 0,48 0,70 0,94 1, 1,47 1,76 2,06 2,45 2,79 3, 3,63 4,07 4,38 4,88 5,33 5,,34,59,83,08,32,57,81,35,63,06,71,31,34,09,66,79 max.h 9, 9,59 9,89 10, 10,35 10,54 10,72,04,,46,81,,,57,87,95 min.h 2, 2,00 1,94 1,95 1,97 2,03 2,09 2,31 2,42 2,60 2,90 3, 3, 3,52 3,79 3,84 max.p U ( V K R= 40 m/min) 7,67 8,57 9,33 10,,02,,59,53,52,,03,55,74,91,42,98 max.pu V K R= 60 m/min),69,90,, 31, 33,96 36,46,71,32,62 31,42,32,69 44,06 32, 32,69 75 55 36 93 73 50 3442 3643 3960 44 4870 4896 5443 5859 5949 End carriage: Travel wheel diameter d - Travel wheel tread wheel - Crane runway rail width rail : 0-50; -50; 0-55-70. 3561K5.p65/0405

W 3,2 t - 1x EZDR5-3,2 4/1 FEM 4m m max. R 35 33 3402 64 3869 4046 44 4339 44 47 4932 max. R 57 63 32 35 3631 3832 3907 41 48 4503 4709 min. R 45 47 52 86 60 72 46 53 57 min. R 87 88 93 43 43 06 79 89 62 67 70 Rm = (2 x maxr + minr)v3 96 01 09 67 31 3355 34 3644 40 43 1,67 1,80 1,93 2,35 2,48 2,69 2,78 3,04 3, 3,49 3,74 min. HM 1, 1,44 1,59 1,90 2,05 1,80 1,88 2,05 2, 2, 2,53 max. HM 3,03 3, 3,43 3,69 3,89 3,41 3,41 3,57 3,72 3,89 4,04,,69,,04,57,,49,48,83,, max. Hs 7,84 8, 8,39 9, 9,57 9, 9,36 9,86 10,04 10,75, min. Hs 3,32 3,58 3,84 4,74 5,00 4,96 5, 5,62 5,79 6,50 6,98 max.pu ( V K R = 40 m/min),02,52,97 48,03,,,46,99 33, 39,96 45,97 max.pu V K R = 60 m/min) k N 44,38* 32, 34,70* 43,75 46, 51, 52,63 58, 60,63 70,85 75,55 5574 5991 64 7845 85 0 90 101 104 648 4 W 5,0 t - 1x EZDR5-5 4/1 FEM 2m m max.r 48 4534 4694 47 4885 5 53 5434 55 57 6045 max.r 4065 49 47 4395 4565 47 4 50 50 59 5634 min.r 45 93 46 59 34 2 05 38 min.r 78 78 90 55 50 42 31 Rm = (2 x maxr + minr)v 3 3363 35 3672 39 3859 4064 45 4364 4445 4644 4969 2,00 2, 2, 2,39 2,59 2,83 2,93 3, 3, 3,52 3,91 min.hm 1,59 1,80 2,02 2, 2, 2,08 2, 2,44 2,58 2,80 3,08 max.hm 4, 4,48 4,79 5,03 5,35 4,46 4, 4,93 5, 5,39 5,66,83,60,40,47,33,78,,,54,46,97 max.h 10,77,,56,61,05,48,,,38,84,60 min.h 4,06 4,44 4,84 4,86 5, 5, 5,47 5,98 6, 6,62 7, max.pu ( V K R= 40 m/min) 32, 38,70 48,75,41,89,08,55 34, 35,97 40, 50,32 max.pu V K R= 60 m/min) 61, 39,32 44,03 44,41 48,52 53,40 55, 61,97 64,45 71,35 78,56 6666 71 7 7 8631 9442 9762 10634 10956 9 44 3561K5.p65/0405 W 6,3 t - 1x EZDR10-6,3 4/1 FEM 4m m max.r 4742 48 4983 55 58 5959 69 63 6557 67 6934 max.r 5349 54 5588 5759 5780 5583 5771 5893 6 6331 6548 min.r 6 81 47 63 49 32 50 32 3396 min.r 81 33 96 10 64 45 63 40 91 34 Rm = (2 x maxr + minr)v3 3949 40 44 4354 44 4664 4851 4972 54 5409 56 2, 2, 2,46 2,66 2, 3,02 3, 3,38 3,72 3,91 4, min.hm 1,74 1,90 2, 2,41 2,54 2, 2,54 2,73 3,03 3, 3,52 max.hm 5,07 5,41 5,81 6, 6,51 5,53 5,84 6, 6,47 6,76 7,07,,62,42,,,01,87,43,73,45,45 max.h,86,06,47,91,96,44,88,,82,,69 min.h 4,38 4,56 4,95 5,36 5,41 5,57 5,99 6, 6,91 7, 7,76 max.p U ( V K R= 40 m/min) 40,77 45,55,46,76, 31,43 35,98 38,64 46,50 51,31 57,34 max.pu V K R= 60 m/min) 40, 42,77 46,49 50,77 51, 58,74 64,47,44 75,90 79,49 86,40 79 7559 85 8857 8931 55 10 179 401 882 max. R - Max. wheel load without coefficient (deadweight + hoist load) min. R - Min. wheel load without coefficient (deadweight + hoist load), min. HM, max. HM- Drive inertia forces, max. H, min. H - kewing forces with additional 10% max. Pu - Max. uffer force with viration coefficient 1, NPU=1 - Buffer against rigid stop

oads and forces to DIN 0 Wheel loads/inertia forces/skewing forces/uffer forces/crane dead weight forces W 8 t - 1x EZDR10-8 4/1 FEM 3m m 4 5 6 7 8 9 10 max.r 36 74 3889 3983 4066 42 48 43 4449 45 4587 47 4883 4941 5055 55 max.r 4564 4734 4862 4966 5055 55 55 53 5450 55 5589 57 5887 5944 6059 68 min.r 857 799 776 772 781 8 889 900 991 1035 1079 39 81 82 min.r 9 848 792 791 8 886 891 977 10 1057 69 9 48 46 81 Rm = (2 x maxr + minr)v3 3102 36 30 31 39 3 35 36 3692 52 3881 4036 4089 49 4344 0,59 0,65 0,70 0,75 0,81 0,89 1,00 1,03 1, 1, 1, 1,44 1,63 1, 1,81 1,98 min.hm 0, 0, 0, 0, 0, 0,34 0,43 0,49 0,62 0,72 0,83 1,02 1, 1,39 1,60 1,87 max.hm 0,50 0,74 1,00 1, 1,57 1,92 2,33 2,66 3, 3,53 3,94 4,49 5,09 5,53 6,07 6,67,67,92,,41,65,02,52,,,57,87,56,39,66,,03 max.h,,69,02,,53,80,,,60,79,98,35,79,95,,67 min.h 2,42 2, 2, 2, 2, 2, 2,40 2,42 2,66 2,78 2,89 3, 3,60 3,71 3,98 4,36 max.p U ( V K R= 40 m/min) 7,67 8,57 9,33 10,,02,01,94,53,67,03,35,,73,95,51 32,63 max.pu V K R= 60 m/min),69,90,, 31, 35,,74,71,53,02,42 36,61 43,52,77 33, 36, 74 55 35 93 58 33 3444 3867 4092 43 48 54 56 6042 66 W 10 t - 1x EZDR10-10 4/1 FEM 2m m 4 5 6 7 8 9 10 max.r 45 4546 4675 4780 4871 50 5073 57 55 55 5561 56 5838 5997 6057 61 max.r 5561 5760 5907 60 64 64 63 6466 6545 6648 36 69 73 74 7334 7458 min.r 966 886 848 834 835 908 9 990 10 1098 57 8 94 35 78 87 min.r 1073 963 904 874 863 9 9 994 10 1091 45 92 74 51 7 Rm = (2 x maxr + minr)v3 3634 4052 41 41 41 44 44 4549 46 47 4966 5050 56 5506 5573 57 0,59 0,65 0,70 0,75 0,81 0,94 0,97 1,09 1, 1, 1,47 1,55 1,78 1,96 2,02 2, min.hm 0, 0, 0, 0, 0, 0,34 0,39 0,50 0,59 0,70 0,92 1,05 1,34 1,60 1,75 2,00 max.hm 0,52 0,77 1,04 1,33 1,65 2,10 2,44 2,94 3, 3,87 4,58 5,08 5,84 6,53 7,04 7,69,41,66,91,,39,98,,70,02,48,42,76,82,64,91,55 max.h,64,,53,84,10,50,67,01,,51,02,,78,,38,72 min.h 2,77 2,51 2,38 2,31 2, 2,48 2,48 2,69 2,79 2,97 3,40 3,53 4,04 4,42 4,53 4,83 max.p U ( V K R= 40 m/min) 7,67 8,57 9,33 10,,02,90,54,49,72,73,,05,71 32,06 33, 39, max.pu V K R= 60 m/min),69,90,, 31,,42,09,,64,31,57 40,48 52,50 35,73 36,78 39,59 75 55 34 93 33 33 3647 3877 42 4899 50 59 65 67 73 W,5 t - 1x EZDR10 -,5 6/1 FEM 3m m 4 5 6 7 8 9 10 max.r 4634 4957 59 54 56 57 5890 60 65 63 6460 66 6703 78 7059 70 max.r 61 6542 31 7094 73 7465 7644 7 7966 81 88 8433 85 8694 8880 91 min.r 96 61 41 45 5 42 52 94 09 38 72 min.r 31 56 60 75 93 52 10 69 74 94 57 50 Rm = (2 x maxr + minr)v3 42 4936 5000 55 52 53 5450 5564 57 5860 5994 61 60 6455 6671 6957 0,64 0,69 0,75 0,87 0,99 1,04 1, 1, 1,40 1,52 1,64 1,81 1,88 2,06 2, 2,51 min.hm 0, 0, 0, 0, 0, 0,43 0,52 0,63 0,77 0,91 1,07 1, 1,42 1, 1,97 2,35 max.hm 0,36 0,60 0,87 1, 1,67 2,03 2,52 3,02 3,61 4, 4,83 5,55 6,10 6,89 7,70 8,63,03,,56,,67,87,41,87,51,09,64,41,70,54,43,60 max.h,78,57,50,,77,,58,97,42,83,,67,89,,88,51 min.h 5, 4,72 4,06 3,94 3,90 3,76 3,83 3,90 4,09 4, 4,44 4,74 4,81 5, 5,55 6,09 max.p U ( V K R= 40 m/min) 8,04 8,94 9,88,50,53,,,,99,31,82,,42 33,72,,94 max.pu V K R= 60 m/min),09,07,99 33, 42,42,32,71,48 33,70 39, 43,80 32,91 34,,31 42,08 47,38 99 04 33 3460 3851 42 4655 5079 5 6043 60 64 75 81 End carriage: Travel wheel diameter d - Travel wheel tread wheel - Crane runway rail width rail : 0-50; -50; 0-55-70. 3561K5.p65/0405

W 8 t - 1x EZDR10-8 4/1 FEM 3m m max.r 5705 5 5884 5975 60 7031 78 7435 7 7898 84 max.r 6497 6588 6675 6765 6949 6588 63 6988 7032 7444 7 min.r 2 84 62 45 72 62 62 3101 35 73 min.r 62 42 99 86 74 73 34 3676 Rm = (2 x maxr + minr)v3 4735 48 4907 4995 57 54 55 58 5871 65 6548 2,45 2,55 2,65 2,76 2,97 3, 3, 3,74 3,79 4, 4,60 min.hm 1,96 2, 2,33 2,53 2,84 2,53 2,72 3,07 3, 3,67 4,01 max.hm 6,03 6,44 6,84 7, 7,75 6,57 6,90 7,35 7,65 8, 8,54,56,00,41,85,77,94,,77,97,88,10 max.h,55,78,00,,70,85,08,79,89,86,47 min.h 5,01 5, 5,41 5,62 6,07 6,09 6, 6,98 7,08 8,02 8,63 max.p U ( V K R= 40 m/min),38,90,65,47,07 36,41 38,45 46,94 48,35 59,56, max.pu V K R = 60 m/min) 46,35 48,53 50,63 52,64 57, 65,07,09 76, 77, 90, 97, 86 85 8839 94 9904 10877 7 458 6 2 3 W 10 t - 1x EZDR10-10 4/1 FEM 2m m max.r 66 6794 6972 71 73 85 8452 8404 87 9067 9491 max.r 76 7804 7981 80 83 77 79 7878 82 8534 6 min.r 78 41 07 76 89 86 3339 3679 4096 min.r 45 05 69 35 00 97 40 37 3581 3997 Rm = (2 x maxr + minr)v3 5442 6348 6576 6941 70 65 7487 74 7833 87 8847 2,51 2,71 2,92 3, 3,31 3,50 3,74 3, 4,05 4,46 4,96 min.hm 1,99 2, 2,56 2,98 3, 2,74 3,04 3,10 3,51 3,95 4,45 max.hm 6,86 7,44 8,02 8,70 9, 7,69 8, 8,46 9,02 9,58 10,,36,,09,48,76,,10,86,31,89,84 max.h,,59,04,75,91,58,06,95,,48,46 min.h 5, 5,62 6,05 6,73 6,85 6,59 7,04 6,91 7,63 8,41 9,38 max.p U ( V K R= 40 m/min),,72,95 35,89, 40,59 46,96 45, 54,64 62,97 39, max.pu V K R= 60 m/min) 47,62 51,80 55,85 64,34 66,10 71,71 76, 75,06 82,73 94,10 106, 9 81 9044 97 108 049 656 462 2 499 861 540 3561K5.p65/0405 W,5 t - 1x EZDR10 -,5 6/1 FEM 3m m max.r 7692 7801 7990 80 8353 96 97 54 104 10856 6 max.r 99 90 9441 9732 9806 95 99 9573 9944 10367 10735 min.r 04 87 51 70 34 3360 3667 40 4436 4790 min.r 96 56 67 30 35 3571 39 4334 47 Rm = (2 x maxr + minr)v3 64 7345 7579 0 8032 73 8534 5 9442 9998 10479 2,75 2,86 3,07 3,40 3,48 3, 8 3,93 4,31 4,75 5, 5, min.hm 2, 2, 2, 3, 3,33 2,99 3, 3,63 4, 4,64 5, max.hm 7,56 8, 8,82 9,64 10, 8,70 9, 9,85 10,54,,88,53,02,91,33,64,62, 31, 6 33,32 35, 36,97 max.h,43,71,,93,,08,35,,99,99,86 min.h 6,10 6,31 6,72 7,40 7,52 7,54 7,76 8,49 9,33 10,, max.pu ( V K R= 40 m/min),,89 32, 38,60 39,96 48,50 51,62 59,85 36,91 42,03 45,86 max.pu V K R= 60 m/min) 52, 54,41 59,56,36 70,84 77, 79,79 90,56,55 1,81 9, 1 94 9534 108 349 196 1 102 365 8 493 938 max. R - Max. wheel load without coefficient (deadweight + hoist load) min. R - Min. wheel load without coefficient (deadweight + hoist load), min. HM, max. HM- Drive inertia forces, max. H, min. H - kewing forces with additional 10% max. Pu - Max. uffer force with viration coefficient 1, NPU=1 - Buffer against rigid stop

oads and forces to DIN 0 Wheel loads/inertia forces/skewing forces/uffer forces/crane dead weight forces W t - 1x EZDR10-6/1 FEM 2m m 4 5 6 7 8 9 10 max.r 5787 63 6463 6709 69 74 72 7439 7572 7848 8038 80 8439 8556 8670 8889 max.r 77 86 8583 8883 93 9360 9533 97 9878 100 102 10493 10791 109 034 158 min.r 42 43 59 74 35 31 82 09 85 99 46 78 43 92 min.r 93 74 67 85 3 47 4 46 66 81 52 Rm = (2 x maxr + minr)v3 54 54 5 57 5862 6004 6109 60 6353 6601 6770 63 76 78 7339 7546 0, 7 0,76 0,82 0,91 1,01 1, 1, 1,35 1,44 1,71 1,90 1,99 2, 2,41 2,52 2,76 min.hm 0, 0, 0, 0, 0, 0,45 0,53 0,65 0,76 1,01 1, 1, 1,74 1,94 2, 2,53 max.hm 0,39 0,66 0,96 1,34 1,77 2, 2,76 3, 3,95 4,90 5,71 6,40 7,51 8, 9,05 10,09,,39,65,08,55,09,47,09,52,02,86 31, 32,73 33, 33,73 34,83 max.h,53,77,65,40,03,61,05,56,95,94,48,81,62,95,,89 min.h 6,60 5,62 5,00 4, 4,52 4,48 4,42 4,53 4,57 5,08 5,38 5,48 6, 6, 6,46 6,94 max.p U ( V K R= 40 m/min) 8,77 9,76 10,76,96,79,71,34,03,89,,73 32,46 46,46,87,05, max.pu V K R= 60 m/min),52,62,02 34,98,49,64,76 31,44 35,82 47,86 57,44 36, 43, 45, 47,52 52,42 36 33 31 64 4045 4498 48 57 63 6635 7674 8035 8397 91 W 2 x 3,2 t - 2x EZDR5-3,2 4/1 FEM 4m m 4 5 6 7 8 9 10 max.r 32 3448 3648 3803 3931 4041 48 41 4364 4444 4553 4698 4739 4852 5009 5043 max.r 53 3363 3477 3576 3662 3874 3947 4051 41 48 4336 4490 45 min.r 92 7 19 35 1098 1080 1074 03 47 67 08 35 42 min.r 76 15 1039 990 965 955 955 989 10 1060 10 8 35 43 Rm = (2 x maxr + minr)v3 92 78 38 97 37 37 36 3474 3539 3650 38 3841 39 46 43 0,71 0,76 0,81 0,87 0,92 0,98 1,03 1, 1, 1, 1,36 1,51 1,54 1,65 1,82 1,84 min.hm 0, 0, 0, 0, 0, 0,43 0,50 0,60 0,71 0,81 0,95 1, 1, 1,41 1,65 1,77 max.hm 0, 0,51 0,76 1,03 1,32 1,62 1,94 2, 2,69 3,05 3,47 3,94 4, 4,76 5, 5,65,00,,49,73,98,,47,86,,55,00,67,79,31,09, max.h 8, 8,94 9,45 9,85 10, 10,47 10,72,02,32,53,82,,32,62,05, min.h 3,77 3, 3,04 2,88 2,80 2,76 2,75 2,84 2,96 3,02 3, 3,46 3,47 3,69 4,04 4,06 max.p U ( V K R= 40 m/min) 8,72 9,93 10,99,79,02,09,10,67,64,89,88,70,33,,99 31,47 max.pu V K R= 60 m/min),35, 31,02 34,45 38,36,99,63,54, 31, 35,79 41,67 42,82 31,46 34,72 35, 53 33 91 31 3352 35 38 41 43 4649 58 54 5604 69 68 W 2 x 4 t - 2x EZDR5-4 4/1 FEM 3m m 4 5 6 7 8 9 10 max.r 86 4109 4339 45 4661 4784 49 5040 53 59 53 5450 5602 7 5 59 max.r 3360 3640 3842 3998 47 42 4356 4473 4558 4697 4780 4857 5004 5084 51 53 min.r 94 55 10 99 56 62 06 91 10 min.r 83 91 17 08 10 1047 1061 1092 06 47 54 99 85 76 Rm = (2 x maxr + minr)v3 57 35 3571 36 3690 50 3840 3940 4007 43 42 43 4474 4559 4695 4835 0,71 0,76 0,81 0,87 0,92 0,98 1,06 1, 1, 1,34 1,41 1,47 1,63 1,70 1,83 1,95 min.hm 0, 0, 0, 0, 0,36 0,42 0,51 0,61 0,69 0,84 0,95 1,07 1, 1,43 1,63 1,85 max.hm 0, 0,53 0,79 1,08 1,39 1,71 2,09 2,50 2,88 3,38 3,81 4, 4,81 5, 5,83 6,39,,44,,92,,42,79,,48,07,39,69,40,74,,88 max.h 9,82 10,65,,70,07,39,73,07,31,70,94,,57,79,,45 min.h 4, 3,79 3,44 3, 3,10 3,03 3,06 3, 3, 3, 3,45 3,53 3,83 3,95 4, 4,43 max.p U ( V K R= 40 m/min) 8,72 9,93 10,99,79,02,09,53,32,64,,,92,,70 31,07 33, max.pu V K R= 60 m/min),35, 31,02 34,45 38,36,99,34,72, 34,34,57 40,,94 32,42 34,79 36,97 54 34 90 71 31 35 38 40 4459 4690 4910 54 5676 6085 6505 End carriage: Travel wheel diameter d - Travel wheel tread wheel - Crane runway rail width rail : 0-50; -50; 0-55-70. 3561K5.p65/0405

W t - 1x EZDR10-6/1 FEM 2m m max.r 94 9 9950 106 100 1 4 1 1 5 970 max.r 197 184 6 104 0 4 4 1 664 5 388 min.r 45 95 34 3452 3470 3673 80 4055 42 44 4852 min.r 80 38 3471 3484 3576 32 3952 4057 43 4745 Rm = (2 x maxr + minr)v3 78 8093 8333 8591 86 88 8946 95 9356 9632 70 3,07 3,39 3,67 3,97 4,01 4, 4,36 4,70 4,84 5, 5,69 min.hm 2,39 2,80 3, 3,63 3,82 3, 3,55 3,98 4, 4,69 5, max.hm 8,95 9,89 10,79,71,32 10,38 10,98,75,35,,01 33,72 35,09 36,,58,73 35,34 35,90,,78 39,07 41, max.h,65,38,03,71,83,84,,84,,81,85 min.h 7,07 7,71 8, 8,87 8,90 8,50 8,75 9,39 9,64 10,, max.pu ( V K R= 40 m/min) 32, 38,31 44,45 52, 53, 58, 60,65 71,06 75,48 41, 45,91 max.pu ( V K R= 60 m/min) 59,52 67,84 74,53 80,45 81, 87,58 91,57 99, 102,99 3, 9, 108 8 3 364 044 5 656 4 5 W 2 x 3,2 t - 2x EZDR5-3,2 4/1 FEM 4m m max.r 56 5462 5544 5807 5834 61 64 6443 6643 6969 6996 max.r 4954 5038 56 58 5402 5743 6035 6060 68 6581 6606 min.r 96 61 79 51 31 45 33 3348 3364 min.r 75 83 93 56 35 48 35 39 34 Rm = (2 x maxr + minr)v3 4075 4779 4873 52 56 4805 6006 6032 60 67 6743 2, 2,38 2,47 2,77 2,79 3, 3,49 3,51 3,74 4, 4, min.hm 1,83 1,99 2, 2,50 2,63 2,39 2,70 2,82 3,07 3,41 3,55 max.hm 5,10 5,45 5,81 6, 6,61 5,66 6,04 6, 6,64 7,00 7,,85,,59,88,97,61,94,03,93,41,51 max.h,,38,58,,32,82,50,56,02,77,83 min.h 4, 4,85 5,01 5,63 5,65 5,79 6,44 6,47 6,91 7,64 7, max.p U ( V K R= 40 m/min) 50,51,48,76,92, 35,86 42,49 43, 49,65 58,47 58,92 max.pu V K R= 60 m/min) 44,72 46,53 48, 54,46 54,91 64, 73, 73, 78,02 88, 89,03 77 8036 83 9336 9408 10572 1 196 569 847 9 3561K5.p65/0405 W 2 x 4 t - 2x EZDR5-4 4/1 FEM 3m m max.r 67 63 6510 6542 67 6944 79 7448 7582 8003 82 max.r 5675 5842 60 6042 64 6510 6704 7010 71 7557 78 min.r 42 87 36 47 2 89 39 36 3874 min.r 53 97 47 57 98 90 3109 35 67 Rm = (2 x maxr + minr)v3 4595 54 5635 5663 5894 5357 6446 46 70 7563 79 2, 2,48 2,67 2,70 2,90 3, 3,40 3,76 3,91 4,41 4,72 min.hm 1,83 2,08 2,35 2,48 2,77 2,47 2,73 3,09 3,31 3,76 4,09 max.hm 5,71 6, 6,71 7,08 7,59 6,48 6,88 7,35 7,71 8, 8,61,88,,50,60,48,61,47,87,45,,59 max.h,09,52,95,03,50,66,,83,,,73 min.h 4,79 5, 5,55 5,57 5,98 5,95 6,35 7,04 7,31 8, 8,86 max.p U ( V K R= 40 m/min) 50,51,95,38,80,43 36,51 40,55 50,09 53,64 64,73 75, max.pu V K R= 60 m/min) 44,72 48,60 52,54 53,05 57,65 65, 71,66 78,38 81,76 95,06 102,74 76 83 8906 8988 93 10592 338 5 41 9 7 max. R - Max. wheel load without coefficient (deadweight + hoist load) min. R - Min. wheel load without coefficient (deadweight + hoist load), min. HM, max. HM- Drive inertia forces, max. H, min. H - kewing forces with additional 10% max. Pu - Max. uffer force with viration coefficient 1, NPU=1 - Buffer against rigid stop

oads and forces to DIN 0 Wheel loads/inertia forces/skewing forces/uffer forces/crane dead weight forces W 2 x 5 t - 2x EZDR5-5 4/1 FEM 2m m 4 5 6 7 8 9 10 max.r 4553 4934 53 5408 5574 5734 5881 5993 63 60 66 6504 6591 6756 47 6975 max.r 4042 45 46 4792 4939 5084 59 53 5472 5562 1 5803 5884 6044 6 64 min.r 49 34 60 34 32 80 91 43 07 38 54 01 90 min.r 42 98 50 56 10 50 66 89 40 88 78 Rm = (2 x maxr + minr)v3 35 48 48 47 4357 4445 4541 4607 4752 48 4940 50 55 5331 54 5566 0,71 0,76 0,81 0,87 0,92 1,00 1,09 1, 1, 1,34 1,45 1,56 1,63 1,80 1,88 2,01 min.hm 0, 0, 0, 0, 0,35 0,43 0,51 0,59 0,72 0,82 0,95 1, 1, 1,48 1,64 1,87 max.hm 0,31 0,55 0,83 1, 1,45 1,83 2, 2,65 3, 3,63 4, 4,72 5, 5,92 6,47 7,,93,,42,67,91,,67,94,54,83,31,83,,92,,88 max.h,80,78,48,01,44,86,,54,96,,55,90,,57,82, min.h 5, 4,40 3,94 3,66 3,47 3,41 3,43 3,40 3,58 3,61 3,76 3,93 4,02 4,35 4,47 4,72 max.p U ( V K R= 40 m/min) 8,72 9,93 10,99,79,02,48,97,32,97,32,,71,,52 32,04 34,86 max.pu V K R= 60 m/min),35, 31,02 34,45 38,36,62,,72 31,33 34,48 39,04 43,47 31,01 34, 35,72,94 53 34 90 71 3336 36 38 45 4469 48 53 5435 5994 66 6697 W 2 x 6,3 t - 2x EZDR10-6,3 4/1 FEM 4m m 4 5 6 7 8 9 10 max.r 4753 59 5445 5 59 6077 63 6382 65 6661 6 6967 7031 75 7386 7575 max.r 5981 6465 03 7 7341 75 79 7851 8002 89 82 84 8538 87 8901 9093 min.r 34 36 77 33 89 84 02 34 80 36 38 42 64 97 44 min.r 94 04 60 64 90 97 99 51 97 90 86 00 67 Rm = (2 x maxr + minr)v3 49 54 58 5383 5495 5 56 5778 5892 60 61 63 6366 6562 6770 6993 0,83 0,89 0,94 1,06 1, 1, 1,32 1,42 1,52 1,63 1,75 1,91 1,95 2, 2,31 2,51 min.hm 0, 0, 0, 0,36 0,45 0,52 0,61 0,72 0,84 0,98 1, 1,34 1,46 1,72 2,00 2,32 max.hm 0, 0,66 0,99 1,39 1,84 2, 2,77 3,31 3,89 4,50 5, 5,89 6,45 7, 8, 8,99,05,31,58,,59,89,,75,,72,,99,,98,83,75 max.h,74,96,81,58,,66,,54,94,33,71,,,85,35,87 min.h 6,31 5,35 4,77 4,55 4,38 4, 4, 4, 4, 4,39 4,54 4,81 4,80 5, 5,48 5,88 max.p U ( V K R= 40 m/min) 10,48,74,31,61,92,54,52,50,80,,49 33,49 34,59 45,08,39,69 max.pu V K R= 60 m/min),86 34, 40,66,48,83,70 34,95 39,46 43,72 50,80 56,82,09,87 42,59 46, 50, 62 53 34 3649 3986 44 4503 4834 56 5541 59 6463 6597 75 7 8479 End carriage: Travel wheel diameter d - Travel wheel tread wheel - Crane runway rail width rail : 0-50; -50; 0-55-70. 3561K5.p65/0405

W 2 x 5 t - 2x EZDR5-5 4/1 FEM 2m m max.r 76 7403 7579 7767 7803 88 8334 8579 86 93 9574 max.r 67 6994 79 73 76 78 8072 86 8779 9057 min.r 57 69 42 58 44 30 3359 3951 46 min.r 62 75 36 48 58 42 31 36 3843 4107 Rm = (2 x maxr + minr)v3 5397 61 6406 66 6669 64 7383 7696 78 86 8985 2,48 2,57 2,77 2,97 3,00 3,41 3,64 3,93 4,04 4,76 5,09 min.hm 1,97 2, 2,43 2,73 2,88 2,67 2,96 3, 3,50 4, 4,53 max.hm 6,54 7,03 7,62 8, 8,66 7,50 7,99 8,51 8,93 9,64 10,,,62,44,32,44,83,74,83,,06 31,32 max.h,87,,56,03,,34,81,38,62,03, min.h 5,34 5,50 5,88 6, 6,32 6,49 6,93 7,45 7,66 9,03 9,64 max.p U ( V K R= 40 m/min),84,58,80 32,02 32,75 40, 46,91 53,95 56,69 76,35 41,47 max.pu ( V K R = 60 m/min) 48,47 50,55 54,31 59,38 60, 71,81 76, 82,06 85,49 103,75 4,04 83 8572 97 99 06 1 0 89 477 866 954 W 2 x 6,3 t - 2x EZDR10-6,3 4/1 FEM 4m m max.r 8046 86 8431 86 89 9834 107 10602 0 104 max.r 99 9361 96 98 9 90 9570 9902 103 10595 1 min.r 99 42 99 44 36 3534 3839 43 4498 5079 min.r 31 01 40 94 35 34 41 4380 4959 Rm = (2 x maxr + minr)v3 6573 7506 7850 8079 85 7367 8931 9356 9893 109 045 2,86 2,98 3, 3,49 3,56 3,75 4, 4,64 5, 5,45 6, min.hm 2, 2,46 2,87 3, 3,40 2,95 3,47 3,91 4,43 4,85 5,54 max.hm 8,02 8,62 9,46 10, 10,76 9,10 9,90 10,60,33,96,75,,63,94,82 31,, 31, 33,01 34,91 36, 38,97 max.h,02,,00,48,66,08,08,,,79, min.h 6, 6,33 6,94 7,34 7,45 7,10 8,05 8,87 9,79 10,41,78 max.pu ( V K R= 40 m/min),92 33,60 39,31 43,92 45,91 51,55 62,00 74,87 42,63 45,45 51,74 max.pu ( V K R= 60 m/min) 58, 61, 69,66 74, 75,51 79,72 93, 102,46 1,52 7,71 0, 9650 050 6 5 6 2 569 8 7 634 3561K5.p65/0405 max. R - Max. wheel load without coefficient (deadweight + hoist load) min. R - Min. wheel load without coefficient (deadweight + hoist load), min. HM, max. HM- Drive inertia forces, max. H, min. H - kewing forces with additional 10% max. Pu - Max. uffer force with viration coefficient 1, NPU=1 - Buffer against rigid stop

oads and forces to DIN 0 Wheel loads/inertia forces/skewing forces/uffer forces/crane dead weight forces W 2 x 8 t - 2x EZDR10-8 4/1 FEM 3m m 4 5 6 7 8 9 10 max.r 5847 6336 6679 6953 71 7399 7556 7746 7878 82 8367 85 83 8835 90 92 max.r 74 80 84 8748 90 99 9438 9646 9793 90 106 10466 106 10 10996 1 min.r 09 71 38 1 71 1 99 58 67 35 53 min.r 3106 05 86 87 61 02 38 46 69 65 02 81 10 73 Rm = (2 x maxr + minr)v3 51 6390 6454 65 6631 6757 34 6979 7066 7360 7 77 7883 8042 83 85 0,89 0,95 1,01 1,08 1, 1, 1,35 1,48 1,56 1,82 2,01 2, 2, 2,44 2,64 2,87 min.hm 0, 0, 0, 0, 0,44 0,53 0,61 0,73 0,83 1,08 1, 1,49 1,71 1,95 2, 2,63 max.hm 0,40 0,71 1,06 1,47 1,92 2,45 2,96 3,60 4, 5, 6,00 6,79 7,64 8,50 9,48 10,55,01,,53,88,,78,10,69,05,52 31,39 31,99 32,69 33,35 34, 35,35 max.h,,69,73,55,,86,32,86,,,85,,74,,72,34 min.h 7,81 6,58 5,80 5,33 5,04 4,92 4,78 4,83 4,80 5, 5,54 5,71 5,95 6, 6,55 7,01 max.p U ( V K R= 40 m/min),,80,,88,96,48,09,74,53 31,74,74 45,42,,,73 31,00 max.pu V K R= 60 m/min) 31,84 36,88,33,96,90 32,50 36, 41,75 45,90 60,06 38,88 42,72 45,83 48,90 52,97 58, 80 30 3361 36 3893 40 4503 4938 57 6079 6705 70 7649 86 8789 9570 G 1 353 446 539 662 800 986 1 42 79 90 05 57 93 3410 KR / fn ( min. 800) 63 54 1049 833 9 832 870 8 847 8 886 8 891 841 8 838 v v v h Hz, 8,49 6,36 5, 5, 4,58 4,43 4,08 3,96 3,72 3,71 3,44 3,45 3, 3,10 3,01 Hz,,85,,07, 10, 8,63 7,45 6,42 5,65 5,03 4,46 4,01 3,60 3, 2,98 End carriage: Travel wheel diameter d - Travel wheel tread wheel - Crane runway rail width rail : 0-50; -50; 0-55-70. 3561K5.p65/0405

W 8 t - 2x EZDR10-8 4/1 FEM 3m m max.r 9809 96 109 106 033 3 6 540 8 7 max.r 3 182 664 179 3 108 490 442 103 3 4 min.r 01 42 39 3500 06 3960 3889 46 4383 4803 min.r 64 31 3507 3588 3841 66 4003 49 4679 Rm = (2 x maxr + minr)v3 8006 97 97 9546 9940 8982 10536 10458 10791 9 4 3, 3,49 3,56 3,79 4, 4,36 4, 4,61 4,91 5, 5,75 min.hm 2,54 2,87 3,07 3,44 3,95 3,41 3,82 3,90 4,31 4,76 5,38 max.hm 9,45 10, 10,95,83,86 10,88,66,10,87,65,58 34,54 35,49 35,80 36,80 38,32 35,91, 36,90 38,07 39,34 41, max.h,,78,99,54,35,36,03,92,54,, min.h 7, 7,71 7,81 8, 8,97 8,55 9, 8,98 9,53 10,, max.pu ( V K R= 40 m/min) 38,83 43,65 45,73 51,84 59,64 65,58 76, 73,96 40,41 43,60 48,00 max.pu ( V K R= 60 m/min),79 74,00 75,39 80,01 90, 95,52 103,55 101, 7 0,75 1, 8,61 10883 6 0 638 8 535 609 3 2 448 3 G 1 3965 4331 4449 4835 54 5644 69 6058 6556 7091 1 KR / fn ( min. 800) 844 8 834 807 833 898 906 9 9 9 979 v v v h Hz 2,91 2,78 2,74 2,61 2,57 2,51 2,45 2,43 2, 2, 2, Hz 5,42 4,93 4,59 4, 3,87 3,36 3, 3,95 3, 3,44 3, 3561K5.p65/0405 max. R - Max. wheel load without coefficient (deadweight + hoist load) min. R - Min. wheel load without coefficient (deadweight + hoist load), min. HM, max. HM- Drive inertia forces, max. H, min. H - kewing forces with additional 10% max. Pu - Max. uffer force with viration coefficient 1, NPU=1 - Buffer against rigid stop 31

ZKKE - design 1 Crane side 2 ) ) lan 2 500 5) 6) yg 5) X 2) Crane runway girder 2 3560.eps U ) ) lan 1 schi 3) 0 3) 4) kr 1) min 0 - Track gauge dimension Ground dimension Hook path 32 Crane side 1 ka 7) e kt I (ekt) Crane runway girder 1 3561K6.p65/0405

ZKKE with KBK (trailing cale) > >50 H X max.0 max.3 0 Height of the loop for KBK (trailing cale) 1050 mm (from top edge of crane to lower cale loop). = Top edge of crane runway rail 3560.eps The dimensions given in this document were calculated on the asis of certain assumptions. Non-standard dimensions may result in individual cases. The exact dimensions are calculated y computer when an order is placed. General information - Technical data for other hoisting classes, loading groups and groups of mechanisms on request. - The dimensions given are rated dimensions. Corresponding tolerances must e considered. They may result in non-standard dimensions. - Overall dimensions and weights refer to the asic cra design. Non-standard dimensions must e checked y static calculation - Higher hook paths increase lan1 and lan2. The approach dimensions refer to the highest hook position. - Min. wheel ase mm (smaller wheel ase on request). - For raised cranes, the impact on the end carriages and the approach dimensions must e checked. 3561K6.p65/0405 1) Check mounting possiilities ( min = min. lateral crane clearance dimension). 2) Crane power supply line on crane runway girder. 3) Dimenstion > 0 or modification of lan1 and lan2. 4) Permissile track gauge dimension tolerance of crane runway: for kr m: ± 5 mm for kr > m: ± (5 + 0, (kr )) mm according to DIN 42, with kr in [m]. 5) According to UVV BGV D6 (VBG 9) a minimum safety distance of 500 mm must e maintained etween the moile and stationary crane parts. An exception to this is the ottom lock suspended from the rope. 6) When an operating limit switch is fitted, hook dimension C or g are increased: 2/1 reeving: + 50 mm 4/1 reeving: + mm 7) ka may have to e changed for larger drum lengths. 33

Notizen 34 3561K6.p65/0405

Notizen 3561K6.p65/0405 35

Demag Cranes & Components GmH Krane Postfach 67 D-586 Wetter Telefon (035) 92-79 Telefax (035) 93 39 E-Mail standardcranes@demagcranes.com www.demagcranes.de Reproduction in whole or in part only with prior consent of Demag Cranes & Components GmH, D-586 Wetter Not liale for errors or omissions. uject to change. Printed in Germany DZE/090605/1T