{"id":2015,"date":"2026-01-19T03:23:02","date_gmt":"2026-01-19T03:23:02","guid":{"rendered":"https:\/\/tractorptoshaft.net\/?p=2015"},"modified":"2026-01-20T05:47:59","modified_gmt":"2026-01-20T05:47:59","slug":"drive-shafts-for-rtg-gantry-travel-steering","status":"publish","type":"post","link":"https:\/\/tractorptoshaft.net\/es_pe\/application\/drive-shafts-for-rtg-gantry-travel-steering\/","title":{"rendered":"Ejes de transmisi\u00f3n para desplazamiento y direcci\u00f3n de p\u00f3rtico RTG"},"content":{"rendered":"
Engineered for the 90\u00b0 Turning Challenge. Compensating for tire deflection and bogie tilt in the demanding container yards of the Netherlands.<\/p>\n
Solicitar propuesta t\u00e9cnica<\/span><\/a><\/p>\n<\/div>\n<\/div>\n The Rubber Tyred Gantry (RTG) crane is the workhorse of flexible container stacking, bridging the gap between quayside operations and landside logistics. In high-density terminals like those found in the Puerto de R\u00f3terdam<\/strong> or the multimodal hubs of Venlo<\/strong>, the RTG’s ability to change lanes\u2014performing a 90-degree wheel turn to move from one stack block to another\u2014is its defining operational advantage. However, this mobility imposes severe kinematic stress on the drivetrain.<\/p>\n Unlike Rail Mounted Gantry (RMG) cranes which travel on a predictable, level steel track, the RTG operates on rubber tires over pavement that is rarely perfectly flat. The typical 8-wheel or 16-wheel bogie system must articulate to follow the ground contour. This creates a complex dynamic for the gantry travel transmission. The drive shaft connects the electric motor (usually mounted on the bogie frame to rotate with the wheel during steering) to the wheel hub planetary gearbox.<\/p>\n The critical challenge here is Suspension Compensation<\/strong>. When an RTG picks up a 45-ton container, the large pneumatic tires compress significantly. This vertical deflection alters the distance between the motor output and the gearbox input. A rigid connection would destroy the bearings instantly. Ever-Power\u2019s “Series-RTG” shafts are engineered as short-coupled, high-slip universal joints capable of telescoping under full torque load, ensuring smooth power delivery even as the crane “bounces” over uneven expansion joints or drainage channels in the stacking yard.<\/p>\n<\/section>\n During the 90-degree steering maneuver, the bogie assembly rotates. While the motor rotates with it, uneven ground can cause the bogie to “dip” or pitch. Our shafts feature high-articulation yokes capable of 25\u00b0 operating angles<\/strong>, ensuring that power transmission remains constant even if the bogie is traversing a gradient or pothole during the turn.<\/p>\n<\/div>\n Space is tight in an RTG wheel bogie. The drive shaft is often very short (under 400mm). Short shafts operating at angles generate significant internal heat in the cross bearings. We utilize a specialized high-temp Lithium Complex grease and wider needle roller bearings to dissipate this heat, preventing the “cooking” of seals common in inferior products.<\/p>\n<\/div>\n Pneumatic tires act as springs. Under load, they compress; when the load is released, they rebound. This constant cycle requires a drive shaft with a Low Friction Rilsan-Coated Spline<\/strong>. This ensures the shaft can telescope in and out effortlessly (low axial thrust) without transmitting damaging axial loads to the motor or gearbox bearings.<\/p>\n<\/div>\n<\/div>\n The table below outlines our standard configurations for 8-wheel and 16-wheel RTG bogie drives. Custom lengths for specific OEM retrofits (e.g., Kalmar, Konecranes, Mitsui) are available.<\/p>\n
<\/p>\nMobility is Productivity: The RTG Drivetrain<\/h2>\n
Steering & Bogie Tilt Adaptation<\/h3>\n
Short-Coupled Heat Management<\/h3>\n
Tire Deflection Compensation<\/h3>\n
<\/p>\nTechnical Specifications: Series RTG-Mobility<\/h2>\n