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Series RBRQ200x

Balancing Machine for Drive Shafts

  • Automatic measuring sequence
  • Simulation of operational conditions through high speed measurement in hard-bearing support pedestals
  • Unbalance correction by welding or drilling
  • New microprocessor-controlled measuring unit
  • Proven protective enclosure for drive shaft failure and noise protection

Design

Machine design is ideally suited for balancing vehicle drive shafts. Arrangement of the machine components takes ergonomic requirements into consideration. Vertical arrangement of the correction units.
Extremely flat machine base, specially designed for high speed measurement. Isotropically supported bearing pedestals with heavy duty, precision spindles. Variable speed AC main spindle motors are standard equipment.

 

Design

Range of application

Measurement and correction of unbalance in single and multi-piece drive shafts of passenger vehicles, light and heavy duty commercial vehicles.
Balancing and correction capacity for manufacturing, testing and inspection at vehicle manufacturers and component suppliers plants.
High speed measurement of unbalance close to or at operating speed.
Unbalance correction through spot or projection welding using medium frequency techniques, of preformed correction weights.
Technical data
Technical data at a glance    Type RBRQ200x 
Measuring unit    CAB 950 
Semi automatic function sequence    • 
Semi automatic welding system    • 
Power clamping device    • 
Drive shafts     
Flange diameter, max.  [mm]  225 
Tube diameter  [mm]  40 - 140 
Length  [mm]  400 - 3000 (4000) 
Machine     
Width A 4)  [mm]  6100 
Depth B 4)  [mm]  2600 
Height C 4)  [mm]  1550 
Length of machine bed  [mm]  5000 
Spindle speed, infinitely variable 1)  [min -1]  2000 - 6000 
Load carrying capacity 2)  [kg]  4 - 40 
Measuring uncertainty 3)  [gmm]  5 - 10 
Cycle time 5)  [s]  80 - 110 
Production volume  [pc/h]  30 - 40 
Air pressure  [bar]  5,5 
Air consumption, approx.  [m3/h]  6,5 
Power consumption  [kVA]  125 
     
     
1) Depending on spindle load and adaptor (see diagramm X217)     
2) Per bearing pedestal, including adapter     
3) According to DIN 1319, 95% probability, with master shaft and excluding re-clamping error     
4) Data non-binding, depending on respective equipment     
5) Depending on initial unbalance and operator skill     
o.r. On request     

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