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| ANB |
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| Novibra® type ANB |
The shockbuffer type ANB is used to effectively limit movement of equipment or machine components. |
| Typical fi eld applications would be: |
| • Wagons |
• Cabinets |
| • Traversing cranes |
• Forestry vehicles |
| • Lifting cranes |
• Working beams |
| • Off-road material handling equipment |
• Falling goods |
| • Container handling equipment |
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Through the low resilience of the rubber a high degree of energy absorption is achieved. The rubber is stiffer under dynamic conditions compared to static or pseudo static loading; hence more energy is absorbed for a given deformation. Diagram 4 shows the effect of the energy factor. |
| Features |
Buffer type ANB consists of a cylindrical rubber body bonded to a square baseplate of steel. Each corner of the baseplate has a fi xing hole. |
Special high-hysteresis rubber compound is used to ensure as much energy absorption as possible. The volume of the rubber is used at optimum effi ciency. |
For new machine developments simpler designs and lighter calculated forces can be considered enabling a lower cost. |
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| Fig. 1. Traverse crane with shock buffer ANB. |
Fig. 2. Traverse crane with 2 ANB buffers connected in series. |
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Type |
Art.No. |
Dimensions in mm |
Weight (kg) |
F-Max (N) |
K |
A |
D |
d |
H |
t |
ANB 50 |
2255290 |
70 |
50 |
50 |
7 |
43 |
3 |
0.2 |
8000 |
ANB 75 |
2255300 |
100 |
75 |
75 |
9 |
63 |
3 |
0.5 |
20000 |
ANB 100 |
2255310 |
130 |
100 |
100 |
11 |
84 |
4 |
1.2 |
41000 |
ANB 150 |
68569 |
185 |
150 |
150 |
13.5 |
126 |
6 |
3.9 |
90000 |
ANB 200 |
68577 |
240 |
200 |
200 |
13.5 |
168 |
8 |
9.1 |
180000 |
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