191.50.6300.990.41.1502

Inner diameter:
6035 mm
Outer diameter:
6715.2 mm
Width:
268 mm
Mass:
10536 kg

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191.50.6300.990.41.1502

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Brand : QIBR
Rolling element type : Roller
Measurement system : Metric
Weight : 10536 kg
Outer diameter (Da) : 6715.2 mm
Inner diameter (Di) : 6035 mm
Overall height (H) : 268 mm
External bolt circle diameter (La) : 6500 mm
Internal bolt circle diameter (Li) : 6125 mm
Number of bolt holes per circle (n) : 100
Bolt hole diameter (B) : 45 mm
Bolt size : 42 mm
Number of grease nipples : 18
Diameter (O) : 6360 mm
Diameter (U) : 6346 mm
Ring height (H1) : 203 mm
Ring height (H2) : 258 mm
Distance at bottom outer ring/inner ring (Hu) : 10 mm
Distance at top outer ring/inner ring (Ho) : 65 mm
Gear P.C.D. : 6624 mm
Module : 24 mm
Number of teeth (z) : 276
Addendum modification (x*m) : +24 mm
Addendum reduction (k.m) : -2.4 mm
Tooth width (b) : 203 mm
Permissible tangential forces normal : 423.6 KN
Permissible tangential forces MAX : 847.2 KN
Gear type : External Gear
Temperature : -20℃ to +120℃
Seal type : Closed Type
Weight, Outer diameter (Da), Inner diameter (Di), Overall height (H), External bolt circle diameter (La), Internal bolt circle diameter (Li), Number of bolt holes per circle (n), Bolt hole diameter (B), Bolt size, Number of grease nipples , Diameter (O), Diameter (U), Ring height (H1), Ring height (H2), Distance at bottom outer ring/inner ring (Hu), Distance at top outer ring/inner ring (Ho), Gear P.C.D., Module , Number of teeth (z), Addendum modification (x*m), Addendum reduction (k.m), Tooth width (b), Permissible tangential forces normal, Permissible tangential forces MAX, Gear type,

QIBR - 191.50.6300.990.41.1502 Slewing Bearing Advantages and Applications

191.50.6300.990.41.1502 Slewing Bearing, strong load capacity, smooth operation, Inner diameter (Di) is 6035 mm,Outer diameter (Da) is 6715.2 mm,Overall height (H) is 268 mm,Weight is 10536 kg, suitable for high-speed rail, aircraft, offshore drilling platforms, tower cranes and aerial work vehicles, etc., is the most widely used bearing in working conditions requiring high precision.

Weight, Outer diameter (Da), Inner diameter (Di), Overall height (H), External bolt circle diameter (La), Internal bolt circle diameter (Li), Number of bolt holes per circle (n), Bolt hole diameter (B), Bolt size, Number of grease nipples , Diameter (O), Diameter (U), Ring height (H1), Ring height (H2), Distance at bottom outer ring/inner ring (Hu), Distance at top outer ring/inner ring (Ho), Gear P.C.D., Module , Number of teeth (z), Addendum modification (x*m), Addendum reduction (k.m), Tooth width (b), Permissible tangential forces normal, Permissible tangential forces MAX, Gear type,

QIBR - 191.50.6300.990.41.1502 Slewing Bearing Characteristics

191.50.6300.990.41.1502 Slewing Bearing, low maintenance cost, easy maintenance and installation. 191.50.6300.990.41.1502 Slewing Bearing, can bear radial load, axial load and overturning moment at the same time, suitable for mechanical equipment with high load-bearing capacity requirements.

191.50.6300.990.41.1502 Slewing Bearing Features and Advantages

Compact design: Compact structure, it can be installed in space-constrained environments, and has a wider range of applications.

High load capacity: It can withstand axial, radial and overturning moments at the same time, suitable for heavy-duty applications.

Superior precision: Maintain high precision during use and reduce errors in equipment operation.

High temperature and wear resistance: Made of high-temperature bearing steel, with good wear resistance and strength.

Application: Widely used in lifting machinery, engineering machinery, transportation machinery, mining machinery, metallurgical machinery, medical equipment, ships, warships, radar, wind power generation and other fields.

QIBR - 191.50.6300.990.41.1502 Slewing Bearing Optimization

Grease replacement: Replace grease with other greases such as SFK, Mobil, Krupp, etc. to optimize the working performance and use conditions of the bearing.

Coating optimization: Provide other coatings such as zinc plating or nickel plating to enhance corrosion resistance and wear resistance and extend its service life in harsh environments.

Process optimization: Optimize the bearing production process, increase the bearing operating temperature range, and improve the bearing accuracy and stability.

More customization: QIBR can optimize the bearing structure design according to customers’ drawings or equipment requirements to meet equipment needs.

QIBR - 191.50.6300.990.41.1502 Slewing support bearing quality control

Dimension measurement: Use a variety of professional high-precision instruments to measure multiple dimensions of the bearing, with the highest accuracy up to 0.01mm.

Rotation accuracy: Use a dial indicator to measure small flaws or deviations on the bearing surface, with a measurement accuracy of up to 0.01mm.

Hardness measurement: Use a Leeb hardness tester to measure the bearing surface hardness, with a measurement accuracy of ±6HLD.

Metallographic analysis: Use a professional metallographic microscope to analyze the internal metallographic structure of the metal.

Geometric tolerance: Use a roundness meter to measure the bearing geometry and relative position.

Noise monitoring: Use a vibration meter to monitor the vibration during operation and obtain noise data.

191.50.6300.990.41.1502
The outer ring has excellent mechanical performance, with high strength and toughness. After quenching and tempering (Q+T), it exhibits fatigue resistance, impact resistance, and excellent low-temperature impact toughness.
The inner ring has excellent mechanical performance, with high strength and toughness. After quenching and tempering (Q+T), it exhibits fatigue resistance, impact resistance, and excellent low-temperature impact toughness.
Rollers and balls are both types of rolling elements, which are the most crucial components of rotary support bearings and the most commonly used rolling elements in the bearing industry.
It is located between the outer raceway, inner raceway, and rollers/balls of the bearing. It is a isolator block that serves as a cage.
Its role serves two purposes: Firstly, to prevent the loss of lubricating grease or oil inside the bearing, ensuring proper lubrication. Secondly, to shield the bearing from external dust or harmful gases, thus preventing damage.
To ensure the smooth operation of the bearing, it is necessary to inject lubricating grease or oil between the inner and outer rings of the bearing. The function of lubricating grease or oil is to reduce friction coefficient and wear, minimize bearing heat and friction losses, and enhance bearing lifespan.
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