De ultieme gids voor lagers

Bearing by Kilomega are used in thousands of machines and systems to provide minimum friction so that moving components with each other easily and without much force. It is evident in heavy industrial machinery as well as in small precision instruments used everyday; spanrollen met lagers always have pivotal importance. This guide will discuss the various categories of bearings, the use of each, as well as some general information on how best to keep the bearings in good shape so that they last as long as possible.

1. Common Types of Bearings

1.1 kogellagers

Plain bearings by Kilomega can be easily replaced by ball known bearings to be commonly used Transportband bearings. They employ balls as the rolling elements reducing sliding contact and sustaining both radial and thrust loads.

- Applications: Compression fan, electric motor and auto wheel. The compression fan is the component that fitted with the electric motor and auto wheel to make the cooling system efficiently.

- Advantages: For decades now, low friction typically has been linked with high speed and flexibility.

1.2 Roller Bearings

Sustenance of heavy radial load is possible by using cylindrical, tapered and roller in place of balls used in roller bearing by Kilomega.

- Applications: Conveyor belts, industrial products, gear box steengroeve brekers

- Advantages: Can move large quantities at once, does not easily rip under pressure

1.3 Thrust Bearings

Thrust bearings are specifically characterized by bearing the axial loads. And they are regularly used in applications that have large thrust forces.

- Applications: Car clutches, turbines, rotary tables

- Advantages: Specifically designed for axial loads, low space requirements

1.4 Plain Bearings

Plain bearings are those bearings that work with the help of sliding contact instead of rolling elements.

2. Key Applications of Bearings

Bearings Are Integral to Various Industries and Applications, Including:

- Automotive Industry: Axels, wheels, premiere, motor, gear box

- Industrial Machinery: Transmission equipment, pumps, compressors

- Aerospace: Engines, like the jet engines the aircraft possess, landing gears and the controlling layouts.

- Home Appliances: Such items as refrigerator, washing machines, fans, vacuum cleaners.

- Renewable Energy: for generating electricity and tracking of solar power generations respectively.

3. Choosing the Right Bearing

3.1 Laadvermogen

There are three types of load; radial, axial, or combined, and each should be evaluated for the bearing’s capacity.

3.2 Speed Requirements

In High Speed, Low Friction and High Accuracy Bearings Are Used Like Ball Bearings

3.3 Bedrijfsomgeving

Temperature control, moisture levels and contamination levels of the environment affect the selection of material to be used and the sealing systems.

4. Preventive Measures on How to Increase The Life Span of The Bearings

4.1 Regelmatige smering

They eliminate surface friction, minimize wear and tear, and prevent formation of corrosive substance. All lubricants should be purchased from the manufacturer for the equipment.

4.2 Alignment Checks

Misaligned bearings will cause certain parts to wear much faster than others and can fail very rapidly. It need to be aligned again during the operation, it should be checked often.

4.3 Overbelasting vermijden

Excessive loads are likely to influence structures to deform or even to fail to bear the intended loads as required. Just make sure that the bearing which you select is compatible with the application that has been envisaged for it.

4.4 Routinematige inspecties

Take bearings through periodic examination for any sign of wear, noise or overheating as a way of sorting out problems before they worsen.