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UELT209-112D1

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NTN UELT209-112D1 mounted take-up unit with 1-3/4 in bore, eccentric collar locking, and cast iron housing. Designed for conveyor and tensioning applications requiring adjustable shaft support. Pre-lubricated insert for general industrial use.

MODEL UELT209-112D1

BRAND

SKU

268939

WEIGHT

5.500 lb

UOM

each

$165.17 Each

Prices are subject to change

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Typically Ships in: 1 day

Returnable:No

A (in)

1.9375

A1

0.6299 in

A2

1.3750 in

B1

2.2165 in

Bearing Number

UEL209-112D1

Bearing number

UEL209-112D1

Bearing Type

Ball Bearing

d (in)

1.7500

Dynamic Load Rating

7300 lbf

Dynamic load rating

7300 lbf

F (in)

0.1929

H (in)

4.5937

H1

4.0156 in

H2

3.2812 in

Housing Material

Cast Iron

Housing material

Cast iron

Housing Number

T209D1

L (in)

5.7187

L1

3.4687 in

L2

0.7187 in

L3

3.2812 in

Locking Device

Eccentric Locking Collar

Locking device

Eccentric locking collar

Lubrication

Relubricatable

Max Rotational Speed

3500 RPM

N (in)

1.1562

N1

0.7500 in

N2

1.9375 in

Operating Temperature Range

-40 to 250 °F

Operating temperature range

-40 to 250 ºF

Performance

Light Duty

r (in)

2.2500

S

0.8425 in

Seal Material

Nitrile Rubber

Seal material

Nitrile rubber

Seal Type

Contact

Seal type

Contact

Static Load Rating

4600 lbf

Static load rating

4600 lbf

Type

Take-Up Unit

Take-Up Bearing Units The NTN UELT209-112D1 Take-Up Unit is a robust and highly efficient bearing solution designed for various industrial applications. Engineered by NTN, a leading name in bearing technology since 1918, this take-up unit features a cast housing and an eccentric locking collar for secure and reliable performance in demanding environments.
Key Features
Material ConstructionDurable cast iron housing ensures superior strength and resistance to wear, making it suitable for heavy-duty applications.
Eccentric Locking CollarProvides a secure fit and easy adjustment, allowing for precise alignment and reduced maintenance needs.
Design TypeUELT type design allows for versatility in installation and operation, accommodating a range of shaft sizes and configurations.
Load CapacityEngineered to handle significant radial loads, enhancing operational efficiency and longevity.
Sealing MechanismIntegrated seals protect against contaminants, ensuring optimal performance and reducing downtime.
Applications
Industrial MachineryIdeal for use in conveyor systems, production lines, and various manufacturing equipment where reliable motion is critical.
Agricultural EquipmentPerfect for applications requiring robust and dependable bearings in challenging environments.
Material HandlingWorks effectively in systems that involve heavy loads and require precise positioning.
Benefits
Enhanced DurabilityThe robust construction minimizes maintenance frequency and extends the lifespan of the unit, leading to lower operational costs.
Improved PerformanceThe eccentric locking collar allows for easy adjustment, ensuring optimal shaft alignment and reducing vibration.
Versatile UseSuitable for various applications across industries, making it a flexible choice for engineers and maintenance personnel.

How do I choose the right type of bearing for my application?

Start with the load and how it’s applied. You need to know if you’re dealing with radial loads, axial loads, or a mix of both. Then look at speed, operating environment, and space constraints. For example, ball bearings are great for high speed and lighter loads, while roller bearings handle heavier loads but usually at lower speeds. If there’s contamination, moisture, or heat involved, you may need sealed bearings or specific materials. In most cases, the right choice comes down to matching load type, speed, and environment to the bearing design.

What is a bearing and what does it do?

A bearing is a mechanical component that enables smooth rotational or linear motion by reducing friction between moving parts. Bearings support loads and facilitate the transfer of forces between moving elements, preventing direct metal-to-metal contact that would cause wear and heat buildup. Rolling element bearings contain balls or rollers that rotate within races (raceways) to minimize friction. Common types include ball bearings (used for moderate loads and high speeds), roller bearings (used for heavy loads at medium speeds), and angular contact bearings (designed for combined radial and axial loads). Bearings are essential in industrial equipment including motors, pumps, compressors, gearboxes, turbines, and conveyor systems.

How do I choose the right bearing for my application?

Bearing selection depends on five key factors: 1. Load Type and Direction — Determine whether your application has radial loads (perpendicular to shaft), axial loads (along the shaft), or combined loads. Deep groove ball bearings suit primarily radial loads; tapered roller bearings excel at combined loads; thrust bearings handle pure axial forces. 2. Rotational Speed — Ball bearings support higher speeds with lower friction. Roller bearings are better for medium-speed, heavy-load applications. Verify bearing speed ratings against your operating RPM. 3. Load Capacity — Select a bearing with adequate load capacity for your application. Basic dynamic load rating (C) and basic static load rating (C₀) determine how much load the bearing can safely carry. 4. Lubrication Requirements — Choose between grease and oil lubrication based on speed, temperature, and load. High-speed or high-temperature applications typically require oil circulation; lower-speed applications can use grease. 5. Precision and Rigidity — Evaluate your application's tolerance for runout deviation. High-precision applications require tighter tolerances and higher-grade bearings.

What bearing materials are available and which should I use?

Standard bearing materials include: - Chrome Steel — Premium bearing steel used by SKF, NSK, Timken, and most manufacturers. Offers excellent hardness, fatigue resistance, and durability in standard industrial applications. Most common for ball and roller bearings. - Stainless Steel — Provides corrosion resistance for applications in wet, humid, or chemically corrosive environments. Used in food processing, marine, and pharmaceutical equipment. - Ceramic Hybrid Bearings — Combine steel races with ceramic rolling elements. Offer reduced friction, lower heat generation, and higher temperature capability. Used in high-speed, high-precision applications and aerospace. - Polymeric Bearings — Utilize fluoropolymer composites with embedded graphite or PTFE. Provide low friction in high-speed applications where lubrication film breakdown would be problematic. Material selection depends on operating environment (temperature, moisture, chemical exposure), speed, load, and precision requirements. Standard chrome steel bearings suit most industrial MRO applications.

What are dynamic and static load ratings, and why do they matter?

Static Load Rating (C₀) — The maximum load a stationary or slowly rotating bearing can support without permanent deformation of its rolling elements or raceways. Defined by ISO 76 as the load producing 0.01% permanent deformation of the rolling element diameter. Static load capacity is the limiting factor when a bearing operates at very low speeds or remains stationary under heavy loads. Dynamic Load Rating (C) — The constant load a bearing can endure for a specified number of revolutions (the L10 life, at which 90% of identical bearings are expected to survive). Dynamic load rating determines how long a bearing will last under rotating or oscillating motion. ISO 281 defines the L10 calculation using the formula: L10 = (C/P)^p, where C is dynamic load rating, P is equivalent dynamic load, and p is the life exponent (3 for ball bearings, 10/3 for roller bearings). Why They Matter — Static load rating determines if a bearing can handle peak loads without permanent damage (even if not rotating). Dynamic load rating determines operational life. For high-speed applications, dynamic rating is critical. For low-speed or stationary loads, static rating may be the limiting factor. Always verify both ratings against your application's load profile.

What is bearing life (L10) and how does it affect my equipment maintenance?

L10 Life Definition (ISO 281) — L10 is the basic rating life at which 90% of a large group of identical bearings are statistically expected to survive under constant load and speed. It is calculated in millions of revolutions using the formula: L10 = (C/P)^p, where C is the basic dynamic load rating, P is the equivalent dynamic bearing load, and p is the life exponent (3 for ball bearings). Converting L10 to Operating Hours — To express L10 life in hours: L10h = (L10 × 10^6) / (60 × n), where n is rotational speed in RPM. For example, a bearing with L10 = 1,000 million revolutions operating at 3,600 RPM has approximately L10h ≈ 4,630 hours. Modified Life (L10a) — Actual bearing life also depends on lubrication quality, contamination, speed, temperature, and bearing accuracy. ISO 281 defines a modified life factor (a₁ × aISO) that adjusts the theoretical L10 for these real-world conditions. High-quality lubrication and proper maintenance can extend bearing life significantly; poor lubrication or high contamination reduces it. Why It Matters for Maintenance — L10 life helps you schedule preventive maintenance, budget for bearing replacement, and select bearings adequate for your duty cycle.

How should I maintain and lubricate bearings?

Lubrication Importance — Improper lubrication causes over 40% of bearing failures. Proper bearing lubrication prevents friction damage, dissipates heat, protects against corrosion, and acts as a barrier against contaminants (dust, moisture, debris). Lubrication Selection — Choose between grease and oil based on: - Grease: Suitable for low-to-medium speed, sealed bearings, and applications without continuous circulation. Easier to apply and retain. Common for motors, household appliances, and sealed units. - Oil Mist or Circulating Systems: Better for high-speed applications, high-temperature environments, and heavy-load machinery where heat dissipation is critical. Best Practices: 1. Map all lubrication points and create a maintenance schedule. 2. Use the correct lubricant type and viscosity grade specified by the bearing manufacturer. 3. Store lubricants in sealed, labeled containers away from moisture and contaminants. 4. Monitor bearing temperature and vibration; unusual heat or noise may indicate inadequate lubrication or bearing wear. 5. Replace bearings before reaching L10 life if contamination or lubrication failure is detected.

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