SL130 SL Type Oldham Coupling – 45–50mm Bore Radial Misalignment Compensating Drive Coupling

The SL130 SL Type Oldham coupling connects coaxial drive shaft lines with large radial displacement compensation. 130mm OD, rated 800 N·m at 250 rpm. Radial compensation 1.8mm, axial 1.8mm, angular 0.5°. Bore range 45–50mm. Mass 10kg.

Description

SL130 SL Type Oldham Coupling – 45–50mm Bore 130mm OD Radial Misalignment Compensating Drive Shaft Coupling

The SL130 SL Type Oldham coupling is a three-component sliding-block coupling designed for connecting two coaxial drive shaft lines where significant radial displacement between shaft centrelines must be accommodated without transmitting radial load to the connected equipment bearings. With a nominal torque rating of 800 N·m at 250 rpm maximum speed, 130 mm outer diameter, and a bore range of 45–50 mm, the SL130 serves drive connections in the full range of industrial machinery — from medium-duty pump and fan drives to large-scale industrial processing equipment. The radial displacement compensation of 1.8 mm, angular compensation of 0.5°, and axial accommodation of 1.8 mm make the SL Type one of the most flexible misalignment-compensating couplings available at this torque level.

The SL Type coupling operates through a three-piece sliding-block mechanism: two identical cast iron flanged hubs, each mounted on one shaft, and a central polymer (or metal) slider block that engages with both hubs simultaneously through tongue-and-groove interfaces positioned at 90° to each other. Torque is transmitted from the driving hub through the tongue-groove contact to the slider block, and from the slider block to the driven hub through the second pair of tongue-groove faces. Radial misalignment between the shaft centrelines is absorbed by sliding movement of the block within the hub grooves — the block translates in the plane perpendicular to the shaft axis as the coupling rotates, compensating for the offset continuously during operation. This mechanism produces a uniform angular velocity transmission — unlike some other misalignment-compensating coupling types that introduce cyclic velocity variation.

The slider block is a replaceable wear element. At planned maintenance intervals, the block can be inspected for wear and replaced without removing either hub from its shaft, minimising maintenance downtime. Full series documentation and application guidance are available on our product catalog page.

Technical Specifications

Parameter Value
Model SL130
Type SL Type Oldham (Sliding-Block) Coupling
Bore Range (d) 45–50 mm
Outer Diameter (D) 130 mm
Inner Diameter (D₁) 80 mm
Overall Length (L) 90 mm
Hub Width (H) 19 mm
Slider Width (S) 0.5 mm
Nominal Torque (Tn) 800 N·m
Maximum Speed [n] 250 rpm
Radial Compensation (Δy) 1.8 mm
Angular Compensation (Δa) 0.5°
Axial Compensation (Δx) 1.8 mm
Rotational Inertia 0.07 kg·m²
Mass 10 kg

Dimension Reference

SL130 SL type Oldham coupling specification dimension drawing bore 45–50mm OD 130mm

Coupling Assembly and Slider Block

SL130 SL Oldham coupling assembly slider block hub detail

The SL130 slider block engages the two hub faces through precision-machined tongue-and-groove features. The tongue dimensions and groove clearances are controlled to minimise backlash while providing the sliding freedom needed for misalignment compensation. The standard slider block material is an engineering polymer selected for low friction, adequate compressive strength at the operating torque, and dimensional stability across the rated temperature range of -20°C to +70°C. For higher-load or elevated-temperature applications, a metal slider block is available.

Large Radial Compensation

1.8 mm radial offset compensation eliminates the need for precision motor-to-driven equipment alignment on most plant installations, significantly reducing commissioning time and equipment cost.

Constant Velocity Transmission

The Oldham mechanism maintains constant angular velocity ratio between input and output shafts at all rotational positions — unlike universal joint couplings which produce cyclic velocity variation proportional to operating angle.

Replaceable Wear Element

The slider block is the only wear element in the coupling. It can be inspected and replaced without removing either hub from its shaft, minimising maintenance downtime and hub replacement cost.

No Radial Force Transmission

The sliding mechanism absorbs shaft offset without transmitting significant radial forces to the connected shaft bearings — protecting motor bearings and driven equipment bearings from misalignment-induced overload.

Manufacturing and Quality

Ever Power Oldham coupling manufacturing facility

Typical Applications

  • Large ball mill and grinding mill drive connections — highest-torque motor coupling with maximum radial compensation
  • Primary crusher and conveyor drive connections — variable load, high-shock mining industry applications
  • Offshore platform drive connections — structural movement compensation in marine environments
  • Large agitator drive connections — high-torque motor shaft coupling for dense slurry mixing equipment

For enquiries about large volume supply or custom bore configurations, visit our contact page.

Customer Reviews and Case Studies

★★★★★

Netherlands — Dairy Processing Equipment

We use the SL130 in dairy pump drive connections where the coupling must compensate for motor mounting offset without transmitting radial forces to the pump bearing. In a wet washdown environment, the coupling’s simple design simplifies maintenance.

— Equipment Engineer, Rotterdam

★★★★★

Poland — Paper Converting Machinery

Installed on web paper drive connections. The SL130 accommodates the radial misalignment between motor and driven roll without the need for precision-aligned mounting frames.

— Mechanical Engineer, Warsaw

★★★★☆

Mexico — Bottling Line Equipment

Used on bottle conveyor drive shaft connections. The Oldham coupling allows minor shaft offset from modular line assembly tolerances.

— Plant Engineer, Monterrey

Frequently Asked Questions

What is the rotational inertia of the SL Type coupling?

Rotational inertia values are specified in the technical table for each model, ranging from 0.002 kg·m² for SL70 to 62.9 kg·m² for SL460. These values should be reflected into the motor shaft inertia calculation when evaluating servo or variable-speed drive systems.

Can the SL Type coupling be supplied with a keyway bore?

Yes. Keyway bores to DIN 6885 standard dimensions can be machined in the hubs at the time of manufacture. Specify the required keyway dimensions when placing your order. Keyway and setscrew combinations are also available.

How is the intermediate slider block installed or replaced?

To install: place one hub on each shaft and secure. Slide the intermediate block tongue-and-groove features into engagement with one hub, then bring the second hub into axial alignment and engage the remaining pair of tongue-groove faces. No special tools are required. To replace: remove one hub from its shaft (or slide it back), remove the worn block, and insert the new one. Hub bores do not need to be removed from the shafts in most cases.

What is the maximum bore diameter for each SL Type model?

Bore ranges are specified for each model in the dimension table: from 15–18 mm for SL70 to 200 mm for SL460. For bores near or at the maximum for a given model, confirm wall thickness adequacy with Ever Power if keyway machining is also required.

Is the SL Type Oldham coupling interchangeable with other manufacturers’ Oldham couplings?

Major external dimensions (D, L, H, S) are based on the GB/T standard for SL Type couplings. Interchangeability with other manufacturers’ SL Type products depends on the dimensional standard each manufacturer follows. Provide your existing coupling’s dimensional data when enquiring about replacement supply.

Enquire About the SL130 SL Type Oldham Coupling

Ever Power manufactures the SL130 and the complete SL Type coupling range — 17 sizes from SL70 to SL460 — direct from our production facility. Provide your bore diameter, operating torque, shaft speed, and misalignment data for a prompt technical and commercial response.

Request a Quote →