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Air Operated Oil Transfer Pumps

205L Oil Distribution Kit 3:1 Ratio Pump, Metered Oil Gun

Product Code: AF-0A205K3

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Description

The RAASM 3:1 205L Workshop Oil Distribution Kits are ideal for small to medium size workshops looking to upgrade from hand pumps but also covers larger workshops that have additional 205L oil drums that need catering.

We have oil distribution kits to increase your workshop efficiency and effectiveness. These kits are ideal for small to medium size workshops looking to upgrade from hand pumps but also cover larger workshops that have additional 205L oil drums that need catering. They are exceptional value for money! Along with the kits we have a number of other options. Don t feel restricted, we can also custom-build to suit your specific requirements for your transfer application. Kits include:

  • RAASM 3:1 Ratio Drum Pump
  • Flow Rate: 14 LPM
  • 4M Hose Kit
  • Metered Oil Control Gun
  • 1/4 Regulator
  • 10 Year Warranty

MODELS AVAILABLE

Technical Specifications
Brand RAASM

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Oil Transfer Pump

What is an oil transfer pump used for?

An oil transfer pump is designed to move oil and other lubricants efficiently from one container or system to another. These pumps are commonly used in automotive, industrial, agricultural, and marine settings to handle tasks like refuelling equipment, changing engine oil, or transferring hydraulic fluids.

Oil transfer pumps can be manual, electric, or pneumatic, and are compatible with a wide range of oils—including motor oil, gear oil, hydraulic oil, and transmission fluid. By ensuring safe and spill-free fluid handling, they improve efficiency and reduce contamination risks during maintenance operations.

How do I choose the right oil transfer pump?

Choosing the right oil transfer pump depends on several key factors:

  • Fluid Type & Viscosity: Make sure the pump is compatible with the specific type of oil (e.g., synthetic, mineral, or gear oil) and can handle its viscosity.
  • Flow Rate: Look for a pump with the correct flow rate (litres per minute) based on how quickly you need to transfer the fluid.
  • Power Source: Select between manual, electric (12V, 240V), or pneumatic (air-operated) depending on your environment and power availability.
  • Pump Material: Ensure the pump's components are resistant to the chemical properties of the oil being handled.
  • Portability: Consider mobile or trolley-mounted units if you require a pump for field or multi-location use.

Matching these factors with your operational needs ensures reliable performance and long-term durability.

Can oil transfer pumps handle high-viscosity fluids?

Yes, oil transfer pumps can handle high-viscosity fluids, but it depends on the pump’s design and power. For thicker oils—such as gear oils or cold-weather lubricants—you'll need a pump specifically engineered for high-viscosity transfer.

Key features to look for include:

  • High-torque motors or air-powered systems
  • Larger inlet/outlet diameters
  • Positive displacement technology (e.g., gear or rotary pumps)

Using a pump that’s not rated for high-viscosity oils may result in slow performance, overheating, or mechanical failure. Always check the manufacturer's viscosity rating before purchase or use.


How does an oil pump work in an engine?

An oil pump plays a crucial role in engine lubrication by circulating motor oil under pressure to the moving parts of the engine. Located typically near the bottom of the engine in the oil pan, the pump draws oil through a pickup tube and pushes it through the oil filter before distributing it to components like the crankshaft, camshaft, pistons, and valve train.

The oil pump ensures that all critical engine components are properly lubricated, reducing friction, cooling the engine, and preventing metal-to-metal contact. There are different types of oil pumps used in engines—such as gear pumps, rotor pumps, and vane pumps—but all serve the same essential purpose: to maintain oil pressure and circulation throughout the engine for optimal performance and longevity.

What are the signs of a failing oil pump?

Recognizing the symptoms of a failing oil pump early can prevent major engine damage. Here are common warning signs to watch for:

      • Low Oil Pressure Warning Light: If your dashboard warning light illuminates, it may indicate the oil pump isn’t maintaining adequate pressure.
      • Engine Overheating: Without proper oil flow, engine parts create excess friction and heat.
      • Tapping or Knocking Noises: Inadequate lubrication can cause components like the camshaft or lifters to produce unusual sounds.
      • Oil Pressure Gauge Reading Low: Consistently low readings may suggest a weak or malfunctioning oil pump.
      • Increased Engine Wear: Over time, lack of proper oil circulation can lead to accelerated engine wear and internal damage.
      • If you notice any of these signs, it’s crucial to have your engine checked by a qualified mechanic as soon as possible.

How often should an oil pump be replaced?

An oil pump typically lasts the lifetime of the engine, especially in well-maintained vehicles. However, replacement may be necessary if the pump fails or shows signs of wear—especially in high-mileage or performance engines.

There’s no set replacement interval like with oil or filters, but it’s wise to inspect or consider replacement:

      • Every 100,000 to 150,000 km if you notice symptoms of failure.
      • During major engine repairs (e.g., timing chain or oil pan removal), as preventative maintenance.
      • If you’ve experienced oil contamination, such as sludge buildup or metal shavings in the oil, which may damage the pump.
      • Using high-quality motor oil and changing it regularly is one of the best ways to extend the life of your oil pump and overall engine health.

What Is a Fluid Transfer Pump Used For?

A fluid transfer pump is a device used to move liquids from one location to another safely and efficiently. These pumps are widely used across industries such as agriculture, automotive, mining, construction, manufacturing, and marine.

Common Applications Include:

  • Transferring fuel, oils, chemicals, and water between tanks, drums, machinery, and vehicles
  • Refuelling equipment on-site
  • Draining and filling systems, such as cooling or hydraulic systems
  • Dispensing lubricants or chemicals in controlled volumes

Fluid transfer pumps are available in manual, electric, pneumatic, or engine-driven types, and are designed for specific fluids based on viscosity, chemical compatibility, and flow rate requirements.

How Do I Select the Right Fluid Transfer Pump?

Choosing the right pump involves evaluating several important factors:

  1. Type of Fluid

    • Identify whether you are transferring water, diesel, oil, chemicals, or corrosive liquids.

    • Ensure the pump materials are chemically compatible with the fluid.

  2. Viscosity

    • High-viscosity fluids (e.g., oils) require gear pumps, diaphragm pumps, or rotary pumps.

    • Low-viscosity fluids (e.g., water, diesel) can be handled by centrifugal or vane pumps.

  3. Flow Rate & Pressure

    • Determine how quickly you need to transfer the fluid, usually measured in litres per minute (LPM) or gallons per minute (GPM).

    • Choose a pump that meets both your flow and head pressure requirements.

  4. Power Source

    • Select between manual, 12V/24V, 240V, air-powered, or engine-driven pumps based on your site’s power availability.

  5. Portability & Mounting

    • For mobile applications, consider portable or trailer-mounted pumps.

    • For fixed installations, wall- or tank-mounted options may be more suitable.

      Working with a supplier experienced in industrial fluid handling can help ensure proper pump sizing and compatibility.

What Maintenance Is Required for Fluid Transfer Pumps?

Regular maintenance is essential to keep your pump performing efficiently and to extend its lifespan. Key maintenance tasks include:

  • Inspect Hoses and Fittings
    Check regularly for cracks, leaks, or worn connections.
  • Clean Filters and Strainers
    Blocked filters reduce flow and may damage components. Clean or replace as needed.
  • Lubricate Moving Parts
    For pumps with bearings or gears, apply appropriate lubrication at scheduled intervals.
  • Check Seals and Gaskets
    Replace any worn or damaged seals to prevent leaks.
  • Monitor Flow and Pressure
    Drops in performance may indicate internal wear or blockages.
  • Flush the Pump
    Especially important after handling corrosive fluids or when switching between fluids to avoid cross-contamination.
  • Follow Manufacturer Guidelines
    Each pump may have specific procedures outlined in the user manual.

Why Maintenance Matters

Proper maintenance ensures:

  • Optimal performance
  • Operational safety
  • Regulatory compliance
  • Cost-effective operation

This is particularly important in regulated industries across Australia where reliability and safety standards must be upheld.

 


What Is a Digital Fuel Meter?

A digital fuel meter is a precision instrument designed to measure and display the volume of fuel dispensed from tanks, pumps, or fuel transfer systems. Unlike mechanical meters, digital fuel meters use electronic sensors and LCD or LED displays to provide accurate, real-time readings of fuel flow.
Common Use Cases:
Digital fuel meters are commonly used in:
  • Service stations
  • Mining and construction refuelling setups
  • Agricultural fuel trailers
  • Workshops and fleet depots
These meters are compatible with a range of fuels including diesel, petrol, kerosene, biodiesel, and even AdBlue, depending on the model. They are often installed inline and can be paired with electric or manual pumps.
How Accurate Are Digital Fuel Meters?
Digital fuel meters are highly accurate, typically providing measurement accuracy within ±0.5% to ±1.0%, depending on the brand and calibration. This level of precision makes them ideal for commercial fuel dispensing, where exact measurement is essential for:
  • Inventory tracking
  • Billing accuracy
  • Regulatory compliance
Factors That May Affect Accuracy:
  • Fuel viscosity and temperature
  • Flow rate and pressure
  • Calibration and maintenance frequency
Leading digital meter brands offer consistent and repeatable results, which is crucial for industries that require traceable fuel usage and accountability, especially in sectors such as mining, transport, and agriculture across Australia.
Can Digital Fuel Meters Be Calibrated?
Yes, digital fuel meters can and should be calibrated periodically to maintain accuracy and meet industry standards—particularly in commercial or regulated environments.
Typical Calibration Procedure:

  1. Use a known volume container (e.g. 20L test bucket)

  2. Dispense fuel through the meter

  3. Compare the meter reading to the actual volume

  4. Adjust calibration settings using onboard buttons or software (depending on model)

Some advanced models offer automatic calibration features or external calibration ports for easier servicing.
Why Calibration Matters:
Regular calibration ensures:
  • Accurate fuel tracking
  • Prevention of billing disputes
  • Compliance with Australian measurement standards and environmental regulations
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