This guidance advises PCBUs how to choose, use and maintain an on-tool extraction system to control dust.
Some of the most common construction and manufacturing jobs create high levels of dust. These jobs often involve the use of power tools like cut-off saws, grinders, polishers, breakers and sanders.
As a PCBU, you have a duty to complete a risk assessment. You also have a duty to eliminate risks. If this is not reasonably practicable, use the hierarchy of controls to minimise the risk of dust exposure to workers.
Risks presented by breathing in dust
Regularly breathing in dust presents an airborne risk to the health of workers, and can cause diseases like:
- lung cancer
- chronic obstructive pulmonary disease (COPD, including emphysema and other breathing difficulties)
- silicosis (including accelerated and acute silicosis).
Choosing an on-tool extraction system
On-tool extraction is a type of local exhaust ventilation (LEV) system which is fitted directly onto the tool.
The system has several parts:
- the tool
- captor hood
- extraction unit, and
Each part is critical to the system’s effectiveness and level of dust control.
Complete on-tool extraction systems are available but some parts (especially extraction units) can be used with other tool makes and models.
For effective dust control, it is important to choose parts that are compatible. Involve workers in selecting a system that’s right for the task.
Tools and accessories
Limit the amount of dust created by choosing appropriate tools and accessories. Choose sanding blocks/pads or grinding discs with enough holes to allow dust to be extracted through them.
The hood captures the dust as it is produced and is the most important part of the LEV system. It’s often manufactured as part of the power tool but can also be retro-fitted to existing equipment.
How to choose the right one
Poor design or damage to the hood will significantly affect dust control. Check that the hood:
- is designed for the tool and the task (seek guidance from the manufacturer or supplier)
- sits as close as possible to the work surface when in use, as dust will escape through any gaps
- is easy to use and doesn’t interfere with the work unnecessarily.
The extraction unit is like an industrial vacuum. It removes dust from the captor hood, filters it, and collects it for safe disposal. Selecting the right extraction unit is key to successfully controlling dust.
How to choose the right one
Extraction units can be used interchangeably on some tools but the unit must be suitable for the tool and the task.
- The extraction unit should be suitable for the toxicity level and hazardous nature of the dust being extracted, as well as its size and type. Manufacturers of construction material can advise whether the dust produced by their products is classified as L (Low), M (Medium), H (High) class or non-hazardous.
- L class – dust representing a low risk
- M class – dust representing medium risk
- H class – dust representing high risk.
- Extraction units that conform to these classifications provide effective and certified extraction and containment of hazardous dust. They have special labels, operators’ manuals and, where applicable, low-airflow alarms and additional features for dust containment and disposal.
- For crystalline silica dust (known to cause cancer): Use an H-class vacuum cleaner in accordance with Standard AS/NZS 60335.2.69, fitted with a filter that can achieve an efficiency of 99.995% (for example, H14 HEPA filter complying with Standard AS 4260). This includes working in someone's home (for example, to fit a bench). Workers should not use a household vacuum cleaner to remove this dust.
- Check that the extraction unit creates and maintains enough air suction to cope with the amount of dust created (manufacturers and suppliers can advise) – it needs to remove the dust as fast as it is created.
- Lots of fine dust can quickly clog filters. Choose a unit with pre-filters, built-in ‘back-flushing’ filter cleaning mechanisms, or similar devices.
- Ensure the unit is emptied regularly and safely. See ‘During use’ below for more information.
- Check that the unit has enough waste capacity for the task.
Hoses connect the captor hood to the extraction unit.
How to choose the right one
Check that the hose:
- is the right construction, diameter and length for the work and the extraction unit
- fits securely to the hood and the extraction unit.
Using an on-tool extraction system
Providing the right equipment is not enough to control dust risks. The equipment must also be operated correctly and be properly maintained. Pay particular attention to each stage as follows:
Provide training for workers
Workers must have the right information, training, instruction or supervision before using on-tool extraction. This includes information about:
- selecting the right on-tool extraction system
- pre-use checks
- ongoing maintenance
- how to use the system correctly
- other controls that may be needed (for example respiratory protective equipment and how to use/fit it properly)
- common faults, how to spot them, and the action to take
- what to do if there is a problem.
Following operating instructions
Make sure the extraction unit is used in the right way:
- Before work starts, check the unit is undamaged and in good working order.
- Ensure sufficient consumables are available including filters, filter bags and disposal bags.
- Ensure workers follow the agreed methods of work and the manufacturer’s instructions.
- Ensure the captor hood is as close as possible to the work surface.
- Ensure the tubing is securely connected to the captor hood and extraction unit. Use an adaptor if needed. Do not use tape.
- The unit should be emptied regularly:
- use the correct disposable waste bags
- bags should be sealed and placed in the correct waste container
- if bags are designed for single use, do not empty them to recycle them.
- If the unit has a refillable container (instead of using bags), make sure to control your exposure to the dust when emptying it.
- Clean the unit regularly. Wipe it down daily. Do not use compressed air to clean the unit.
- Do not let dust build up on working parts.
Maintaining an on-tool extraction system
Ensure that the system works properly every time. It is good practice to carry out regular maintenance checks at least once a week, and record the results. You may have to do checks more frequently if there is a high risk of the equipment being damaged.
- damage to parts such as the hood or ducting. Repair or replace damaged parts straight away
- maintaining the extraction unit’s airflow:
- follow manufacturer’s instructions
- check that the airflow indicator and any built-in cleaning mechanisms work properly
- replace filters when needed
- replacing worn cutting discs.
Inspection and testing
Equipment needs proper servicing and testing to ensure it remains effective. For more information, contact the manufacturer or supplier, or ventilation engineers or occupational hygienists, if you are unsure.
The general principles of the above standards also apply to cordless tools with integrated filtered extraction devices. However, these units don’t fall under the L, M or H classification system, so their suitability should be checked with the manufacturer before using them to extract dust.
- 8 key things for workers to know: Controlling silica dust in the workplace
- Safety alert: Accelerated silicosis
- Silica dust in the workplace
- AS/NZS 60335.2.69 Household and similar electrical appliances – Safety particular requirements for wet and dry vacuum cleaners, including power brush, for commercial use
- AS 4260 High efficiency particulate air (HEPA) filters – Classification, construction and performance