Magic Glass has a large fleet of vehicles servicing customers throughout the state on a daily basis. Our capabilities extend throughout Sydney, New South Wales and the ACT.

Address: 34a-36 Burrows Road Alexandria 2015 NSW


Phone:1800 045 277

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As a provider of rope access services, Magic Glass is committed to ensuring the safety and stability of our projects. One key element of this is the use of anchor points, which are used to securely attach ropes and other safety gear to a structure or surface. Anchor points play a vital role in rope access work, and it's important to choose the right ones for each project.

To find out more about anchor points and why they are so important, read on!

What are Anchor Points?

Anchor points are fixed points on a structure or surface that are used to attach ropes, harnesses, and other safety gear. They are designed to withstand a specific load, and they are typically rated by a professional engineer or other qualified individual. There are many different types of anchor points, including:

  • Natural anchor points: These are existing points on a structure or surface that can be used as anchor points, such as beams, columns, or other structural elements.
  • Temporary anchor points: These are anchor points that are installed specifically for a rope access or fall arrest project and are removed when the project is complete. They may be made of materials such as steel or concrete, and they are typically installed by a qualified professional.
  • Permanent anchor points: These are anchor points that are permanently installed on a structure or surface and are used for ongoing rope access work. They may be made of materials such as stainless steel or aluminium, and they are typically installed by a qualified professional.

Why are Anchor Points Important?

Anchor points are an essential component of rope access and fall arrest work, as they provide a secure attachment point for ropes and other safety gear. Without proper anchor points, rope access work would not be possible, as there would be no way to safely attach the ropes and harnesses.

In addition to being necessary for the work itself, anchor points also play a critical role in ensuring the safety of workers. Rope access work involves working at height and using specialised equipment, and anchor points help to ensure that the ropes and harnesses are securely attached and able to hold the weight of the worker.

How to Choose the Right Anchor Points

Choosing the right anchor points is essential for the safety and stability of rope access work. Here are some factors to consider when selecting anchor points:

  • Load rating: It's important to choose anchor points that are rated for the specific load that they will be subjected to. This will depend on the type of work being done and the number of workers that will be using the anchor point.
  • Compatibility with the structure: Anchor points should be compatible with the structure or surface to which they are being attached. This may involve considering the material of the structure, the size and shape of the anchor point, and any other factors that may affect its stability.
  • Location: The location of the anchor point is also important, as it should be in a position that is easily accessible for the workers, doesn’t put workers in danger and doesn’t interfere with other elements of the structure.

Anchor points are an essential component of rope access and fall arrest work, and choosing the right ones is crucial for the safety and stability of the project. In order to ensure your anchor points are installed correctly and meet all relevant Australian safety standards, we recommend you get in touch with Magic Glass.

Our dedicated Rope Access Technicians are highly experienced in installing, inspecting and certifying anchor points of all different types for all different buildings.

For more information, or to get a free quote, call Magic Glass today!

Construction projects can generate a significant amount of debris, including materials such as wood, metal, concrete, and drywall. This debris can pose a safety hazard for workers and the general public, as well as a potential liability for the construction company.

Debris netting is a versatile solution for containing and managing construction debris, and it has a number of benefits.

Read on for Magic Glass’ guide to debris netting in the construction industry.

What is Debris Netting?

Debris netting is a type of netting made from durable, high-strength materials, such as polypropylene or polyethylene. It is typically used to contain and manage debris during construction, demolition, or renovation projects. Debris netting is available in a range of sizes and colours, and it can be custom-cut to fit the specific needs of a project.

Benefits of Debris Netting

There are several benefits to using debris netting on construction sites:

  • Safety: Debris netting can help prevent accidents and injuries by containing debris and preventing it from falling or blowing onto workers or the general public.
  • Liability reduction: Debris netting can help reduce the liability of construction companies by preventing debris from escaping the construction site and causing damage or injuries to nearby properties or individuals.
  • Visual appeal: Debris netting is available in a range of colours, and it can be used to cover unsightly areas or construction equipment. This can improve the visual appeal of the site, particularly if it is located in a highly visible area.
  • Cost-effective: Debris netting is a cost-effective solution for managing construction debris, as it requires minimal installation and maintenance. It is also reusable, which can further reduce costs.
  • Damage prevention: Debris netting catches falling debris, preventing it from falling onto other parts of the building and causing damage.

Debris netting is a versatile and cost-effective solution for containing and managing construction debris. It can help improve safety, reduce liability, prevent damage, and improve the visual appeal of a construction site. It can, however, be challenging to install, especially at heights.

Fortunately, Magic Glass is here to help! Our dedicated Rope Access Division is highly experienced at installing, inspecting, and maintaining debris netting-regardless of the size or height of the building.

For more information, or to get a free quote, call Magic Glass today!

When it comes to preventing falls on worksites, there are a number of height safety options you can consider. One of these options is edge protection.

What is Edge Protection?

Edge protection is a type of height safety system that involves physical guardrails around the edges of rooftops and fragile at-height surfaces, including skylights and polycarbonate sheeting. These physical barriers can be permanent or temporary.

Edge Protection Requirements

Each edge protection system must satisfy a number of criteria to be considered safe and compliant. They must be provided at every open edge of a work platform and be strong enough to withstand the force of someone falling.

Edge protection systems must also be comprised of a handrail, mid-rail, and toe-board, or a handrail and brick guard.

The specific requirements of your edge protection system will differ depending on factors such as roof pitch, surface, and length. Below are some general components all edge protection systems must include.

  • Top, mid and bottom rails or toe-boards with gaps not exceeding 450 mm. Where toe-boards are used in place of bottom rails they should be able to withstand the likely impact loads.
  • Toe-boards or mesh infill to prevent tools, materials or debris falling from the roof, unless exclusion zones that prevent all personal access below the roof edge are in place.
  • No gap between the roof edge, including the gutter, and a guardrail located outside the roof line exceeding 100 mm.
  • A clear distance between the roof cladding and the bottom rail of no less than 150 mm and no greater than 275 mm.
  • A guardrail height above the roof surface of no less than 900 mm (for roofs with a pitch over 10 degrees, the effective height should be measured from a point 300 mm inside the roof edge).
  • Infill panels are used where the pitch of the roof exceeds 26 degrees.
If you need to install edge protection onto your worksite or roof, get in contact with Magic Glass today. Our team of Height Safety Technicians are experienced in installing all types of height safety hardware to all required Australian Standards.

An integrated management system (IMS) is a single system that combines two or more management systems, such as a quality management system (QMS) and an environmental management system (EMS). The goal of an IMS is to integrate the various management systems and processes within an organisation into a single, cohesive system. This can improve efficiency, reduce duplication of effort, and provide a more holistic view of the organisation's operations.

At Magic Glass, our integrated management system has been established in line with the following international standards:

  • ISO 9001 Quality Management System
  • ISO 14001 Environmental Management System
  • ISO 45001 Occupational Health and Safety Management System.

ISO 9001 Quality Management System

ISO 9001 outlines the requirements for a quality management system (QMS). This standard is based on several quality management principles, including a strong customer focus, the motivation and implication of top management, the process approach, and continual improvement.

By implementing a QMS established in line with this standard, Magic Glass has been able to improve our efficiency, reduce costs, and increase customer satisfaction by ensuring our clients get consistent, good-quality glazing and rope access products and services.

ISO 14001 Environmental Management System

ISO 14001 outlines the requirements for an environmental management system (EMS). This standard is used by organisations to help minimise their environmental impacts and ensure compliance with associated regulations.

By implementing an EMS established in line with this standard, Magic Glass has been able to maximise the sustainability of our activities and reduce practices that are potentially harmful to the environment.

ISO 45001 Occupational Health and Safety Management System

ISO 45001 outlines the requirements for an occupational health and safety management system (OHSMS). It helps organisations mitigate the risk of injuries and illness in the workplace.

By implementing an OHSMS based on ISO 45001, Magic Glass has been able to minimise the occurrence of injuries and illnesses in our workplaces, improve our health and safety performance, and ensure compliance with related regulations.

ISO Certification

In order to become certified in the above international standards, Magic Glass has undergone thorough certification processes and regular audits by ISO representatives. This ensures that we are consistently meeting the requirements of each standard, allowing us to offer top quality, safe, and environmentally-friendly products and services for our customers.

If you own or manage a high-rise building, it’s your responsibility to ensure that it is safe for all residents, visitors, workers, and passer-byers. If your building is deemed unsafe and injury occurs, you can be held liable.

One of the best ways to avoid this is to familiarise yourself with common defects that can occur and how to best deal with them. Read our blog on common building defects for more information on how to identify them. Otherwise, read on to find out how to best deal with high-rise defects.

Handling Building Defects

Different buildings will encounter different defects. The process of dealing with these defects can be generalised, however. Here are some top tips:

Remember that ignorance is not always bliss.

As we’ve previously stressed, if you own or manage a building, any defects that occur are your responsibility. Because of this, you want to be aware of how to identify any potential issues and have a basic idea of how to remedy them.

Be safe, not sorry.

Thorough and regular building inspections by accredited professionals, such as Magic Glass, are a must! They will identify any potential issues before you notice them. Not only will this ensure safety in your building, but it will also save you money as repairing damage in its early stages is much less expensive than repairing it a few months in.

In NSW, for minor defects, you have two years to start the process of getting the builder or developer to fix the defect. For major defects, you have six years. If your building is outside the warranty period, you may have to fund rectification yourself.

Sharing is caring.

Make sure you report defects to people who need to know. This will include your owners corporation, but also your insurer(s) and Fair Trading (especially if the defect is major). You will also need to inform residents and other building occupants if necessary.

Keeping good records is also important. Records are needed in case there are disputes and to demonstrate to future buyers that the building is well-maintained and safe.

Handling building defects can be stressful. Fortunately, Magic Glass is here to help. We offer fast, thorough, and cost-effective facade inspection, repair, and replacement services. Our experienced Rope Access Division allows us to carry out these services discreetly for all buildings, regardless of height or size.

Contact us today for more information!

Concrete spalling can occur on a wide variety of structures including concrete buildings, car parks, bridges, jetties, and tanks. It can have disastrous effects on the structural integrity and asset value of buildings and can pose serious threats to the health and well-being of occupants.

Having a basic understanding of what concrete spalling is and how it is treated will help you identify and remedy any spalling that may occur in or around your building.

What is Concrete Spalling?

Concrete spalling is the deterioration of steel reinforced concrete. It can be caused by a number of things including excessive exposure to moisture, oxygen and salts, freeze thaw cycling, and exposure to fire. The most common cause of spalling, however, is corrosion of the steel reinforcement bars.

Factors such as age, maintenance, concrete quality, depth of concrete coverage, and local environmental conditions have significant effects on the likelihood of concrete spalling occurring. For example, older buildings, buildings located by the sea, and buildings that are not maintained sufficiently are much more susceptible to concrete spalling.

What are the Effects of Concrete Spalling?

Concrete spalling can have a number of detrimental effects on the aesthetics, structural integrity, and safety of your building. It is an eyesore and can make your building appear poorly maintained and insufficiently cared for. This can deter potential buyers and renters for residential buildings and can impact business reputations for commercial buildings.

Spalling can also be harmful for workers, building occupants, and passer - byers. Mild concrete spalling can lead to falling debris and tripping hazards, whilst more severe cases can cause structural instability which can be even more dangerous.

From a commercial perspective, concrete spalling can also greatly reduce the asset value of your building. Maintenance costs increase as spalling becomes more widespread, so the longer you leave concrete spalling untreated, the more expensive remediation will be and the more your building will diminish in value.

How Do You Identify Concrete Spalling?

The tell-tale sign of concrete spalling is the flaking and chipping of concrete surfaces. If you notice large chunks of concrete missing or falling off any of your building’s surfaces, it can be safe to assume your building is experiencing spalling.

How Can You Prevent Concrete Spalling?

There are some measures that can be taken to prevent the occurrence of concrete spalling. These include:

  • Proper management of concrete during pouring to ensure adequate coverage and sufficient concrete curing techniques
  • Prevention of excess water in the concrete mixture
  • Use of an effective anti-carbonation and chloride ion resistant coating system
  • Application of water sealant to concrete surfaces to prevent water from getting into the concrete.

How Can Concrete Spalling Be Repaired?

If your building has succumbed to concrete spalling, there are a number of ways you can go about repair and restoration. For mild spalling, you may be able to repair the concrete with patching and coating, for more severe cases, however, you may need to have your concrete resurfaced or completely replaced.

If you do notice any signs of concrete spalling, you should get in contact with a professional.

At Magic Glass, we offer building remediation services at-heights and in hard-to-access areas. Our experienced Technicians will be able to inspect and repair your concrete spalling issues regardless of where they are occurring.

Get in contact with our team for more information.

When it comes to working at heights, implementing effective safety procedures is a must. Falls from heights are the second leading cause of work-related mortalities within Australia, so ensuring your building or worksite is secure and has preventative measures in place is critical.

The most common types of height safety systems are fall arrest and fall restraint systems. Although they are commonly used interchangeably, they have a number of key differences. Read on to find out more.

Fall Arrest Systems

Fall arrest systems are designed to protect workers in the event of a fall. When a worker falls, the arrest system will catch them, preventing the occurrence of injuries or deaths.

Fall arrest systems fall into two categories - personal and general. Personal fall arrest systems involve specific Height Safety PPE and attachment systems, such as harnesses and ropes. General fall arrest systems protect all workers as a whole rather than individually, such as safety nets and catch platforms. Both types of fall arrest systems should prevent workers from falling no more than two metres.

Examples of fall arrest systems include:

  • Full-body harnesses
  • Suspension belts
  • Rope lanyards
  • Safety nets
  • Catch platforms

Fall Restraint Systems

Fall restraint systems are preventative safety measures. They are designed to prevent falls altogether, rather than catching workers after they have fallen.

Examples of fall restraint systems include:

  • Guardrails
  • Walkway systems
  • Static restraint lines

These restraint systems are used for lower-risk situations, where falling is less likely or less hazardous.

Having effective fall protection systems in place is an absolute necessity in preventing workplace injuries and deaths.

If you’re unsure about your requirements or what fall protection equipment you should be using for your building or worksite, get in contact with Magic Glass for more information.

Owning or managing a large scale commercial or residential building comes with a vast amount of legal responsibilities. If you are a building owner, Building Manager or Strata Manager, you are responsible for providing all residents, workers, and visitors with a safe environment. This includes ensuring they are protected from any glass related accidents.

Whether major or minor, glass accidents are dangerous and can pose the risk of injury and even death. If the accident is found to be a result of the building not being up to safe standards, Building and Strata Managers can be liable for negligence.

To ensure the glass in your building is safe, the first thing you must do is check that it is compliant with Australian Standards AS2208-1996 and AS1288-2006. These are the standards relating to safety glazing materials in buildings and glass in buildings, respectively.

AS2208 and AS1288 present the circumstances in which you must have safety glass installed instead of standard glass. As the name suggests, this glass is safer and stronger than typical glazing units. 

These standards also state requirements relating to the thickness and dimensions of glass doors and panels, balustrades and glass used in schools, childcare centres, and nursing homes.

Ensuring all glass in your building is up to Australian standards can be a strenuous activity, but it must be done. Fortunately, Magic Glass is here to support you along the way.

Magic Glass is a member of the Australian Glazing and Glazier Association (AGGA). We are proudly accredited by the AGGA as we have demonstrated how our products and services are safe and comply with Australian Standards. Being one of the founding members of the association, we take our accreditations seriously and strive to maintain the reputable standards we have set for ourselves.

Should you find that any of the glass in your building does not comply with the legal requirements outlined above, contact Magic Glass for a free quote to remove and replace the glass to all relevant Australian Standards.

Although rope access may appear scary to many, it is actually the safest option when it comes to height access work.

Compared to alternative methods such as scaffolding and cranes, rope access has very little risk. This is due to several factors outlined below.

1. Full Accreditation Required

In order to become a Rope Access Technician in Australia, you must be fully accredited and IRATA trained.

All Rope Access Technicians at Magic Glass undergo thorough training before they are permitted to work. This enables them to become familiar with all safety procedures and protocols and understand how to tackle all jobs at-height as safely as possible.

2. Less Equipment, Less Risk

Compared to using scaffolding or cranes, rope access requires very little equipment and set-up.

Because of this, there is less space where something could go wrong and less equipment that could fail.

3. Less Time, Less Risk

Rope access is also by far the fastest and most efficient method of height access work.

Because of this, there is less time for complications to arise or for something to go wrong.

4. Safer for Passer-Byers

Rope access is also much safer for passer-byers of the building or construction site.

This is because all tools required for the job at hand are secured to Technicians via ropes and harnesses. In the event that a Technician accidentally drops their tool, it will stay intact to the Technician instead of falling to the ground and potentially harming pedestrians and other workers on the way.

For all your rope access needs, get in contact with the Magic Glass team.

All of our dedicated Rope Access Technicians are highly experienced and IRATA trained.

Fall arrest systems are an important part of all at-height construction and work sites. They play a critical role in reducing workplace injuries and fatalities caused by falls. To learn more about fall arrest systems and the different types, read on.

What are Fall Arrest Systems?

A fall arrest system protects workers in the event of a fall. If a person working near an unprotected edge should take a fall, the fall arrest system combined with a fall arrest harness will catch the person and prevent them from hitting the ground or area below.

It’s important to note that fall arrest systems are different to fall prevention systems. Fall arrest systems protect workers after they’ve fallen, whilst fall prevention systems prevent the occurrence of falls (such as edge protection and roof guardrails).

What are the Different Types of Fall Arrest Systems?

Fall arrest systems can be categorised as either general or personal. General fall arrest systems include nets and catch platforms, whilst personal arrest systems include lanyards and harnesses.

Some of the most common types of fall arrest systems include:

  • Static Lines
  • Anchor points
  • Rope grabs
  • Safety nets (ideal for worksites where there are no scaffolds, and the fall hazard is less than 25 metres)
  • Rails

Many of these fall arrest systems involve anchor points. These are points where workers can attach their lanyards to anchor themselves to the building and catch them in the event of a fall.

Like all fall arrest equipment, it is important to get anchor points inspected regularly and ensure they are certified for use. All height Safety systems must be inspected and certified every 12 months by a certified professional.

When Should Fall Arrest Systems be Used?

Fall arrest systems should always be used when working at a height that could potentially cause injury in the event of a fall. This may include when carrying out electrical, glazing, cleaning, and roofing work.

Even if the risk of injury is minimal, at least one form of fall protection should always be used.

 

If you require height safety installation, get in contact with the Magic Glass team. We are highly experienced in installing, inspecting, and certifying a range of different height safety hardware including fall arrest systems, anchor points, safety ladders, ladder points, and temporary and permanent edge protection.

Recent public service announcements from the NSW Government have included the pausing of construction work and further limitations on repair and maintenance works. Whilst most ongoing works will now pause, Magic Glass will continue to offer Emergency Repair Services.

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