Crane Lift Planning Software Free Download
Manuel Medina
Use our Ground Bearing Pressure Estimator to determineaccurate requirements for your lattice boom crawler, truckor Ringer crane. All you need is a computer, 1GB Ram and Windows XP/Vista/7 to utilize the Ground Bearing Pressure Estimator.This is a software application that is free to download anduse in your lift planning preparations.
Planning a heavy lift is a demanding task. But even supposedly simple lifting operations using mobile and crawler cranes can turn out to be more complicated than initially expected. Crane Planner 2.0 helps you to take all eventualities into account and to find solutions in advance so that you can carry out your lift in the best possible way.
The combination of an attractive, three-dimensional user interface and the exact machine data of the load moment limitation (LML / LICCON) is unique. The data displayed in Crane Planner 2.0 are determined by exactly the same calculation logic as the live data of the real mobile and crawler cranes. At the same time, important key figures such as ground bearing pressures, ground force, loads and centres of gravity are determined. A new calculation is carried out with every change in configuration, load or geometry.
With Crane Planner 2.0, Liebherr provides you with modern lift planning software. There is no need for expensive licences, elaborate hardware and extensive training for CAD software. Our engineers and software developers work daily on new functions and on the integration of further Liebherr cranes. The Crane Planner 2.0 updates are provided to you regularly as part of the selected licence.
The load and outrigger pressure calculations produced by this software are not a substitute for adherence to all load chart requirements and safe crane operating practices and limitations. CRANIMAX GmbH assumes no liability nor makes any warranties or representations for the calculations and will take no responsibility for any damage associated with the use of this software. The User must always confirm that the lifted load and the actual crane configuration are approved by the applicable load chart provided by the crane manufacturer and carefully follow the crane manufacturers operating instructions. In addition, the accuracy of the load and outrigger pressure calculation is entirely dependent upon the user inputting proper data/information. If inaccurate data is input, the load and outrigger pressure calculations will not be accurate. Design of ground support sufficient to withstand calculated loads is within the sole responsibility of the user of this software and/or the Site Supervisor (see ASME B30.5-2007 5-3.1.3.2.1(e)(3)). Reliance upon inaccurate calculations and/or improper ground support could lead to tip over (and potentially result in death, serious bodily injury, damage to the crane and/or damage to other property). If you have any questions as to whether the data/information you are inputting into the software is accurate, please contact the Manufacturer.
A separate study published in the Journal of Construction Engineering and Management (Beavers et al. 2006) analyzed crane accidents that occurred from 1997-2003. The leading causes of crane fatalities identified the most frequent causes of mobile crane incidents to be struck by the load (32.0%), electrocution (27.2%), crushed during assembly/disassembly (12.0%), failure of boom/cable (12.0%), and crane tip-over (11.2%) (see Figure 2).
As construction projects become more complex and the demand for lifting larger loads grows, the size of cranes and the complexity of lifts increases. Experience alone may not be enough to operate cranes safely and in compliance with applicable regulations and standards. The safety of crane operations depend on a team approach, careful lift planning and continued training to stay current with industry rules and regulations.
Cranes can be the most expensive and productive pieces of equipment at a construction site. Cranes also can be the most dangerous without proper training, preparation and management. Crane safety includes both basic and advanced planning as well as continuous monitoring of changing site conditions.
Conditions can change throughout the course of a day, so make sure your team checks and rechecks the site for hazards and unsafe conditions before and during crane operations. If anything changes or does not go according to the plan, halt operations and regroup in a meeting to discuss.
Travelers is a recognized leader in providing crane safety training and education. Travelers Risk Control crane safety professionals lead several nationally recognized crane programs to advance safety and teach crane safety methods to contractors, operators and safety and management staff. Over the past two decades and as part of Travelers' continued commitment to the construction industry, Travelers Construction Risk Control professionals have conducted more than 400 sessions and trained over 15,000 workers on crane safety.
This blog post will dive into the importance of proper project management, particularly in the context of crane rentals and heavy lifting, and provide you with valuable insights on how to implement it effectively.
Project management and pre-lift planning is the process of determining the resources needed to meet the demands of a project, ensuring that equipment, personnel, and other resources are available when needed.
By effectively planning for the requirements of the project with a thorough and accurate crane lift plan, professionals can avoid over or under-utilization of resources, minimize delays, and ensure smooth operations.
By accurately forecasting future capacity and lifting requirements, companies can allocate resources optimally, ensuring that cranes and other equipment are used effectively without overloading or underutilizing equipment on the project.
With a clear understanding of current and future crane capacity requirements and lift specifications, project managers can make data-driven decisions that align with project goals and mitigate potential risks.
The first key element is assessing the current crane capacity and lift requirements of your project. This involves evaluating the available equipment, such as cranes, heavy-haul equipment, and personnel.
One of the most important practices to consider is seeking out experienced and knowledgeable resources when estimating project and crane capacity requirements. At Maxim we can do a pre-assessment of the project and offer valuable insights into the types of cranes, equipment and manpower needed, ensuring you have the right resources in place.
Flexibility refers to the ability to adapt and adjust crane capacity and lift plans as project conditions change, while scalability is the capacity to grow or reduce crane capacity in response to varying project demands.
At Maxim Crane, our approach to lift planning and project management is centered around providing service and support to our clients by assessing the projects and advising on the proper equipment and personnel needed for your project.
Our knowledgeable professionals work closely with clients to assess their current crane type and capacity needs, forecast future needs, and identify gaps and opportunities to offer optimal resource utilization and efficiency.
By partnering with Maxim Crane, you can trust that our team will work diligently to serve you and your project. Our commitment to excellence in all our crane rental services makes us a reliable and experienced partner that you can depend on.
We hope you found this article informative. Our content is intended for general informational purposes only and does not constitute advice or necessarily reflect the range of services Maxim Crane Works, LP provides. Readers should not act upon this information without first seeking assistance from a qualified industry professional. For crane recommendations for your specific project, consider speaking with one of our sales professionals. Although we attempt to ensure that postings on our blog are complete and accurate, we assume no responsibility for their completeness or accuracy.
Lifting heavy objects is hard work, but preparing for the lift can take significantly more time than the lift itself. In addition to the lift plan that we create for every job, big lifts require travel permits and detailed route planning just to get to the job site.
Telehandlers and truck cranes are small enough to go almost anywhere that a normal passenger vehicle can go. But even when the crane is fully retracted on our smallest truck crane, the vehicle still towers more than 12 feet into the air. And it weighs in at 56,000 lbs, which is roughly equivalent to 10 Chevy Suburbans.
When we roll onto a job site, the crane operator gets started by moving the crane into position. The operator needs to carefully align the crane in the location identified in the lift plan. Once in place, they will extend the outriggers for stability and secure the crane on the outrigger mast.
The lifting part of the job often takes a fraction of the time to set up the crane when we only need to move a single item. But some jobs require dozens of different lifts. And the more lifts a job requires, the more time we spend securing loads to the hook, which we refer to as rigging time.
Different loads often require different rigging plans. Some loads need four straps, others need six. Some require spreader bars, lifting beams, or different shackles sizes. Every rigging change takes time but is an essential part of performing a safe crane lift.
Once we complete the last lift, we go through the whole mobile crane setup procedure again in reverse. We remove the luffer and secure it to its transport truck. Then the counterweight trucks file in, collect their weights, and file out. We suck in the boom, retract the outriggers, and make our way back home, following our carefully planned route to do so.
Our engineering team utilizes the professional standards in software such as AutoCAD, Revit, Lift Planner, Work Planner, and 3D Liftplan for planning and drafting purposes. Also, our engineered lift plan packages include all supporting documentation such as Rigging Certs, Rigging Cut Sheets, Crane Charts, Outrigger Cut Sheets, Equipment Annual Inspections, and Personnel Certs.
Planning Process
- + Project Overview with Customers & Contractors
- + Site Walks & Measurement Verifications
- + Detailed Rigging Diagrams & Critical Lift Plans
- + Ground Bearing Pressure Study
- + Maximum Allowable Wind Speed Study
- + P.E. Review & Stamp Available Upon Request