Rigging consulting, heavy lift cranes, design of rigging software, rigging engineering, erection, guy derrick analysis, international rigging, lift supervision, rigging quizzes, rigging training, rigging book sales, RIGGING DESIGN PROGRAMS USE THEM IN YOUR DAILY WORK! Each program provides sample values to show how the program works. You can then enter your own input data over the sample values in the input fields. You can progress from one input field to the next by clicking on the Tab button or by using your mouse. Do not leave any input fields blank.

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For each run, the input information should be reviewed carefully to make sure that the intended values have been entered. After entering any input data, be sure and click on the CALCULATE button. When you have a run you want to keep for reference, a printable version of the input and output, without color, is available by clicking on the Printable button. Our goal is to provide rigging programs that calculate accurate answers. Please send us an email if you notice an error in a program or if a program is not executing properly, ie not printing correctly, etc. Maximum Reach Enterprises provides this information in good faith, without charge. Maximum Reach accepts no responsibility for any damages that may result from the use of any values that are derived from these programs.

The program user must verify the accuracy of all output values before using them in any rigging operation. Programs that provide Crane Studies: Crane operators, estimators, riggers and rigging engineers can use these four programs to do quick and accurate crane studies. MAXIMUM REACH: Enter the crane data, the boom length, the jib length, and the structure height.

The program will then calculate the location of the center of rotation of the crane and the maximum reach across the structure, for both the boom and the jib. REACH: Enter the crane data, the boom length, the jib length, the distance from the center of rotation to the structure and the structure height. The program will then calculate the reach across the structure, for both the boom and the jib.

Prison Break Season 3 Torrent Download Tpb Need For Speed. OFF CENTER REACH-CONVENTIONAL & HYDRAULIC CRANES: Of the four programs that do crane studies, I find this one to be the most useful. Enter the crane data, the jib length, the distance from the center of rotation to the structure, the structure height, the distance across the structure, and the structure width to the pick point. The program will then calculate the boom length required to reach the pick point, with and without a jib.

OFF CENTER REACH-TOWER & LUFFING CRANES: Enter the crane data, the jib length, the distance from the center of rotation to the structure, the structure height, the distance across the structure, and the structure width to the pick point. The program will then calculate the boom length required to reach the pick point, with and without a jib.

Open Qbw File In Excel. Program to Evaluate Forces while Upending a Vessel: The Upending program calculates the forces that occur when a vessel is rotated from the horizontal to the vertical. These forces can then be used to determine crane selection, design lifting attachments, design the rigging and tailing hookups, etc.

Programs to Design Basket Hitches: The three basket hitch programs have been developed to determine sling lengths and other information required to make a rigging hookup using one or two basket hitches. Lifting Lifting Lifting Programs to Design Lifting Lugs: The following two programs can be used to design or check the design of the end area of a lug, the bearing stress, the combined stress of the lug plate and weld for a force at a constant angle. They can also be used to calculate the same unknowns where the lugs are used to upend a vessel or piece of equipment from the horizontal through 90 degrees to upright. In this case, as the lift angle increases so does the force on the lug.

Programs to Design Spreader Bars: This program can be used to design or check the design of pipe spreader bars fabricated from 4”, 6”, 8” and 10” diameter pipe. These spreader bars have one end cap on each end that fit over a pipe insert. They are adjustable for length, for pipe schedule (wall thickness) and for sling angle. The program is applicable for bars where the CG of the load is offset from the center of the spreader bar. Fabrication drawings are included.