Let us explain how they’re implemented in Kreo. There’re 3 key characteristics of perfect takeoff software. In this article, we will explain why Kreo will do everything better than anyone else for your tasks! Why Kreo is the best fit for you? It should also be easy to use and have an option for printing out the result on paper or saving it as a PDF file. The best measuring software allows you to measure things in different ways: length, area, volume and angles. For example, if you’d like to understand how much wood you need for your project, you can easily do this with the help of this kind of software. It can be used directly for construction purposes, but also for some other purposes. Measuring software is a program that allows you to measure area, perimeter and length, calculate volume and much more. The main question is how to choose a perfect fit for particular purposes. There are a lot of different types of software available on the market and some are definitely better than others. From blueprints to floor plans, you can use measuring software to get the job done. The program automatically calculates the measurement of the sloped framing member without the need for any conversion factors.Measuring software can be a great tool for anyone who needs to measure anything. On-Screen Takeoff saves the estimator a step - there is no need to calculate the horizontal line of the hip angle because it is taken off directly on the plans. In example "B", the line 'B' is the same as line "B" in the first example, the estimator can just takeoff that line rather than having to apply a conversion factor to line "A" to calculate line "B". In example "A", the conversion factor was necessary (prior to On-Screen Takeoff) because the estimator may not have known the exact distance of "B" so they had to calculate the diagonal line using the known linear "A". But in OST, you've already accounted for the angle because you drew the takeoff on an angle so the 'conversion factor' would, of course, be lower. The conversion factor (1.453) is required to convert that measurement to the angled (45°) and sloped line. In the example above, the conversion factor calculated for this measurement for a 4:12 slope is 1.05409 although the roofing industry lists the conversion factor as 1.453.Ĭompare that to the measurement "A" below. On Screen calculates the exact distance between points A and C, (the ridge or hip of the roof) in the screen shot above. No conversion factors are needed because calculating the line "A-C" is a mathematical equation.įor a Geometry refresher on how to calculate the hypotenuse of a right triangle, see: On-Screen Takeoff v. In the hip roof diagram below, the line "A-B" (the base of the triangle) is what is actually taken off (drawn by the estimator) on the plan. Review the right triangle formed by this 12' linear: The Linear result is 12.649 LF - this is correct because On-Screen Takeoff calculates true math, not slope-factor (industry set conversion factors that may not be based on direct mathematics). Takeoff a line on an orthographic projection that is 12' long (birds eye view) Set up a Linear Condition with a slope of 4:12 (for every 12 feet of run, rise is four feet) Set the Page Scale to 1"=1', just to make things easier to follow. The quantity results in On-Screen Takeoff do not account for waste, overages, coverage, or any other industry-specific calculations, they provide the exact measurements of the sloped linear object (adjustments to those calculated quantities can be made in your Estimating product). On-Screen Takeoff does not use conversion ratios to calculate sloped linear objects, all calculations use standard mathematical equations. Rather than try to accommodate different conversion factors (which could cause a customer to see a result he or she is not expecting), On-Screen Takeoff uses pure math to calculate the sloped linear's length. Traditionally, estimators would use conversion charts to convert a plan measurement to the slope measurement. Some of our customers have questions about how On-Screen Takeoff calculates linear measurements when the linear Condition is set to slope, such as timbers/framing on a roof.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |