to work on a correctly set up drawing so that your screen acts like paper, only smarter. When drawing on real paper, you constantly have to translate between units on the paper and the real-life units of the object you’re drawing. But when drawing in AutoCAD, you can draw directly in real-life units — feet and inches, millimeters, or whatever you typically use on your projects. AutoCAD can then calculate distances and dimensions for you and add them to the drawing. You can make the mouse pointer jump directly to hot spots on-screen, and a visible, resizable grid gives you a better sense of the scale of your drawing. However, this smart paper function works well only if you tell AutoCAD some crucial parameters for your specific drawing. AutoCAD can’t really do its job until you tell it how to work.
? Dead-trees paper: Creating a great drawing on-screen that doesn’t fit well on paper is all too easy. After you finish creating your drawing on the smart paper AutoCAD provides on-screen, you usually must then plot it on the good, old-fashioned paper that people have used for thousands of years. At that point, you must deal with the fact that people like to use certain standard paper sizes and drawing scales. (Most people also like everything to fit neatly on one sheet of paper.) If you set up AutoCAD correctly, good plotting results automatically; if not, plotting time can become one colossal hassle.
? It ain’t easy: AutoCAD provides templates and Setup Wizards for you, but the templates don’t work well unless you understand them, and some of the wizards don’t work well even if you do understand them. This deficiency is one of the major weaknesses in AutoCAD. You must figure out on your own how to make the program work right. If you just plunge in without carefully setting it up, your drawing and printing efforts are likely to wind up a real mess.
Fortunately, setting up AutoCAD correctly is a bit like cooking a souffle: Although the steps for performing your setup are complex, you can master them with attention and practice. Even more fortunately, this chapter provides a detailed and field-tested recipe.
In other Windows programs, you can use any scaling factor you want to squeeze content onto paper. You’ve probably printed an Excel spreadsheet or Web page at some odd scaling factor such as 82.5 percent of full size, because that’s what it took to squeeze the content onto a single sheet of paper while keeping the text as large as possible.
In drafting, your printout needs to use a specific, widely accepted scaling factor, such as ?”=1’–0”, to be useful and understandable to others. But the AutoCAD screen does not automatically enforce any one scaling factor or paper size. If you just start drawing stuff on the AutoCAD screen to fit your immediate needs, it’s unlikely that the final result will fit neatly on a piece of paper at a desirable scale.
This chapter tells you how to start your drawing in such a way that you’ll like how it ends up. With practice, this kind of approach will become second nature.
While you’re working in AutoCAD, always keep in mind what your final output should look like on real paper. Even your first printed drawings should look just like hand-drawn ones — only without all those eraser smudges. Before you start the drawing setup process, you need to make decisions about your new drawing. These three questions are absolutely critical. If you don’t answer them, or you answer them wrong, you’ll probably need to do lots of reworking of the drawing later:
? What drawing units will you use?
? At what scale — or scales — will you plot it?
? On what size paper does it need to fit?
In some cases, you can defer answering one additional question, but it’s usually better to deal with it up front: What kind of border or title block does your drawing require?
If you’re in a hurry, it’s tempting to find an existing drawing that was set up for the drawing scale and paper size that you want to use, make a copy of that DWG file, erase the objects, and start drawing. Use this approach with care, though. When you start from another drawing, you inherit any setup mistakes in that drawing. Also, drawings that were created in much older versions of AutoCAD may not take advantage of current program features and CAD practices. If you can find a suitable drawing that was set up in a recent version of AutoCAD by an experienced person who is conscientious about doing setup right, consider using it. Otherwise, you’re better off setting up a new drawing from scratch.
AutoCAD is extremely flexible about drawing units; it lets you have them
During drawing setup, you choose two units characteristics: a
After you specify a type of unit, you draw things on-screen full size in those units just as though you were laying them out on the construction site or in the machine shop. You draw an 8-foot-high line, for example, to indicate the height of a wall and an 8-inch-high line to indicate the cutout for a doggie door (for a Dachshund, naturally). The on-screen line may actually be only 2 inches long at a particular zoom resolution, but AutoCAD stores the length as 8 feet. This way of working is easy and natural for most people for whom CAD is their first drafting experience, but it seems weird to people who’ve done a lot of manual drafting. If you’re in the latter category, don’t worry; you’ll soon get the hang of it.
Figure 3-1: The Drawing Units dialog box.
CAD users employ two different ways of talking about a drawing’s intended plot scale: drawing scale and drawing scale factor.
Those of you who did your math homework in junior high will realize that drawing scale and drawing scale factor are two interchangeable ways of describing the same relationship. The drawing scale factor is the multiplier that converts the first number in the drawing scale into the second number.
When you use dash-dot linetypes (Chapter 4) and hatching (Chapter 11) in a drawing, AutoCAD imposes one additional units consideration — whether the drawing uses an imperial (inches, feet, miles, and so on) or metric (millimeters, meters, kilometers, and so on) system of units. The MEASUREMENT system variable controls whether the linetype and hatch patterns that AutoCAD lists for you to choose from are scaled with inches or millimeters in mind as the plotting units. MEASUREMENT=0 means inches (that is, an imperial
