ow to Choose the Right Line Weights for Technical Drawings on a Plotter

Technical drawings need the right line weights to be precise and clear in professional designs. Effective communication hinges on these seemingly small details. Technical drawing line weights refer to the thickness of the lines in the drawings, clearly indicating details like dimensions and boundaries.

Knowing how to print line weights correctly is essential in architecture, engineering, construction, and other industries. This guide will review how to choose the correct line weights for blueprints and other drawings, giving you the high-quality results you need with every print.

Technical drawing line weights are notational devices communicating certain information about designs using various line thicknesses.

Light line weights typically indicate textures, patterns, or other surface lines, medium weights indicate intersections and corners, and heavy weights indicate spatial edges.

Line weights must be correct and clear to prevent technical drawings from being misread. Technical drawings are essential communication tools across a range of disciplines, making them a significant contributor to many projects.

One main purpose of line weights in blueprints is to maintain clear and readable images. These lines indicate the location, proximity, and depth of various elements, helping engineers, architects, and others understand a building's requirements.

You must also know how to print line weights for technical drawings to maintain compliance with industry standards. For instance, the American Society of Mechanical Engineers (ASME) recommends that “thin” lines be 0.3mm, while “thick” lines are 0.6mm.

In learning how to print line weights for plotting projects, here are a few key considerations:

First, think about the required drawing scale and other project requirements. For example, in AutoCAD projects, the thicker a line weight is, the more prominent or heavier the corresponding object. Furthermore, consider the ratio of the drawing size to the represented object, which could indicate the paper size you need to accommodate the project and the amount of ink you'll need.

Additionally, your plotter should be able to handle your plans down to the specific line weight with consistent quality and efficiency. Plotters must utilise the latest ink technologies and use precise printing techniques to maintain accuracy with every print.

To successfully print technical drawing line weights with your plotter printer, follow these tips:

• Correctly format the line weight scale with your design software.
• Set your print quality settings to the highest required.
• Regularly clean your printer, including rollers.
• Ensure your print scale matches your design scale.

Here are a couple of essential steps to take when printing technical drawing line weights:

When using computer-aided design (CAD) or other design software, you'll likely need to assign different line weights to each layer within their respective layer properties. A plot styles table will also dictate how each line weight will print based on your specific printer and print settings.

There are a few crucial mistakes to avoid when printing technical drawing line weights, including:

• Neglecting to use a consistent hierarchy for line weights from thin to thick. Make sure every line weight is the right measurement across designs and prints, with consistent scaling.
• Making line weights too thin to the point where the printer is unable to print them. To avoid this, determine how small your plotter's lines can get. Do this by testing different line weights until the line is no longer visible on the page.
• Using the wrong paper type. Select the paper type that works best for your design and inks. Also, your plotter should be compatible with the required paper type and size.
• Incorrect colour profiles. All colours should be consistent and accurately translated from the design to the print, which you can achieve by using the right colour model for the design and testing your prints.
• Failing to adjust line weights following the designated print scale. Consider the print scale before committing to line weights for printing.

Now, let's review some best practices for printing technical drawing line weights for different applications.

Most architectural drawings only need around four to five line weights to designate elements and objects.

The following are some of the more common line weights for drawings, from thinnest to thickest:

• 0.18mm
• 0.25mm
• 0.35mm
• 0.5mm
• 0.7mm

Line weights for engineering plans will largely depend on industry standards, such as ASME and international standards. In the Philippines, most engineering practices typically use a 2:1 ratio for line weights. Also, in many cases, thin lines in the engineering industry fall around 0.3mm, while thick lines are about 0.6mm.

In any case, it's best to be consistent and use a hierarchy that aligns with other industry professionals' standards, which will help maintain accuracy, precision, and effective communication across teams.

To get the best results from your engineering plans, architectural drawings, or other technical large format prints, it's best to implement a high-quality large format printer or plotter that meets your unique needs. HP offers plenty of reliable options that can meet the needs of nearly any professional, helping you maintain accurate and consistent line weights along with all other aspects of your drawings.

Be sure to select a printer that meets your unique requirements. The ideal solution will be able to maintain consistent efficiency and quality across all projects, whether small or large in volume. HP plotters are also very easy to use, with intuitive interfaces and innovative technologies that can help you get the best results with every project.

To learn more about our printers' capabilities and find a cost-effective product for your application, take a look at our DesignJet promotions.