How to print to scale on google sketchup mac
Parallel Projection is the default, but it is a good idea to make sure that Parallel Projection is checked. Once your model is set to the desired perspective then you are ready to set the print parameters. The important part on this is the "Print Size" option box. Three things in that box must be set properly for your drawing to print the way you want it to. When you click "OK" you will see something that looks like this photo. This is the Print Preview Screen, but it might not look quite the way you expected it to. The truth is that SketchUp is not very efficient with paper usage.
While developing this article and video I printed this same model from the same perspective several times. Sometimes it took nine sheets of paper, sometimes it took twelve sheets of paper, and sometimes it only needed six. Regardless, the actual image was always dead on accurate and I put all the blank pages back into my printer.
The easiest and simplest thing to do now is just hit the print button! If you look closely at the print you will notice that there is a small margin between the end of the printed lines and the edge of the paper. This margin makes it very difficult to precisely align the pages together. It is much easier to assemble if you remove the margin first. I remove the margin by cutting right up to the end of the printed lines with a pair of scissors. The photo with the very large gaps between the sheets shows how the pages looked immediately after I trimmed the margin.
The last photo shows how the print looked after trimmed the margins and taped the pieces together. Thanks for taking the time to read until the end of my Instructable. Please leave a comment and let me know if you have any ideas on how I could improve. I would also love to hear if you have any cool tricks for SketchUp! I wonder if you have any insight on why the parameters of the print preview page are blank for me.
I suspect several reasons: 1. I am use the Sketchup Make for free and this is just their way of forcing me to buy the Pro; 2. My printer is not set up; 3. In the next chapter, we'll help you decide which version of SketchUp is best for your specific needs. SketchUp Pro has all of the tools and features that you're going to need to do your job.
Google SketchUp 8 For Dummies
It covers the 10 SketchUp Pro features that design professionals depend on to get the job done. If you see a feature you need, then you know you need SketchUp Pro. Want to know what extensions you should install? Tell us what you're using SketchUp for and we'll make some recommendations. For advice about how to learn SketchUp, jump to Chapter 3. First, it's important to note that SketchUp Pro works on desktop or laptop computers that are running either Windows or MacOS operating systems. Whether you have a desktop or laptop computer, here are the recommended specifications for running SketchUp Pro:.
If your computer doesn't meet the recommended specifications above, check the SketchUp website to see if it meets their minimum requirements. If you need any help installing or authorizing SketchUp Pro, go here. It has a feature set designed to meet their needs e. A major difference between Shop and Pro is that SketchUp Shop is a web application that you run in a browser while connected to the Internet whereas SketchUp Pro is a downloadable application that you can use offline. Here's a list:. No, not for SketchUp Shop. However, you do have 14 days from the date of purchase to request a full refund for your SketchUp Shop subscription.
You'll lack some features that come with SketchUp Shop, but can get an idea of what it feels like to create a 3D model of your project. Check the table below to see the feature differences. First, it's important to note that SketchUp Shop is a web application that runs on most internet-connected computers via a recommended browser e. We can help you figure out which version of SketchUp you need.
Just click here for help. We've all heard somebody say that SketchUp is ridiculously easy to learn.
SketchUp - Wikipedia
The truth is that if you plan to use SketchUp professionally, you should plan to invest some time and money into learning how to do things the right way. We created a free SketchUp tutorial that we recommend you watch before you get started with SketchUp Pro. The video tutorial covers 5 critical concepts that self taught users either don't know or have had to learn the hard way.
Before we do that, we want to share a story that one of our former students, a Residential Architect named Tom, told us before he took a class with us:. Everybody told me that SketchUp was easy to learn. But the closer I got to completing the model of my house, the more often I got stuck and had to search the Internet for help. Eventually though, I got to a point where I decided my SketchUp model was done and felt good about what I had accomplished. I was on a deadline, everything in the model needed to be right, and when design changes came up, I needed to be able to make them.
I was in way over my head. You need take a well-structured class with a curriculum designed to give you a comprehensive introduction to SketchUp. It's in our Video Course Library, along with other courses on more advanced professional topics. We've just broken them down into bite-sized video tutorials that provide a more convenient and economical way for professionals to take our classes. You can find out more about our Video Course Library here.
Now, if you're the kind of person that needs to be sitting in a classroom with an instructor, tell us where you're located and we'll see if we can make a recommendation. We'd recommend starting with the free tutorials on SketchUp's website. You might also want to check out YouTube. Just be careful: When you're new to SketchUp, it's hard to tell the difference between a good tutorial and one that teaches you the wrong way to do something. SketchUp has an Import feature that allows you to bring these sorts of reference files right into your 3D modeling environment.
Bring-in a site plan or a floor plan and build your SketchUp model right on top of it. Add images that you can trace over or just use as a reference right inside your 3D model. Or work with folks using other CAD programs by importing files they created in another application. Also, SketchUp knows exactly where the sun will be shining for any date and time given the location you choose. Beyond knowing how your 3D model will situate into the environment around it, it can be important to know what will be in sunlight or in shadows for a given date and time.
And then you can make design decisions that will provide more shade, or let more sunlight in. Want to see how sunlight and shadows will track across the environment over the course of the day or year? You can create shadow studies that animate the path of the shadows from morning to evening.
You probably have an app on your phone that comes with photo filters, where it takes just a single tap to give your picture a whole new look and feel.
Print Full-size Patterns from SketchUp
You can pick from a gallery of pre-made Styles. Not when you can grab 3D models of almost anything you could possibly need from the 3D Warehouse. You can even search for brand names - many companies offer their entire product catalog, and other SketchUp users contribute real-world products as well. To start browsing and downloading 3D models, you can visit the 3D Warehouse website , or access it directly inside SketchUp:.
One of the things that makes SketchUp so popular is that it works well with other tools you or your colleagues are already using. Specifically, SketchUp can export many different file types that can be used by other applications. So an architect can export a. If you need to get your SketchUp model into another program, this feature will be especially important for you. You can add Extensions that do simple, useful things like round or bevel corners. Or you can find ones that do harder things like create complex, organic shapes. Or even ones that analyze the energy performance of your model.
One of the most popular kinds of animations to create is a walking tour through each room in a building, guiding a client to imagine what it would feel like to walk through the real space. But some SketchUp users really push the boundaries, creating animations that show changes in the model - for example, showing the phases of construction over time.
And whether you need to create a dimensioned floor plan, a series of labeled diagrams and details, or a full set of detailed construction documents - LayOut is the tool for the job. And in LayOut, you also have tools for creating custom graphics, importing photos, creating title blocks Note: If you want to learn more about using LayOut to create detailed construction documents, jump to Chapter 6. LayOut is a powerful application in-and-of-itself and we highly recommend that you invest time into learning the fundamentals well. With the Sandbox tools, you can create 3D terrain from scratch or generate it from imported topography files.
But they can also be used to create other organic or undulating surfaces, making them useful to SketchUp users across most industries. A solid model is commonly described as a watertight model. This sort of thing is important when you want to create a 3D model that can be 3D printed. Enter the Solid Tools: They help you take existing solids and combine them to create more complicated solid models. Or you can take an object made of several parts and combine them into a single, solid outer shell for 3D printing. In SketchUp, objects that you might use more than once, in the same 3D model or in a future project, are typically turned into Components.
The types of objects that become components might even represent real-world products - things like cabinets, fencing or sliding glass doors. In the real world, those sorts of products usually come in a variety of configurations of color, shape, size, material and more. But SketchUp components can only represent one configuration. At the same time, it can also be programmed to show different color and material options, different door and drawer configurations and even different styles.
You also can program behaviors that tell the doors to swing open or the drawers to open when clicked. And you can add information like the product name, price, description, links to the product website and more. A fence might be programmed so that when someone uses the Scale tool to stretch it across the yard, it automatically adds extra slats and posts rather than warping. And a Dynamic Component of a sliding glass door system might let the user enter a custom width and height that will dynamically change the component to fit the opening in their house model.
Many people and companies have uploaded their Dynamic Component models to the 3D Warehouse. You can download them into SketchUp Pro just like you would with a regular component, then use the Dynamic Component tools to interact with and configure them. These tools allow you to specify the exact camera type you want to look through - say a 35mm digital camera for example. Then you see black bars that indicate which parts of your model will be in the shot given the position of your camera. And they place a physical camera in your model so you can actually see where the camera would sit.
You can take a photo of the existing condition and then use it to help you overlay your 3D model into the context of the environment. You take a picture of the building, then use Match Photo to set-up the photo so you can quickly build a 3D replica. SketchUp is a tool for creating geometry. We use SketchUp to create geometry that represents real-world stuff. And naturally, we desperately want SketchUp to understand what our 3D models represent!
It thinks the dresser is just a bunch of geometry. Then, you can generate a report of the objects in your model and it will include the information you added.
How To Print At Actual Size (1:1) In SketchUp
Really, how you use these features will depend heavily on the type of work you do. So long as you input the right kind of information into your model, you can output reports that help you get the job done. SketchUp comes preloaded with the IFC 2x3 schema. You could create a Furniture schema that allowed you to standardize the tagging of objects. When you've finished adding data to your SketchUp model, you can create a report template and generate a. It will contain all of the information you added, plus other things SketchUp already knows about your model such as quantity, length, volume and more.
If they have the SketchUp Viewer app , they can take the controls and orbit around, walk through or fly over your model anyway they like. Email your model to a client who has the SketchUp Viewer app installed and they can navigate around your design on their own time. If you own the Hololens device , you can purchase the SketchUp Viewer app for Hololens and use them together to step into an Augmented Reality AR version of your SketchUp model and walk through it at scale. As you can probably tell by now, SketchUp is a very powerful tool that can do a number of amazing things.
For starters, you can program SketchUp to automate the kinds of tasks where you find yourself clicking hundreds of times in a fairly repeatable pattern. For example, a project might require you to Push Pull thousands of shapes to various, specific sizes. A little bit of Ruby code could save a ton of time. For example, an contractor might want to program SketchUp to push bill of materials information into another project management software.
Finally, you can write Ruby code to help you produce "computational geometry" or 3D shapes and patterns that are nearly impossible to create by hand. For example, an Architect might want to create and use mathmatecally derived patterns in their design. Rather than figure out how to create these types of complex patterns by hand, it's far easier to write Ruby code that uses math functions to automatically create perfect patterns.
If writing custom Ruby scripts is your kinda thing, be sure to take a look at the SketchUp Ruby API documentation and this list of helpful learning resources. This chapter will give you a clear idea of how rendering in SketchUp works, will help you choose the right rendering extension, and includes some helpful advice about an important step in the rendering process that people often miss.
After you watch the video, you'll be ready to give rendering a try but you'll be faced with a challenging decision. To start, you have 30 different extensions to choose from. But since you're just getting started with rendering, you won't know which features are important. And to top it off, you won't be able to easily evaluate the kinds of factors that will make a big differences to you.
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Like how easy an extension is to learn So how do you choose?!? Once you've figured out which extension you're going to use, you'll be ready to give rendering a try. We created a free SketchUp tutorial that you should watch before you start rendering. We talk specifically about V-Ray for SketchUp in the video but it applies to all rendering extensions. Watch it and you'll learn 5 things to do in this step to avoid getting underwhelming results.
As you set out to learn your rendering extension, I want to share what our students say they wished they knew when they first learned how to render:. Also shown below is a template used to shape the headboard itself.
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I also use SketchUp to create shop drawings. Because I print off fully dimensioned drawings for all milled pieces, there is usually no need to print my drawings to a predetermined scale, I just read the dimension off the drawing. However, there are times when a scaled drawing is necessary. Printing to scale in SketchUp is not difficult; you can print at a scale of or any other scale you desire by following these five steps. Select Parallel Projection on the Camera menu.
Adjust the window and model size to minimize the amount of white space around the model. This is to compensate for what I consider a software bug, and is the toughest and most critical part of the process. Choose print. Steps One and Two are very important. SketchUp does not permit printing to scale using either of the other two Perspective views because it is impossible for perspective views to yield a scaled drawing. Step three is required because there is a printing behavior that I consider a software bug when it comes to printing to scale.
If you are going to print to any scale, including , first resize you drawing window so there is a minimum amount of unused drawing area on all sides of your drawing. The trick here is to estimate and fix in your head, the aspect ratio of the model you want to print. Next shape the window area to the same aspect ratio. Then use a zoom tool to center and enlarge the model to use all the window area available. You may have to iterate these last three steps to get the optimum setting.
Try to make your window as large as possible while leaving almost no unused white space on either side, top or bottom of the window. The image on the previous page shows a case where there is too much white space on the right and left, but about just enough on the top and bottom. This is because the aspect ratio of the model is approximately 1. The aspect ration of the window has been adjusted in the image at right to get a near optimum fit. Notice how little white exists around the periphery of the model.
We have completed steps 1 — 3 above. Now we have to decide what we want to do next. If this printout is to be used as a template then we need to use a scale of scale. However, this model printout is not likely to be used as a template, but likely an elevation view of the hutch; which means it will be printed to scale on one page. The question is what scale? The scale can be determined analytically or empirically. Analytically we start with the size of page we are going to use and then subtract the unprintable margin dimension from each edge.
Printing the page in portrait view is the most efficient selection for this case. We must use the same scale factor for both dimensions and so we need to use the larger one.
However, 8. Either will work in this case, but is probably more useable in terms of making measurements on the printout and calculating the actual dimension. The image at left shows the setup for this case. There are four Scale inputs which the user need to fill in. This will cause SketchUp to calculate the page dimensions required to print your model.
When this happens the numbers in the Scale input boxes may change slightly; in this case 10 was changed to It might just as well have been changed to 9. This has to do with the precision the software is using to make calculations. Hit OK and you should see a Print Preview shown at right. Choose Print to print the model to scale. You can empirically determine the scale required to fit the model on one page. These parameters are a guess based on my knowledge of the model.
Place your cursor in both Page size input boxes to instruct SketchUp to calculate the page size. If your first guess resulted in only one page try decreasing it until the number of pages is greater than one. Use this iterative process to choose a scale you are happy with.
Book traversal links for Print to Scale
Printing to a scale of is the same for steps 1 — 3. After that you enter 1 and the same units for both Scale inputs. Then you print all the pages required. Put the blank sheets back in the printer tray and assemble the remaining pages as discussed earlier. Name required. E-Mail will not be published required. Did you shrink down the white space in the SketchUp window so that there was minimal space on either side of your cube.
And is your printer margins set to something like 0. If you are still having problems send me your. My email address is jpz srww. I tried everything I thought prior to reading your blog and searched sketchup help could not find how to print model parts. Your blog is thorough and clear and I was then able to figure out how to print on various size papers more easily. Thanks for the kind words. Actually it is on my to do list to update it for SketchUp 7. If you have any suggestions please pass them along. Thanks again. You are awesome…this is certainly a glitch, window size should not have to be altered to print a scaled drawing.
Thank you thank you thank you. You are welcome.
It is clearly a design flaw and it has been in SketchUp for some time. What is the best way to print out a dimensioned drawing of each component? For example, I have a leg component that it used four times in the drawing.