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Using Tool Settings and Linear Elements

December 6, 2009 in AutoCAD, CAD, Revit

place circle settings We will start discussing details on our drawing tools. We are going to discuss some basic drawing tools, and how to use it with tool settings. The basic elements are linear, circle, and polygon elements.

Using tool settings

We use tool settings to change the element parameters. Tool settings will show you all available parameter for active tool. When you activate place circle, it will show you parameters for circle. When you activate place line, it will show you all parameters for line. Not just for drawing, it’s also used for modify and view navigation tools.
Activate place circle and take a look at the tool settings for circle. You can see that there is a diameter parameter. But if you have been playing with MicroStation tools for a while, you’ll find out that you don’t need to input diameter when placing circle. You can simply use AccuDraw to place two data points. So how can tool settings and AccuDraw can work together?
They talk to each other. Let’s try to activate place circle from navigation bar. Place a data point anywhere on your screen as the circle center point. Now move your pointer. As we have discussed before, the value in AccuDraw will be updated instantly. You can move your pointer, type the radius, and click data point to place the circle. But don’t define the second data point yet! See your tool settings. The diameter value is also changing.
Click reset to cancel this circle placement. Now, with the place circle still active, lock the diameter value in your tool settings, and type the diameter value.
diameter
Move your pointer to drawing area. Now you can see a circle attached to your pointer! If you defined the diameter (or radius) before defining data point, you can click only once to place the circle. Very useful if you have to place many circle with the same radius.

Linear Elements

We will discuss more about circle later. Now, let’s discuss about linear elements.
linear elements

Place SmartLine

We’ve been using SmartLine a couple of times. It’s named SmartLine, but we can place several elements type just using this tool. The elements can be:

  • Line, if it only has one line segment
  • Arc, if it only has one arc segment
  • Line string, if it has several line segments
  • Complex chain, if it has several line and arc segments
  • Complex shape, if it’s a closed element

A SmartLine can have arc and lines. You can change the segment type from line to arc and vice versa during placing the element. You can also change the vertex type to rounded or chamfered.
place smartline tool settings

A little tip: You can quickly change the top most parameter in tool settings by pressing [~] in your keyboard. See the animation for creating the profile below.

SmartLine Exercise
You can download an old animation here. They will show you how those profile were created. I created it using a free recorder when I still use V8 XM. Yes, it’s executable files, they have their own player.

Place Line

Another linear element that we can consider as basic is ‘place element’. You only can place a simple line using this tool. Every line you created only has one segment. You create four line segments, then it will be four separate lines.
Let’s take a look at the tool settings. There are only two parameters: length and angle. Try to lock the value for these two before you place your line.
place line tool settings
What happen? You only need to place one data point, and it already has the length and angle you wanted!

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Source: CAD Notes – Using Tool Settings and Linear Elements
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Rendering Your Model

December 6, 2009 in AutoCAD, CAD, Revit

rendering After we have finished creating a 3D model, then it is natural if we need to represent it in a nice photorealistic rendering image. We can do that in Revit, and we don’t need to be a master to produce a nice rendered image. Revit is included with mental ray rendering. It might not be the same with other rendering application you know. It’s much simpler. It is simplified for architects.

We are doing to render some of our camera view. If you haven’t created a camera, you can place them now. It can be interior or exterior view.

SETTING UP YOUR LIGHTING

First, we are going to define our project location and time. In your ribbon, open manage tab.
In project settings panel, click settings>sun and shadow settings. There are 3 tabs in this dialog: still, single-day, and multi-day. We will only use ‘still’ for now. The others are used for solar study purpose. You can see the solar light during the whole day or even on multi day.
There are several pre-set settings in this dialog. Like we always do, create a duplicate before we start messing with these properties.
sun and shadow settings
We can set the sun light by location and time. If you want to see how your model will looks like at a location and at a defined time, you can define it here.
However, sometimes we just want our model to look nice and don’t care about the real lighting. You can set the sun light angle manually by changing the settings to ‘directly’. You can set the azimuth and altitude directly by this method.
You can open a floor plan view and review your sun light direction and angle before you actually start rendering the model.
adjusting sun light direction manually
Adjust the date and time (or azimuth and altitude if you define it directly) and click apply to see the effect. After you satisfied with the result, click OK.

RENDERING THE MODEL

After we finish with the model and setup the lighting, then we can start rendering our model.
Click ‘show rendering dialog’ in your view control.
open revit rendering dialog
There are not many settings available here. It might be simple, but it still powerful. You can get good result without having to set too many properties.
First, let’s take a look to lighting group. You can set the lighting to exterior or interior. With or without sun, and with or without artificial lights. If you render interior view, choose one of interior options available. The lights effect between interior and exterior settings will be different. There are not many options available in Revit rendering. It is simplified so you don’t need to worry to set many rendering properties. However, if you have been mastering rendering, it may not satisfy you. You can export the model to fbx format and render it in 3ds Max.
If you placed lighting fixtures component before, you can see how the artificial lights affect your model. Revit uses IES, so basically the effect is pretty close to real lights. But I must warn you: if you have many artificial lights, it would take a very long time to finish the rendering. I suggest you to try with sun only first.
rendering dialog
It is simplified for architects, so you don’t have to take care a lot of properties Now, let’s try with draft quality first. Click render. Wait until you see the rendering result. You may want to change the sun angle, some materials are not looking as expected, or we may think we need to add more objects.
After you feel your rendering is good enough, you can try to render it in higher quality.

CHANGING OBJECTS MATERIALS

Do you remember when we created our own wall type? We set the wall material for interior and exterior side. But we haven’t set any materials for other objects.
After you render it in low quality, you may see that some objects don’t have a nice materials attached with them. You can change the materials in type properties. Select the object you want to change the materials, and click on type element properties on your contextual tab, select type properties.
changing object material

Tips: Remember, changing the type properties will change the render material for all walls that use the same type. If you only want to change the rendering material for several objects only, create a duplicate first. Then change the objects type to the new type.

FINE TUNING THE RENDERING RESULT

After we render the model in high or best quality, sometimes we don’t feel the exposure is not good enough. It can be too bright or too dark. We can adjust the render result to be brighter or warmer.
Let’s compare these images. The first one is the render result using default exposure value. I changed the exposure to get better result.
Please note that this is really depends on your monitor. The original rendered image looks too bright in my LCD display, but looks fine in my CRT monitor. If you want to display it for presentation, you may want to try how it looks in your projector first. If you want to print it, some image editing software provides monitor profiles setup utility. So you can get the same result in your monitor and your printer. But if you have printed before and the result in your monitor and your printer is just the same, then you don’t have to worry about it.
The reason I mention this, is because you read this on your monitor. You may see differently with what the others see.
original rendered image
Original rendered image with default exposure. Looks too bright in my laptop, but looks fine in my CRT monitor.
after exposure adjustment
After exposure adjustment. It looks too dark in my CRT monitor, but looks great in my laptop display. How does it look in your monitor?
I would like to know, what type of display do you use? Which one do you see the best: using default exposure or adjusted exposure? I need that information, so I will use most of monitor you use when I write about rendering again.

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Source: CAD Notes – Rendering Your Model
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AutoCAD Performs Incorrect Calculation

December 6, 2009 in AutoCAD, CAD, Revit

quickcalc
My friend notify me about this bug a couple days ago. He mention that when we use the QUICKCALC (or CAL) command, AutoCAD returns incorrect value. This is a bug.

Try to calculate 750-693. You may see it returns incorrect value. I got 56. There are some more incorrect results.
Yesterday, VMichl notify me that this issue has been fixed in AutoCAD 2010 update 1.
Snipped from readme:

The following defects have been fixed:
(One of them is:)
QUICKCALC
Calculations performed by the QUICKCALC command may be incorrect.

If you have the same problem, download the update 1 here. Install it, and see if it’s fixed.

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Source: CAD Notes – AutoCAD Performs Incorrect Calculation
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How to: Label Coordinate in AutoCAD

November 10, 2009 in AutoCAD, CAD, Revit

tag_collage_5

I had this question several times: can we automatically label our coordinate in AutoCAD? If you are Civil3D user, then you most likely will suggest them to use C3D. But can AutoCAD actually do it? YES!

I saw many people use AutoLISP to do that task. It works great. But sometimes you may want to have your own labeling symbol and format. So, why not using field?


Creating a reference object

First, we need to create an object as a reference point. It can be a point, a circle, or any symbol you want it to appear. I use this symbol.

reference object

I prefer to use point or circle. We can easily use the point position or circle center.

Creating an Attribute Definition

After we have the reference object, we need to define an attribute definition. You can activate it by clicking it on your ribbon, home tab, block panel.

attdef

Or simply type ATTDEF then [enter].

Let’s define our attribute. Give the attribute tag, prompt like below. In default field, type ‘X Y = ‘ then click insert field.

define attribute

Change the field category to objects, and in field names, select object. Click select object button to define the object type. Select the circle, don’t select anything else!

field category

AutoCAD will list all available properties. Select center (or if you use point, select position). Because I only use it in 2D drawings, I don’t need it to display Z value. I turn it off. Change the format if necessary.Click OK.

define property

Click OK again to close the define attribute dialog box. Place your attribute definition in desired location.

Optional: Define Adjustable Leader

If you don’t want to have leader in your coordinate label, you can skip this step.

I add a line that will be used as leader.

leader line 

Create the Block

Now we can define the block. Click create from ribbon, block panel.

create block

Select all the objects, and define the center as insertion point. Activate Open in Block Editor on lower left of this dialog. We are going to add some ‘dynamic’ functionality. Click OK.

AutoCAD will show the edit attribute dialog. We don’t want to modify it as it is updated automatically. Just click OK.

Add the Control Grip

What we want to do is adding a grip control, so we can modify the text (and optionally leader) placement. In block authoring palette, activate the point parameter.

point parameter

Now place it where you want the grip appear.

point parameter placement

Now activate the stretch action.

Select the point parameter, create the stretch frame like below, and select the line and attribute definition. [Enter] to end it.

cross polygon

Now we are done! Save this block and close block editor.

Using the Label

How we can use the label? Just insert the block, and click on the point you want to show the coordinate. After you have one of the block in your drawing, you can copy it and place it on several points you wanted.

Because we add a control grip, we can move the text and leader position!

control grip

Becaus
e we use field, if you move your points, the value will be automatically updated! Very cool, isn’t it?

Why Attribute Definition? Why not Just Use Text?

You might ask this: why not just use text with field? I know we can insert field within text, single or multiline. But it doesn’t work. You may want to try it by yourself.

Apparently the field will consider the reference point always at 0,0,0 when you create a block. It works if you don’t create a block from them, but I believe you want to use it as reusable content, aren’t you?

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Source: CAD Notes – How to: Label Coordinate in AutoCAD
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Playing With Revit Camera

November 10, 2009 in AutoCAD, CAD, Revit

digital_camera

After creating your 3D model in Revit, of course you want to show off your model. Why not? It’s easy. You may already have several cameras in your project right now!

In this post, we will discuss about placing and fine tuning our camera. And we will also discuss how to create a 3D section by controlling the section box.


Placing Camera

You can place camera by activating it from your ribbon, View tab, Create panel. Click the small arrow near the 3D view, and click camera button on the drop down menu.

camera

Then you can define the camera by two clicks: the camera position and target position.

After you define the camera, Revit will automatically open a new view. This view will show you what your camera see. Mostly we need to modify the view. Make sure modify is active, click the view boundary. You will see the blue grips on the rectangle sides. You can resize the boundary by dragging the grip.

You can fine tune moving your camera around by holding [shift] + mid button.

Bird Eye Elevation View

That’s how we can place the camera. Pretty easy, I guess. But sometimes we want to get the ‘wow effect’ by placing the camera in high or low angle. Try to place another camera, but before you define the position, look at the option bar. We can define the camera height. By default the offset is 1750mm (for metric) above active level.

camera placement option

So if we want to see from high angle, we can set the from level to the highest floor level. And high value in offset field.

Moving Camera Position and Target

We can move the camera position by using [shift] + mid button. But that’s not easy. An easier way is dragging the camera position and target. We can open 3 views (plan, elevation, and the 3D perspective) and work on those views. Click tile in Views tab, Windows panel.

tile views

Now find your 3D perspective view in your project browser. Right click, and select show camera from context menu. Now you can see your camera in plan and elevation view.

tiled views

You can move your camera and target by clicking and dragging it. Vertically on your elevation view, and horizontally on your plan view.

move camera move target

Now, can you create a low angle camera?

Tips: You may need to turn off crop view if your camera is outside the clipping boundary

Creating 3D Section

Now create a new 3D view. It can be perspective or standard 3D view. Right click anywhere inside the view, and click view properties.

Find the section box option under ‘extents’ section. Activate it.

You will see a the section box. Resize it until cut your model. Click and drag the arrow.

 

Here is mine.

3D section box

And this stair 3D section.

stair section 

Can we render the 3D section? Why not!

rendered stair

If you decide to play around with perspective view, it might be quite difficult to control. You better try with parallel projection first!

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Source: CAD Notes – Playing With Revit Camera
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The Future of CAD with the World of BIM

November 7, 2009 in AutoCAD, CAD, Revit

As one of the fastest moving initiatives in the commercial industry, Building Information Modeling (BIM) is an innovative approach to integrating the design, construction and management of a product.

  • Recent studies revealed:
    Over 50% of architects, engineers, contractors and owners are utilizing BIM at moderate levels or higher.
  • Architects are the heaviest users of BIM with 43% using it on more than 60% of their projects (that number is expected to grow throughout 2009).
  • 77% of BIM users are involved in at least a moderate number of green projects.
  • Half of the industry is using BIM or BIM-related tools today — a 75% increase in usage over the past two years.
  • 42% of non-users believe that BIM will be highly or very highly important to the industry in five years.
  • One in five users who formally measure ROI see returns above 50%, while 9% of users who
  • formally measure ROI see returns above 100%.

BIM (Building Information Modeling) is changing the world and has also created a burden for manufacturers to supply data to the architects in a different format. This does not mean manufacturers need to forget about the simpler CAD drawings they have been supplying in the past. There will always be a need for these drawings. Actually, in the BIM format, a manufacturer should be supplying a link to their CAD file (shop drawing) as a way of providing the information part of the ‘I’ in BIM

As a manufacturer you may be asking, ‘Why do we need to provide BIM data?’ The answer is simple, the world of architecture and design is changing and it is changing fast. Right now we have two states, Wisconsin and Texas, mandating that all their government projects must be a BIM format. Many architects are stating that your product(s) will not get specified unless you provide BIM data. I will also add that a properly developed BIM model will put a manufacturer’s product specifications in front of the architect, which in turn, greatly increases the chance of getting that product specified.

However – not all projects will be in BIM. You will have some architects that will not move to the BIM format, projects that will not demand it and there are all of the existing buildings that may have expansion plans and already have documentation in CAD formats. With the understanding that BIM is a new format that is here to stay, it’s important to acknowledge the need to provide CAD drawings and shop drawings will not be going away any time soon.

The following are links to information supporting the use of BIM by architects:

BIM adoption rate exceeds 80% among nation’s largest AEC firms

http://www.bdcnetwork.com/article/ca6668193.html

SmartMarket Report on Building Information Modeling (BIM)

http://construction.ecnext.com/coms2/summary_0249-296182_ITM_analytics

First Wisconsin, now Texas mandates BIM for state projects

http://www.bdcnetwork.com/blog/1340000734/post/1350047735.html

Patrick Johnson

Source: CAD Enhancement, Inc. – The Future of CAD with the World of BIM
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Precise Input: Using AccuSnap

November 7, 2009 in AutoCAD, CAD, Revit

clip_image001When we place drawing elements, we need to reference to an existing point. We need to place a point exactly at the end of a line, midpoint of a line, center point of a circle, et cetera. In MicroStation, we use AccuSnap to do this. You have used AccuSnap for snapping your data point to a line end before, now let’s get to know it better.

AccuSnap only active when MicroStation is asking you for a data point. It means when you need to place a drawing elements or define a data point during modify or manipulate your drawing elements. When MicroStation doesn’t ask you for data point, AccuSnap is not active.

By default, the AccuSnap mode is set to find key points. Key points are different for each object type. For example, key points for lines are the end points and mid point. Key points for circle are at its octants (every 45 deg) and its center point.

Open a new drawing, create several objects in it. Rectangle, lines, circle, arc, et cetera. Don’t worry about their size. We just use it to understand the AccuSnap behavior. We will do a drawing exercise on the next tutorial.

Try to activate a drawing tools. Let’s use Place SmartLine. Move your pointer close to those objects and see when and where the AccuSnap appear.

Overriding Snap Mode

During the design, we need to use more snap tools than just the key points. Don’t worry, MicroStation has enough snap tools you can use. You can override the default snap mode by clicking the AccuSnap button on status bar.

accusnap menu

Or if you feel more comfortable with toolbar, you can show the button bar. Click the AccuSnap button and select button bar.

clip_image005

How come the toolbar only showing a few snap mode, not as many as in snap menu? Right click on the toolbar, and activate other mode you may need. Or, simply click show all. There you go; you have the entire snap mode you can use!

Active Snap and Default Snap

How do we know which snap mode is active? Active snap is shown as a pushed button. When you see the center point button is pushed, then the active snap is center point. But there is more.

clip_image006

See the key point snap button? It’s also pushed, and it’s shown in gray. The grayed button means it’s the default snap mode.

Activate Place SmartLine. Try to override the snap mode to center point. Click on a circle to snap to its center. After defining a data point, the key point will be back as the active snap mode. This is very useful if you only need to change the snap mode for a point, and still want the key point as default snap mode.

On the snap menu, the default snap mode will have a blank circle on the left of it. While the active snap mode have a filled circle.

clip_image007

If you need to change the default snap mode, you can do one of these:

  1. Double click on a button in snap toolbar
  2. Click the snap button on status bar, hold [shift] and click on a snap mode you want.

If you have finished playing around with the default snap mode, make sure to switch it back to key point.

Tentative Snap

Do you remember which button is the tentative snap button? Yes, press the left and right button together. I know some of you may not feel comfortable with it. I will show you how you can choose another button for at the end of this post. Let’s just use the default for now.

If you move your pointer close enough to a key point, you will see this point.

clip_image008

It’s almost like the snap point, but it’s not yellow. It’s a dashed cross. If you move your pointer closer to that point, then it will change to snap point.

Let’s move your pointer until you see the tentative point. Click the tentative button. MicroStation will show you which point you are attempt to snap. The tentative point becomes a large white cross, and MicroStation highlight the object. If you see it is snapping to correct point, click data point to accept it.

This is important if you have a lot of objects in your drawing. You can review whether you are snapping to correct object or not. If it’s not, click reset (right click) to cancel it, and try it again.

clip_image009

Changing the Tentative Snap Button Assignment

If you still feel uncomfortable with clicking two buttons at once, you can change the button assignment.

Access MicroStation menu: Workspace>Button Assignments… MicroStation will open a dialog box. Click Remap Buttons.

In button mappings dialog box, select the tentative button. As you can see, currently it’s invoked by left button – right button chord. Move your pointer to button definition area. Click any button you want to assign a new button.

clip_image011

Many MicroStation users use mid button as tentative point. It’s a long story :) You will lose the pan functionality from the mid button. But you still can use pan scroll by pressing [shift] + data point. It’s not exactly the same with pan view. If you don’t like the pan scroll, you can change the button assignment from pan scroll to pan view. It’s your choice!

clip_image013

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Source: CAD Notes – Precise Input: Using AccuSnap
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10 AutoCAD Ribbon Tips You Should Know

November 7, 2009 in AutoCAD, CAD, Revit

AutoCAD ribbonAutodesk introduced the Microsoft Office 2007 look alike to Autodesk products since version 2009. They introduced the ribbon, and even a new menu structure in Autodesk 2010 version. You may hate it, but many new users may like it. However, I think we do need to get used to it. If one day the ribbon and the menu structure become a ‘Windows compliant’ standard, then all Windows applications would look like that. Ouch!

Here are 10 AutoCAD ribbon tips I found on the internet (and one from my blog ;) that you might need to know.


AutoCAD UI ~ Best of Both Worlds is Flexible with Traditional Menus or New Ribbon +Plus+ AutoCAD UI Retro Mod’ing Fun

So you don’t like AutoCAD ribbon and want to use your classic interface? I know many of you already know it, but who knows, it may be still useful. Shaan shares this to us, and further more, if you would like your AutoCAD looks like R14!

Speed Up as AutoCAD 2009-2010 Ribbon Menu Helps You!

Are you a new AutoCAD user? Then you must love the ribbon! Orhan Toker posted how the ribbon can help you with detailed explanation for each AutoCAD tools!

AutoCAD 2010 Application Menu

The ribbon didn’t come by himself. It also changed the menu structure. Orhan Toker shares how to use the menu. Do you know that we can search a tool/command in the menu now?

AutoCAD 2010 – Hidden Ribbon Trick

Many people complaint that ribbon take a lot of screen space. True, but do you know that you can minimize them? Mark W Kiker shares this on his CADD Manager Blog.

AutoCAD 2010: Getting Sticky with Ribbon Sticky Panels

The most annoying thing about ribbon for me is I have to move to different tabs frequently. I found in Shaans blog that we can tear off a panel from ribbon. This only applies to AutoCAD 2010 and later. With this sticky panel, we can use it just like toolbar!

Lock Down those AutoCAD Toolbars!

Now after you tear off your ribbon panel, you may want them lock at their position. You don’t want to accidentally move them. Lynn Allen shares that we can lock it just like we lock the toolbar!

Ribbon Shortcut Key on Autodesk Products

Do you want to speed up when activating tools via AutoCAD ribbon? You may like this tip. This also applies to all Autodesk products that use ribbon.

Quickly Hide The Ribbon Using A Custom Keyboard Shortcut

This is an article by Richard Alexander. He’s giving a tip about creating a custom keyboard shortcut to quickly hide your ribbon. You may need that!

Add a Button to the ribbon in AutoCAD 2009

This is a tip from Ellen Finkelstein on how you can add a button to your ribbon. Originally written for AutoCAD 2009, but also applies to later versions. She explains the ribbon structure in details. If you new to CUI, you may want to read this.

Ribbon for AutoCAD Express Tools 2009

Are you using AutoCAD 2009 and loves the ribbon? You may found something is missing: the express tools tab. You can add it manually. Xanadu explains how you can do it.

AutoCAD 2010 users don’t have to worry about this, it’s already there :)

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Source: CAD Notes – 10 AutoCAD Ribbon Tips You Should Know
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Dynamic Block Tutorial #5: Controlling Visibility

November 7, 2009 in AutoCAD, CAD, Revit

dynamic block visibility

It’s been a while since I wrote my last dynamic block tutorial. Besides of using parameters and actions, there is one thing left: using visibility states. You can hide and show some (or all) objects and save them on separate visibility state.

Let’s take a dynamic block sample from AutoCAD. I use the trees block. Insert it to your drawing, and click the down arrow in the block. You will see a list of trees. Try to change it to other type of tree.

trees visibility

What it does is hiding objects that form the palm (plan) and show other objects. Let’s try to create our own visibility states.

These doors are actually have a same door type. The only difference is the door on the left can be opened to inside and outside. And the other one can only be opened to one direction.

*What do you call them? single swing and double swing door?

door

Create a drawing like the door on the left. Make it as a block. Then open it in block editor. You’ve been doing this several of times, haven’t you? :)

We can’t click any button in visibility panel yet. To enable the visibility states, we need to place visibility parameter first. You can find it in block authoring palette, parameters tab.

visibility parameter

Place it near your block. Pick a good spot, so you and others who will use it can find it easily.

Click the visibility states button. The visibility states dialog box will open.

By default, we will have one visibility state with name VisibilityState0. Select it, and click rename. Rename it to double swing door (or something you prefer).

Click new to create a new visibility state. Give it name single swing door. And make sure you select the leave visibility of existing objects unchanged in new state. Click OK.

new visibility state

AutoCAD will automatically set the new visibility state as current. If the single swing door is not current, select it and click set current. Click OK to close the dialog.

Now we will hide some lines. Activate make invisible from your ribbon.

make invisible

Select all the dashed line that showing the door swing. [enter] to accept.

Click visibility mode to see/hide the invisible lines as opaque lines or hidden. You may want to set it as hidden to see applied changes clearly. But sometimes you need to see the invisible objects when you need to change it to visible.

Test your visibility state. Change it from one to another in visibility state list.

visibility state list

If everything is working fine, you can save the block and close the block editor.

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Source: CAD Notes – Dynamic Block Tutorial #5: Controlling Visibility
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Precise Input: Using AccuDraw

November 7, 2009 in AutoCAD, CAD, Revit

AccuDraw AccuDraw is your ultimate weapon to place drawing elements in your design files. AccuDraw can help you to place elements precisely, effectively, and efficient.

Since this tutorial is about 2D drawing, you will only see X axis and Y axis. But when you create a 3D drawing, you will see one more axis: Z axis.

You can find AccuDraw above status bar. You can tear it off and make it floats like image in this tutorial. It’s your choice.

If you’ve been playing with MicroStation for a while, you might have close AccuDraw by accident, and now wondering how you can turn it on again. I did it before :)   You can turn it on/off by clicking Toggle AccuDraw on Primary Tools bar.

Toggle AccuDraw 

Let’s get started. Create a new file, and open it.

Rectangular Coordinate

place smartline

Activate Place SmartLine by clicking the button on task navigation. Click anywhere on your drawing area. You will see AccuDraw compass on your pointer.

AccuDraw Coordinate

Try to move your mouse pointer around. You will see the X and Y value changing. Move it to the right or left of your compass. You will see the field focus is on X field. We can tell where the focus is by the highlighted field. Now move your pointer up and down near the compass. You will see the highlighted field now on Y.

The AccuDraw focus will move to field with higher value.

Now move your pointer near to X or Y axis. You will see the line is thicker and sticky to the axis. We call it indexed. Indexing will help you to draw lines parallel to X or Y axis.

indexed

Move your pointer to the right, make sure X field get the focus. Type 2 then [enter]. You will see the X is pressed down, it means that the X value is locked. The AccuDraw focus automatically switched to Y value. Now we can change the Y value. Since we want to create a horizontal line, type 0, then [enter] again. Both of you X and Y value is now locked. Click your mouse left button to define the data point. Remember, MicroStation users call the left button mouse as data point. You will see the SmartLine placed.

Now move your pointer up until Y field get the focus. Type 4 then [enter]. Move your pointer until it’s indexed to Y axis. This will change the X value to 0. No need to lock it, click data point.

You may need to zoom out to see all your drawing. Scroll your mouse, until you see what you want.

Move your pointer to the left. Pay attention that AccuDraw now have focus on Y, not X. Isn’t X axis is parallel to horizontal axis? AccuDraw compass will be rotated and follow the previous data points orientation. Don’t worry about this now. You just need to move your pointer to get the correct focus.

Move it to the left, make sure it’s indexed. Press [enter]. This will activate SmartLock. SmartLock will lock the horizontal value, which is Y value now. Move your pointer to the first data point you defined. It’s the starting point of this line. Wait until you see the yellow X symbol, and click on it. It was the snap tool. Snap tool will ensure your data point ‘snapped’ to a certain point. We have a horizontal line now.

snap

The last line, should be a vertical line to our starting point. Snap, and click on it again. There you go! You’ve just created a rectangle with size 2×4 mm.

Using AccuDraw

Polar Coordinate

During the design process, you may need to use other method to input your object. Not by X and Y value, but using distance and angle. This is known as polar coordinate. How can we use polar coordinate in MicroStation?

Easy, when AccuDraw get the focus, press [space] to change it to polar coordinate. You will see the X and Y now is changed to distance and angle.

polar-rectangular

If you need to change it back to X and Y, simply press [space] again.

AccuDraw Challenge

Here is a little challenge for you. Can you create a profile like this image below?

accudraw challenge

Tips:

As mentioned previously, AccuDraw compass follows the previous data points orientation. When you get to point (1), you need to reset the compass orientation. Press V to reset the compass to view orientation. More explanation on this later.

view rotation 

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Source: CAD Notes – Precise Input: Using AccuDraw
Go to Source: CAD Notes

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