Revit Mass In Place | Massing In Revit – Beginner Tutorial 최근 답변 127개

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revit mass in place 주제에 대한 자세한 내용은 여기를 참조하세요.

Create an In-Place Mass | Revit 2018

Click Massing & Site tab Conceptual Mass panel (In-Place Mass). · Enter a name for the in-place mass family, and click OK. The application window …

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Source: knowledge.autodesk.com

Date Published: 2/11/2021

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Revit Massing (Pt. I) : In-Place Mass vs Mass Family – AGACAD

Revit in-place massing is an especially useful tool for architects. Producing conceptual massing within the context of the project site and then …

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Source: agacad.com

Date Published: 4/24/2021

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Masses – Modelical

You can create masses within a project (in-place masses) or outse … To create a Mass Family go to Revit main menu > New Conceptual Mass.

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Source: www.modelical.com

Date Published: 3/19/2022

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Learn how to create a “Conceptual Mass” in Revit – Arch2O.com

Another function that Revit offers with conceptual masses is placing Roofs, Walls, Floors, or even Curtain Walls from one of the faces of a Conceptual Mass.

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Source: www.arch2o.com

Date Published: 4/24/2021

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Simple Mass Modeling in Revit – TOI-Pedia

Go to the Floor Plan where you want to create the mass. · In the Ribbon, select the Massing & Site tab and click In Place Mass.

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Source: wiki.bk.tudelft.nl

Date Published: 12/6/2021

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18.4 Creating building elements from mass – Autodesk® Revit

1. You can select the mass in any type of project view, including floor plan, elevation, section, and 3D views. · 2. Click Modify Mass tab -> Massing panel -> …

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Source: sites.google.com

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Building an in-place mass – Revit Video Tutorial – LinkedIn

Sometimes you need to model something that uniquely fits its surrounding context. In such a case, you can use an in-place family. These can be effective but …

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MASSter Free Form Structures with Revit Masses … – ATG USA

In-Place Mass … Often, “Out of the Box” shapes are not sufficient to accurately reflect the design intent. A more precise shape may be required. For this, Revit …

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주제와 관련된 더 많은 사진을 참조하십시오 Massing in Revit – Beginner Tutorial. 댓글에서 더 많은 관련 이미지를 보거나 필요한 경우 더 많은 관련 기사를 볼 수 있습니다.

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주제에 대한 기사 평가 revit mass in place

• Author: Balkan Architect
• Views: 조회수 310,365회
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• Date Published: 2019. 6. 2.
• Video Url link: https://www.youtube.com/watch?v=VjNzUUUPDfk

How do you use mass in place in Revit?

How do I make a mass solid in Revit?

How do you create a mass family in Revit?

When you create a mass family in the Family Editor, you can then load the family into a project, and place instances of the mass family in the project. Click File tab New Conceptual Mass. In the New Conceptual Mass dialog, select Mass.

What is Revit conceptual mass?

Now let’s take a closer look at how to create a conceptual mass family and load it into your Revit model. Creating conceptual mass families means that the mass is external to the project. It uses the same tools to create the mass family, which is then saved and loaded into the project.

How do I make a model in place in Revit?

How do you extrude mass in Revit?

Which tab in the ribbon do you use to create an in place mass in Revit?

What are room bounding elements?

Where can you locate conceptual mass modeling?

By default, conceptual mass templates are stored in this location: %ALLUSERSPROFILE%\Autodesk\RVT 2020\Family Templates\<language>\Conceptual Mass.

What are some advantages to designing a Revit project as a mass?

Masses are a powerful tool in early stages of projects. They allow the designer to check the initial proposals in terms of area, volume, and associated costs. They are also very useful to create complex geometry where native basic elements are suitable tools for the wanted results.

How do you merge masses in Revit?

Click Modify tab Geometry panel Join drop-down (Join Geometry). Select the first mass instance, and then the second. The overlapping form of the first mass cuts into the second mass. The mass floors of the second mass are adjusted to report accurately gross floor area in a mass schedule.

How do you extrude mass in Revit?

How do you merge masses in Revit?

Create an In-Place Mass

Create a mass that is specific to the context of the current project. This mass cannot be reused in other projects.

Click Massing & Site tab (In-Place Mass). Enter a name for the in-place mass family, and click OK. The application window displays the conceptual design environment. Create the desired shapes using the tools on the Draw panel. For more information, see the following topics: Forms

Profiles

Sketching When you are finished, click Finish Mass.

How to make a mass element to look solid

You created a solid form and would like to know how to change the appearance from transparent to solid.

Solution:

1.Go to Manage>Settings>Object Styles.2.Expand the Mass category.3.In the Form subcategory click on the “Material”4. When the Material library opens select the material you want to represent the solid.

Create a Mass Family

When you create a mass family in the Family Editor, you can then load the family into a project, and place instances of the mass family in the project.

Click File tab In the New Conceptual Mass dialog, select Mass.rft, and click Open. The file is located in this folder: %ALLUSERSPROFILE%\Autodesk\RVT 2022\Family Templates\\Conceptual Mass

Create an In-Place Mass

Create a mass that is specific to the context of the current project. This mass cannot be reused in other projects.

Click Massing & Site tab (In-Place Mass). Enter a name for the in-place mass family, and click OK. The application window displays the conceptual design environment. Create the desired shapes using the tools on the Draw panel. For more information, see the following topics: Forms

Profiles

Sketching When you are finished, click Finish Mass.

Revit Massing (Pt. I) : In-Place Mass vs Mass Family – BIM Software & Autodesk Revit Apps T4R (Tools for Revit)

April 15, 2020 April 15, 2020 Povilas Sindriūnas

Revit Massing (Pt. I) : In-Place Mass vs Mass Family

By Povilas Sindriūnas, AGACAD Architectural Engineer & BIM Application Engineer

Autodesk® Revit® massing is a powerful tool for generating masses that works at any scale, whether you’re at the conceptual level of a building, at the detailed level refining the fixings and furniture, or working on an entire masterplan. To be able to use this tool to your advantage you should know a couple of techniques. There are two basic workflows for creating masses: create the massing within the project itself (In-Place Massing) or create it in a separate conceptual mass family, which is then loaded into the project. Here’s a brief comparison of these approaches.

In-Place Massing is carried out directly inside the project environment.

Allows you to see the rest of the project context, which is useful when designing at an early stage

The most straightforward approach and works well when the building volumes are not too complex

Good for preliminary sketching of forms and is the recommended approach for early stage design and for conceptual building studies

On the other hand, a Conceptual Mass Family is built in the ‘conceptual massing environment’, outside of the project environment.

Iterations of the family can be placed as needed around the site.

The family can be loaded into multiple Revit models.

Different team members can work on the different versions of the family.

Better for developing and refining a building mass. The separate environment has additional visibility of 3D levels and reference planes which makes more complex parametric modeling easier.

Massing & Site > In-Place Mass

In-Place Massing (in project)

Revit > File > New > Conceptual Mass

Conceptual Massing Environment (outside project)

We’ll go into more detail on conceptual mass families in a separate article. For now, let’s look at In-Place Massing more in-depth.

Creating an In-Place Mass

Unless the site has significant changes in levels that would have a real impact on the massing, assume the site is flat and start massing the scheme at ground level.

Make the ground floor plan active. If using worksets – activate a workset in which the mass is going to be modeled. Massing & Site > In-Place Mass. Name the mass, e.g. Block C. Draw the profile (the base of the mass), selecting the appropriate drawing tool. Click ‘Create Form’ to give the mass height. Click ‘Finish’ to create the mass.

* Click to set the mass to the selected 00 Ground Floor level

* Closing the loop saves time in creating the form

* Draw profile using Revit drawing tools

* Mass profile can be drawn on a set work plane or on an existing face (we’re drawing on work plane in this example)

* Mass profiles can be edited at later stages

Adjusting the Height

Open a section cutting through the site or elevation view showing the levels.

Select the solid and use the blue arrows to drag and align the extrusion top to the required level (alternatively, use the Align tool).

Note: Locking the top of the mass to the level means it will adjust if the floor-to-floor levels change; however, it will adversely affect performance.

Note: When you select a mass (any view), you will automatically see blue arrows on each face. Adjusting the form using the arrows is always perpendicular to the face.

Basic Mass Editing: Changing the profile

Select the mass, then click ‘Edit In-Place’.

Tab to select the extrusion (by default Revit will select the face /edge first but tabbing will allow you to select the solid).

Click ‘Edit Profile’.

Select the top or bottom surface (tab if necessary).

Adjust the profile trace line, then accept.

Click ‘Finish Mass’.

* Mass must be unlocked from level in order to edit profile

* Use Revit Offset tool (OF) and tab over the profile line to evenly offset the perimeter

E.g.

Note: If mass has floors, they will be automatically updated to the new profile.

Basic Mass Editing: Changing a face or surface

Select the mass, then click ‘Edit In-Place’.

Select an edge or face of the solid (tab if necessary).

Drag the form along one of the triad axes.

*Press the spacebar to change the extrusion direction: in line with view axes or perpendicular to surface.

Basic Mass Editing: Joining forms

The Join Geometry tool can be used to join one instance of a mass to another. It merges one form into another; if the forms overlap, the second form is adjusted to reflect the correct floor area.

Modify > Join

Select first mass, then the second

Forms unjoined

Masses 1, 2 & 3 joined

Note: Intersection lines are formed where forms are joined.

Note: For the floor to read as one floor plate, the forms need to be contained within a single mass family. If forms are pasted into a single mass family, then the floor becomes a single element.

Basic Mass Editing: Adding voids

You can create voids in the massing using the Create Void form. For this to work, the void must be created inside the mass that you want to cut. Note that adding several voids may slow down file performance.

Select the mass, then click ‘Edit In-Place’.

Select drawing tool.

Set the plane to draw by face or to a work plane.

This will affect how the solid extrudes (see below).

This will affect how the solid extrudes (see below). Draw the profile of the void.

Select the perimeter (tab & click).

Click on void form.

Drag the extrusion (press spacebar to orientate

to face).

to face). Click ‘Finish Mass’.

Note: When void base is set to ground plane:

Note: When void base is drawn on face and extruded perpendicularly:

Basic Mass Editing: Multiple forms in a single mass

It is not necessary to create a separate mass for each form. If several blocks form part of the same building and share the same floor level, then they should all be created in a single mass. This makes editing easier and when mass floors are applied, they are treated as a single entity.

In-Place Mass Tip #1: Workflow

Keep in-place massing in a separate project file, so it can be linked as required. Consider breaking the scheme into separate building models with their own mass floors if the floor levels vary significantly.

In-place massing should only be considered for initial master planning where the masses are pretty much straightforward extrusions and where being able to view the context is useful. If the scheme is more complex or you want to create the form multiple times, consider using the more flexible conceptual mass environment and load the conceptual mass families into the project.

In-Place Mass Tip #2: Pick face to host mass

In addition to selecting a level to host the mass, you can also use the pick option to host the mass on an existing face, e.g. a sloped surface.

Note: Enter the mass first, then pick a drawing tool. Set to draw on face or set a work plane manually, and pick any face of the mass and draw a shape (profile) from which you can create a mass or a void (can cut into the mass).

In-Place Mass Tip #3: Keep work orthogonal

Set out the masses using ‘reference planes’ and pin them in place as a guide for the massing. This helps make sure everything is kept orthogonal.

In-Place Mass Tip #4: Reference lines

If your form is likely to change a lot, use reference lines instead of model lines. When the form is deleted, the reference lines remain, allowing the form to be easily recreated.

Conclusion

To summarize, these the principal benefits of using in-place mass families are:

They let you generate schedules and produce other types of data to describe geometry, architecture, or other features of massing.

You can nest other mass families into the mass family that you are creating.

You can import geometry from other applications into the mass family.

In-place mass families work like any other Revit family. Family types and instances are displayed in your project browser.

Revit in-place massing is an especially useful tool for architects. Producing conceptual massing within the context of the project site and then generating elements like walls, floors, etc. upon those masses is a great way to go.

In Part II of Revit Massing we will look at how to create a Conceptual Mass Family outside the project environment.

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Modelical

Masses

File: 61000_MDL_02_RV_GDE_A_10001-Masses

Objectives

Learn what are masses in Revit Learn how to work with masses and create geometry Learn how to create constructive elements from masses

Prerequisites

User will be using Revit, any version User has basic skills in Revit Modelling User has basic notions about geometry

Description

Masses are a particular category in Revit. It is independent from other categories from objects, and usually is a hidden category By default in views.

Although mass objects are three-dimensional, they do not have a constructive sense as other categories have. They are just geometry.

You can use massing objects to perform a variety of tasks, always in early phases of designs:

Create in-place or family-based mass instances.

Create mass families that represent the forms associated with often-used building volumes.

Vary materials, forms, and relations between masses that represent major components of a building or development.

Abstractly represent phases of a project.

Study zoning compliance, both visually and numerically, by relating a proposed building mass to the zoning envelope and floor area ratio.

Assemble various complex masses from a library of predefined mass families.

Generate floors, roofs, curtain systems, and walls from mass instances with control over element category, type, and parameter values. Fully control regeneration of these elements when the mass changes.

Procedure

You can create masses within a project (in-place masses) or outside a project (loadable mass families).

In-place masses are used for mass forms that are unique to a project.

Go to Massing&Site Tab > In place Mass

Loadable mass families are typically used when you will be placing multiple instances of the mass in a project, or when you will use mass families in multiple projects.

To create a Mass Family go to Revit main menu > New Conceptual Mass

Both ways use the same logic to create geometry, and are suitable to create:

Just plain geometry

Roofs, walls, curtain systems face based.

Insert external geometry in other formats.

To create in-place masses and loadable mass families, you will have to use the conceptual design environment.

1 Create geometry

Go to Massing&Site Tab > In place Mass, or

Revit main menu > New Conceptual Mass

In the conceptual environment we do not find the “Geometry Tools” buttons (such as Extrusion, Sweep, Blend, etc.) as we would in family environment. However the “Create form” tool uses the same logic as those specific tools.

For different data inputs we will get different results. Data inputs for geometry in conceptual environment are points, model lines and reference lines, placed in the correct workplane.

1.1 Data Inputs

For different data inputs:

Closed lines loop > We get a surface or an extrusion

Path and cross section profile > we get a sweep

Path and various cross section profiles > we get a sweep blend

Two parallel but different profiles > we get a blend

An axis and a profile > we get a revolve

We can get same solid and void forms and make boolean operations.

1.2 Model lines vs. Reference lines

What is the difference between choosing Model lines / Reference Lines?:

Model lines: They are actual lines or edges that will appear in the model when the family is loaded into the project.

Reference lines: They are reference elements that have no graphical visualization when loading or creating the mass in the model, but are a good basis to create geometry. Besides they have four associated workplanes, two intersect in the longitudinal dimension and define the line. Other two are perpendicular to the line at its ends.

Choose in each case the line that best fits to the purposes of the component.

1.3 Actual geometry

Create then the needed elements: points and lines of reference lines that will be the data input for every piece of geometry that we want to model. And use “Create Form”:

Remember that geometry can be solid or void. Combinations of solid and void geometry are used to perform boolean operations.

Remember also that when creating a Mass there can be created several pieces of geometry inside the same Mass object. This is especially relevant when we want to perform boolean operations with voids.

2 Mass families

When creating a mass family, you can do the following:

Define any restrictions and parameters needed to control the geometry. See Families guideline, procedure is the same.

Nest other mass families into the mass family that you are creating.

Import geometry from other applications into a mass family.

3 Masses in project

In a project, you can do the following:

Create an in-place mass.

Place one or more instances of a mass family.

Join a mass instance to other mass instances to eliminate overlap. As a result, their gross volume and gross floor area values adjust accordingly.

Import geometry from other applications into an In-place Mass.

Create Roofs, walls, curtain systems face based, both from Mass families and In-place masses.

Create a schedule that shows the gross volume, gross floor area, and gross surface area of a mass (both family and in-place).

Place mass instances in worksets, assign them to phases, and add them to design options.

4 Model by face

From the different faces of a mass geometry we can create constructive elements like roofs, walls, curtain systems and floors. They will perform as regular roofs, walls, curtain walls and floors in their composition, but the form they take will be always linked to the face they come from.

4.1 Curtain System / Roof / Wall by face

Massing&Site tab > Curtain System / Roof / Wall

We select the tool, and then we pick the face we want to convert into one of these three kinds of elements.

Notice that:

We will be able to convert a whole face, not a portion of it.

For sensibly vertical faces you could be able to create walls / curtain systems.

For sensibly horizontal faces you could be able to create roofs / curtain walls.

If the mass changes the elements can be updated to meet again the form of the face.

4.2 Floor by face

First create the mass floors. They are the intersection between the mass and the project levels:

Select the mass > Mass Floors

Then you can already use the Floor by face tool:

Massing&Site tab > Floor by face

.

4.3 Update to face

When we have created elements by face and the base mass changes, those elements will not automatically update their form. This action has to be performed consciously.

Select the element > Update to Face.

Keep in mind that this option will not be valid if the geometry in mass is completely removed and rebuild. It will only work if the geometry is just edited, but not deleted.

It is impossible to re-associate an element-by-face to a face different to the one from which the object initially (roof/wall/curtain system) was created.

Tips&Tricks

By default Masses are hidden in views.

Mass geometry is associated to workplanes, both in mass families and in-places masses (levels and reference planes in project)

You can also add parameters in in-place masses as you would in mass families.

Remember that when you copy an in-place mass it will become a totally different object with no association to the original. Try to use them sparingly.

Bottom-line

Masses are a powerful tool in early stages of projects. They allow the designer to check the initial proposals in terms of area, volume, and associated costs.

They are also very useful to create complex geometry where native basic elements are suitable tools for the wanted results.

Associated Files

Learn how to create a “Conceptual Mass” in Revit

Many, if not all architects and buildings designers, do not have a clear, predefined idea about which shape the project they are working on will end up having. Furthermore, quite often there can be a preconceived idea about the morphology of a new project, but that first draft changes into something radically different in the final project. This kind of situation has been commonplace throughout pretty much the entire history of architecture and, surely, they will keep arising.

We know that a very deep technological evolution has been happening in the current engineering and architecture environments. We find ourselves in a time of change between the making of projects with 2D computerized technologies and the new work methodology known as BIM. Thanks to the emergence of this new way to make projects, we have very technologically advanced software that allows us to achieve an easier and closer-to-reality vision and conception of our project, compared to the tools that have been used so far.

We know the Revit software; we know about its advancements, what it brings to the projection of buildings, and how its templates are specific to each discipline. However, maybe we do not know about the tool that allows us to realize that first outline of our new building: The Conceptual Mass. This utility allows us to create objects in a fast and easy way, with the goal of obtaining an abstract object through which we will be able to conceptualize a project. Thanks to conceptual masses, we can have a much closer idea of which shape our construction will have.

How do you create a conceptual mass in Revit?

Once we get to know the tool and its usefulness, it’s important to know how it’s built and in which way we can work on it and shape it. For that, in the main viewport of the program, we can find conceptual masses in the “Massing & Site” panel. Once we are there, we can insert default masses with “Place Mass”, or we can model our own masses with “In-Place Mass”. The default masses are ones we can find in Revit’s families library or in any of our own families library if any has been generated previously.

In-place masses are a bit more complex, although very easy to create. Its construction process is based on a closed contour created from lines, with which we will generate an extrusion. Once this shape is formed, we can start editing it. This process is based on the modification of levels, lines, and points of each of the faces created by the extrusion. This way, we will shape, little by little, our conceptual mass. What we achieve with this is a preliminary visualization of our project. On the other hand, we can also use this type of masses to simulate buildings in our project’s environment or, for example, decorative objects when designing interiors.

Another function that Revit offers with conceptual masses is placing Roofs, Walls, Floors, or even Curtain Walls from one of the faces of a Conceptual Mass. By simply selecting in which side or layer we want to place it, we can model these elements easily in a mass. Each of these functions and more can be seen and studied more deeply in the BIM with Revit courses by GoPillar Academy.

If you wish to become a specialist in BIM with Revit in a fast and easy way, Arch2O brings you an exclusive offer to all its readers.

Sign up for the Revit Families complete course for just 99 USD instead of 349 USD. Valid until February 28th, 2021.

LINK: https://www.gopillaracademy.com/product/bim-revit-families-complete-course/?ref=14096&coupon=ARCH20DISCOUNT

Jaime Montava Miró – BIM Manager

Simple Mass Modeling in Revit

From TOI-Pedia

Introduction

Within Revit, Mass Modeling is a fast way to draw conceptual volumes. There are two ways of creating a mass. The first is by creating a Conceptual Mass Family, which is a mass that is created outside the project. The second is by creating an In Place Mass. This is a mass that is created within the project. In this tutorial we explain how to create an In Place Mass.

Setting up the guidelines

Before actually creating your mass, it’s good practice to create some guidelines first. Grids and Levels give you the possibility to snap your geometry to predefined dimensions.

Changing Levels

Go to the Project Browser and open an elevation view and create your desired levels, adjust them to the right height and give them a sensible name.

Adding a Grid-line

The second step is to create grid lines. Change your view to a floor plan and create your desired grid.

Creating an In Place Mass

In Place Mass

Once we have our guidelines set, we can start creating our Mass.

Go to the Floor Plan where you want to create the mass.

In the Ribbon, select the Massing & Site tab and click In Place Mass . When it is the first mass to be created within the project, a pop up will appear stating that Revit has enabled the Show Mass mode. Click Close. (If masses are already visible the Show Mass mode is already turned on and this pop up will not show)

tab and click . When it is the first mass to be created within the project, a pop up will appear stating that Revit has enabled the Show Mass mode. Click Close. (If masses are already visible the Show Mass mode is already turned on and this pop up will not show) Next a pop up will appear asking for a name for the mass. Give it a sensible name.

Now we can create the outline of the mass. We can either do this by drawing Model Lines or by drawing Reference Lines . Model Lines will disappear after creating the mass. Reference Lines will remain so they can be used as a basis for additional masses.

or by drawing . will disappear after creating the mass. will remain so they can be used as a basis for additional masses. First choose or make a construction plane with the Set button on the Work Plane tab. With the Tab key you can cycle through planes of objects while hovering the mouse pointer over them, even (end) of (reference) lines.

Sometimes to many objects (everything in Revit is an object) are in the way. Select what you want to temporarily hide and hit ‘hh’ (twice the h-key). Or select what you temporarily want to isolate and hit ‘hi’. To reveil what is hidden, hit ‘hr’.

You can draw several types of lines to make a profile for the 3D form. If you combine them into a closed non-intersecting shape, and hit Create Form , Revit will show in the next step two possibilities you can click on: a flat surface (if the shape was flat) or a 3D form as a result of an extrusion. This means that a path is used perpendicular to the shape, like if the shape is repeated along that path.

, Revit will show in the next step two possibilities you can click on: a flat surface (if the shape was flat) or a 3D form as a result of an extrusion. This means that a path is used perpendicular to the shape, like if the shape is repeated along that path. But you can also select several non-intersecting curves (closed or not). In that case Revit will try to create a loft. This means that a fluent form is created with the curves as sections.

Or if you select a curve and a straight line on the same plane, Revit will try to make a revolve. This means that the form is made as in pottery: rotation around the line.

If you select the work plane at the end of a curve and create a second curve there, Revit will try to make a sweep. Meaning that the first curve is used as a path, along which the second curve is repeated.

Notice that you can turn on 3D snapping in the option bar, which allows to go outside the construction plane.

You can mirror, align, cut etc. profile elements with buttons in the Modify tab. Use an aligned dimension to e.g. move a cut to the middle of a profile element by clicking on a reference line, the cut point (use your Tab key) and another reference line and hit the EQ button that appears next to the dimension. Notice that the dimension object belongs to a construction plane.

When you select a finished mass in the project, Revit will display in the properties window the total area of all the mass surfaces and the volume, but not the floor area. However if you select the mass and hit the Mass Floors button in the Modify|Mass tab you can create mass floors and the gross floor area will be shown in the properties window. It is annoying that you can’t see the floor area while creating the mass. A solution is to make an area parameter (hit the Family Types button top left) and use formula’s to calculate the area, but this is for advanced Revit users.

Create Form

Go to a 3D View and select the top of the shape. Sometimes it seems you are not able to select the top surface. By clicking the Tab key on your keyboard, you can cycle through the elements that are possible to select for a certain mouse position, like surfaces, edges and corner points. Sometimes you first have to unlock the element.

When the top surface of the volume is selected go to an elevation to move the surface by using the arrows. You can snap to the desired Level. You cannot only do this for surfaces, but also for edges and corner points.

Selecting the Volume and Moving Surfaces, Edges or Corner Points

By removing edges and/or corner points, you can create different shapes like a common roof.

To stack masses on top of each other, just go the Floor Plan of the level above, and create a new mass.

Create all the masses until you are satisfied with the shape of the combined masses and click Finish Mass.

Creating a Void Form

Create Void Form

Select the Mass and clicking the Edit Mass button

button Go to the Floor Plan where you want to create the void form.

Now we can create the outline of the void form.

Edit Void Form

Draw a closed shape. It can be any shape, just make sure it forms a closed loop.

Instead of selecting Create Form select Void Form from the dropdown menu.

select from the dropdown menu. You can edit the void form similarly to the solid forms, to move and/or remove edges

Click Finish Mass to subtract the void form from your original mass.

Changing the appearance of an In Place Mass

By default masses are created with some sort of semi-transparent appearance. To change this, we have to change the material settings of the mass. You can do this by clicking the Edit Mass button. By selecting the entire mass you can change the material for all the objects within the mass. If you select individual surfaces (by using the “Tab” button) you can allocate multiple materials within one mass.

Once you have made your selection, in the Properties window, behind Material a small button with some dots appears in the upper right corner of the cell. Click this button to enter the Material Browser window. Or hit the button next to it and create a material parameter. Once you finished the mass, you can set the material then in the project (easier to evaluate the effect in the whole situation).

Select a suitable material, or create a new material by clicking the small sphere under the material list.

Right-click the “New Default Material”, select “rename” and give it a sensible name.

Under the Graphics tab, set the Color and Transparency to your desired settings and click OK.

18.4 Creating building elements from mass

Welcome ‎ > ‎ Training Course ‎ > ‎ 18. Massing Studies ‎ > ‎ 18.4 Creating building elements from mass Create walls by Mass face:

1. Click Massing & Site tab -> Conceptual Mass panel -> Model by Face drop-down -> Wall.

2. In the Type Selector, select a wall type.

3. On the Options Bar, specify the level, height, location line, and any property values for the wall.

4. Place the cursor on a non-horizontal face to highlight it.

Tip: After you highlight a face, you can press Tab to highlight all connected faces on the mass. Then with one click, all walls are placed simultaneously on each highlighted face.

5. Click to place the wall.

Create floors by Mass face:

Before you select the floor by face tool, you must create mass floors in the mass instance at desired levels. To do so:

1. You can select the mass in any type of project view, including floor plan, elevation, section, and 3D views.

2. Click Modify Mass tab -> Massing panel -> Mass Floors.

3. In the Mass Floors dialog, select each level that needs a mass floor, and click OK.

4. Initially, if you select a level that the mass does not intersect, Revit Architecture does not create a mass floor for that level. However, if you later resize the mass so that it intersects the specified level, Revit Architecture creates a mass floor on that level.

Once you have created mass floors, follow the following procedure to create floors by face:

1. Click Massing & Site tab -> Conceptual Mass panel -. Model by Face drop-down -> Floor.

2. In the Type Selector, select a floor type.

3. If desired, specify an offset for the floor.

Tip: If you enter an offset value, the floor is offset that amount from the edges of the mass floor. A positive value makes a smaller floor; a negative value makes a larger floor.

4. To select more than one face, click Select Multiple. Otherwise, clear this option.

5. Place the cursor on a mass floor. Cursor highlighting mass floor

6. Click to select the mass floor.

7. To exit Place Floor by Face, click Select panel -> Modify.

Create curtain system by Mass face:

1. Click Massing & Site tab -> Conceptual Mass panel -> Model by Face drop-down -> Curtain System.

2. In the Type Selector, select a curtain system type.

3. Use a curtain system type with a curtain grid layout.

4. To select more than one face, click Select Multiple. Otherwise, clear this option.

5. Place the cursor on a mass face.

6. Cursor highlighting mass face. Click to select the face.

7. A curtain system is placed on the face immediately if the Select Multiple option is cleared.

8. Revit Architecture creates a curtain system on each of the selected faces.

9. On the Selection panel, click Modify.

Create Roof by Mass face:

1. Click Massing & Site tab -> Conceptual Mass panel -> Model by Face drop-down -> Roof.

2. In the Type Selector, select a roof type.

3. If desired, on the Options Bar, specify the level of the roof.

4. To select more than one face, on the Options Bar, click Select Multiple. Otherwise, clear this option.

5. Move the cursor to highlight a face that you want to turn into a roof.

6. Click to select the face. A roof is placed on the face immediately.

Tip: You can change the pick face location of the roof (either top or bottom) by modifying the roof’s Picked Faces Location property in the Instance Properties dialog.

Update the elements with changes in Mass faces:

Building elements created by face do not update when you change the mass face. To adjust to the current size and shape of the mass face, update the element.

1. In the drawing area, select the element.

2. Click Modify tab -> Model by Face panel -> Update to Face.

Walls and floors lose any sketch edits when you use the Update to Face tool.

Back to: Training Course 19.0 Rendering Next:

Building an in-place mass – Revit Video Tutorial

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– [Instructor] Working directly in the family editor is by far the most common way to access family editor tools both traditional and conceptual. But there is also the option to create an in-place family in some cases. Now, in-place families should be used cautiously and judiciously. They can affect performance. And if used incorrectly, they can actually be detrimental to the project. But if you use them correctly they can actually be quite effective. So, the intention of an in-place family is to model something that is very unique to the project and requires the surrounding context of the model in order for it to make sense. So, almost think of the surrounding model is like an underlay that you use to help you create the geometry of the in-place family. So to demonstrate this I’m going to replace this railing that I have here on the balcony with something a little bit more organic that I’m going to model in the in-place…

MASSter Free Form Structures with Revit Masses • %%primary

It is possible to use Revit for years and years and never touch the mass function. After all, Revit hides these by default, so they must not be very important. Right? Wrong. Masses serve an integral role within the Revit user interface.

First, masses provide the user the ability to quickly explore various design options in many shapes or sizes early in Schematic Design. They provide free-flowing shapes that enable users to push and pull elements with ease and flexibility. If a designer is approaching an empty canvas, then they may quickly manipulate as many shapes as possible to develop ideas at a very high level. As the concept develops, she may introduce dimensions to incorporate accurate scale. This is true for massive skyscrapers, a piece of furniture, and everything in between.

Not only are masses helpful in the early stages of design, but they are also required to produce free form shapes like compound curves. Revit already includes a highly intelligent system to draw and document a wall. One may incorporate materials and thicknesses. Designers may indicate height and width. If the wall is not a rectangle, “Edit Profile” may be used to create any shape that occupies a single plane, assuming that plane is vertical.

Recent versions of Revit have built on this platform to provide additional functionality. For example, Revit 2021 introduced Slanted Walls, which allow the user to define the angle variant from true vertical. Revit 2022 introduced the Tapered Wall which allows the wall to vary in thickness over the height of the wall. Neither of these were possible prior to the release of 2021, unless masses were used.

These new advancements are wonderful, but what if the intent is incorporate a compound curve into the plane of a wall? Well, out of the box Revit walls may not achieve this shape yet. However, with the use of Revit masses, compound curves or literally any shape is possible. Not only is it possible with the mass itself, but the complex shape may be applied to a traditional Revit wall, which holds all the parametric information.

키워드에 대한 정보 revit mass in place

다음은 Bing에서 revit mass in place 주제에 대한 검색 결과입니다. 필요한 경우 더 읽을 수 있습니다.

이 기사는 인터넷의 다양한 출처에서 편집되었습니다. 이 기사가 유용했기를 바랍니다. 이 기사가 유용하다고 생각되면 공유하십시오. 매우 감사합니다!

사람들이 주제에 대해 자주 검색하는 키워드 Massing in Revit – Beginner Tutorial

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YouTube에서 revit mass in place 주제의 다른 동영상 보기

주제에 대한 기사를 시청해 주셔서 감사합니다 Massing in Revit – Beginner Tutorial | revit mass in place, 이 기사가 유용하다고 생각되면 공유하십시오, 매우 감사합니다.