Renga Architecture Crack is the name of advanced and efficient software in building information modeling that experts in this field are well acquainted with it. Building information modeling (BIM) is one of the topics that construction industry activists face today. Building information modeling or so-called “beam” has been seriously discussed since the beginning of the 21st century and in line with technological and digital advances in developed countries. Since then, it has expanded rapidly around the world with the availability of dozens of professional tools. In this regard, it has played an essential role in acquainting more and more users with it.
To have the architecture in more detail, Renga Architecture provides the tools to create / edit objects quick – Type, assemble and edit profile. In just a minute, users can create style window or door to customize your own, put in the mullons, horizontal or vertical, assigned the material structure, determine the type of open frame, as well as set the size of the window frame, mullons and frame. Users can specify custom type for the door open in any form and any size.
To perform calculations the volume of the structure accurately and calculate the volume of material, use the Calendar tool icon. It automatically collects data objects and generate report in table format. In case there are changes in the 3D models, make up schedules automatically recalculated. Architects can create a custom schedule of your own or use the patterns available. Software already have the template created according to state standard of Russia (GOST) – Schedule rooms and Schedule window and door. Architects can modify the schedule view, the schedule group attributes, apply filters, add custom properties.
The drawing editor integration the project allows to create the project documentation. The editing is done to automate the drawing creation to the maximum. The angle of view of the main building (ground, height, face cut) is checked automatically directly from the 3D model.
Key Features And Highlights:
Creating a Sketch. Conceptual Design
At the first stage of design, the project architect needs a tool to create a quick and easy conceptual prototype of a future building.
The Renga BIM system is based on two general principles: designing in 3D space (for enhanced visualization) and using intuitive, context-based interface (for simplicity of interaction with the 3D model. more
An architect can create a building in the 3D view, using object tools like walls, beams, windows, etc. You can also switch to the 2D drawing plan at any moment and continue the creation of 3D modeling in that view.
A lot of specialists have already appreciated this approach and have found the Renga software operating speed to be a great deal higher compared to other software.
Detailed Architectural and Space Planning
For more detailed model architecture Renga provides tools for fast object creation and editing in a Styles, Assembly and Profile Editor.
In only minutes you can create your own customized window style or door style, place in horizontal or vertical mullions, assign structural material, define the type of frame opening, as well as set dimension of window frame, mullions and frames. You can assign the customized style to door openings of any forms and sizes.
You can use Assembly tool to create complex elements consisting of several objects. Renga standard elements (beam, stair, floor, etc.) make it easier to create exquisite objects such as a fancy stair run or an artisan railing. You can combine multiple objects by merging them into a single object with Assembly tool.
Custom Profile Editor allows you to define any parametric profile for beams and columns. Users can design a unique structure, by applying custom profiles or creating decorative elements like crown molding, baseboards, pilasters, etc.
Worksharing in Renga
In the Renga BIM system, the architects and structural engineers work in a single environment with the same 3D model. Each member of the project team can track the changes their colleagues have made. This feature reduces the chance for discrepancies between architectural, structural and MEP models, validating the accuracy and consistency of the model. It also shortens the approval cycle.
It’s also extremely important to allow all the project stakeholders to work in a common data environment. If other team members create their part of project documentation using different software, they can validate it at the BIM model level by exporting data to an open file format IFC, or at the drawing level by exporting data to the DWG/DFX format. The change requests can be conveniently exchanged with between domains through data management system like Pilot-ICE.
Automatic Recalculation of Schedules and Work Sheets
To perform accurate labor volume calculations and material quantity calculations, use the Schedule tool. It automatically collects object data and generates reports in a table format. In the event of changes to the 3D model, schedule recalculates automatically.
An architect can create their own customized schedules or use predefined templates. Standard templates are already defined in compliance with the Russian State Standards (GOST) – such as room schedule and window and door schedule. Architects can modify schedule views, group schedules by properties, apply filters, and add custom properties.
To calculate the correct volume of labor required for interior finish work, use the Interior Finish schedule template to automatically collect design data of rooms, including wall area, floor and ceiling area, baseboard length less openings in enclosing structures.
Impressive Project Presentation
If you want to impress your clients, you can easily create high-quality images of the model (renderings) by using a texture map and assigning materials. For this purpose, Pictorex Company developed the Artisan Rendering app which can be installed with Renga.
Additionally, you can export any information model to 3D graphics formats such as OBJ, DAE, or STL to perform rendering in popular products like 3Ds Max, Blender, Lumion, etc. Export your model in STL format and use a 3D printer to get an architectural 3D model to scale.
Apart from triangulation formats, Renga developers implemented feature for importing 3D models into solid geometry formats including C3D, JT, STEP, etc.
Take your clients on a virtual walkthrough tour inside a building using augmented reality glasses. Renga software establishes a link with the Occulus Rift VR Headset. Wearing this headset, you can behold the future building in 3D form and appreciate its design and engineering solutions. 3D SpaceMouse by 3D Connection Company is another gadget to use, if you want to take a walk through the model. Just like the VR Headset, it is integrated with Renga.
Document the Project
The built-in Drawing Editor allows to create project documentation. Editor is designed to take drawings generation automation to the maximum. Main views of the building (floor plans, elevations, sections) are checked out automatically right from the 3D model.
Production tools will help to create drawings in accordance with both Russian System of Design Documentation for Construction (SPDS) and the International Organization for Standardization (ISO).
Display styles allow setting the visibility and level of details for objects on drawings. Therefore, you can obtain several drawings from of one plan view, such as brickwork plan, equipment layout plan, emergency exit plan, beams and columns layout plan, etc.
Architects can export/import their drawings to the DWG/DXF formats to interact with other CAD systems such as AutoCAD.
On top of this, Renga developers implemented batch-exporting for drawings into PDF/DWG/DXF formats.
Quick Project Modifications
Changes may occur during any design development phase of a design project. The Renga BIM system provides architects with tools that can significantly reduce the cost of modifications.
Dimensions added by user would track changes made in the 3D model, whether it be a floor plan or a smaller element. If a user moves a partition or modifies the window height, any corresponding dimensions will recalculate automatically.
Spaces are always relative to their surrounding structures and areas. Modifications to room size on the plan will automatically recalculate floor, wall and ceiling areas.
Data Export for Analysis and Calculations
A BIM model created in Renga software contains not only 3D geometry, but also physical properties of construction materials (type of material, thickness, conductivity), interior finish types and elevation finish types.
This data along with a 3D model can be exported to analytical software solutions, where you can perform thermo-technical calculations of outer walls or daylight factor calculations.
To transfer the Renga BIM model to the analysis application you only need to export it to the IFC format.
- Supported OS: Windows 10 / Windows 8.1 /Windows 7
- Processor: Multi core Intel Series or above, Xeon or AMD equivalent
- RAM: 4GB (8GB or more recommended)
- Free Hard Disk Space: 4GB or more recommended
How to Crack, Register or Activate Renga Architecture?
- First uninstall the previous version completely with IOBIT Uninstaller
- Download and extract files (You need WinRAR to extract password-protected files)
- Install the Setup
- Close the software
- Copy/Paste Crack files into the installation folder of Renga Architecture
- Now run the software
How do I create a new project in Renga Architecture ?
After launching the program, we are taken to the welcome page with beautiful icons of famous buildings. Their own projects will be located on their background. On the same screen, you can click on the “New Project” button and create a new project, or you can open an existing one by clicking on the “Open” button.
How to start designing in the program?
Having started working in Renga Architecture, we will go to the 3D scene, where we will create auxiliary coordinate axes. To create coordinate axes, you need to use the “Annotations” tool, in it click on the “Axis” button. Walls are created along the axes with the Wall tool. Here we can assign to the walls: materials, offset from the level, location relative to the baseline. We are given a choice of several materials for the appointment, and we can also set our own materials.
How do I assign my materials to an object?
To assign your materials to objects, you must select “other” in the material assignment list. In the window that opens, click “create a new multilayer material”, create the required number of layers, assign them the “material name”, “layer thickness”, “hatch”, “color”, click “ok” – the material for the wall is assigned.
How to create window and door openings?
To create openings in the wall, click on the “Door” or “Window” tool. Here we can set the offset from the level, marking, type of filling the opening, height and width. You can choose the styles of windows and doors. Windows can be made single-leaf, double-leaf, with transoms, or create your own window style. A structural material can also be assigned in the window style editor. In the infill options, you can create an ebb and sill. You can also select styles for doors, set left / right infill, and depth.
How do you create an overlap?
The slab is created using the Slab tool. It is possible to assign an offset from the level, material, thickness and marking. In floors, if necessary, you can make openings using the “opening” tool.
How to build stairs and ramp?
If you need to create stairs and ramps, you can do this using the tools of the same name “Ladder” and “Ramp”. We adjust the offset from the level, the location relative to the main line, the height, the number of steps, the height of the steps, the width of the stairs. Likewise with ramps.