Please note these files are only suitable for REVIT users Roof windows        GGL pine centre-pivot Download .rfa file   GGU white polyurethane Download .rfa file     GGL INTEGRA® roof window Download .rfa file     GGU INTEGRA® roof window Download .rfa file   GPL pine top-hung Download .rfa file     GPU white top-hung Download .rfa file     GIL pine Download .rfa file     GIU white Download .rfa file     VFE pine Download .rfa file   VIU white Download .rfa file   Flat roof windows          CFP fixed flat roof window  Download .rfa file CVP INTEGRA® flat roof window Download .rfa file CSP smoke ventilation flat roof window Download .rfa file   CXP exit solution flat roof window Download .rfa file   Sun tunnels          TWR rigid tunnel for tiles roof based  Download .rfa file   TWR rigid tunnel for files ceiling based Download .rfa file DuraVision polycarbonate mirrors from Norix are designed specifically for the challenging conditions found in correctional and mental health facilities.

The strength of polycarbonate combined with a solid, full foam backing and a unique steel frame design ensures these mirrors exceed the breakability and tamper resistance of any other product on the market. Most convex mirrors you see in commercial establishments and at intersections are made from acrylic. When tested to withstand impact, they’ll be the first to break into knife-like shards. Our polycarbonate mirrors, with pure reflective coatings, are premium 3mm grade with a tensile strength of 9,400 psi. To further enhance the strength, we completely fill the cavity behind the mirror with high-density water blown urethane foam to limit the compression distance, thus eliminating the possibility of breakage from a severe blow. To make sure they stay in place, the DuraVision mirror perimeter is fully enclosed in a heavy duty powder coated steel frame that sits flush with the wall and ceiling and features countersunk screw holes to receive tamper-resistant fasteners. DuraVision Convex Mirrors vs...

DuraVision Mirrors Win Durability Test DuraVision mirrors were designed to ensure the safety of facility, staff, inmates and patients. When used in cells and other critical locations, DuraVision mirrors permit staff the opportunity to observe blind corners and intersections without putting themselves or others in harms way. Once you identify the blind spot, it’s a simple matter of selecting the DuraVision mirror best suited to the task. The half dome mirror is usually the right choice for isolation rooms or cells in order to observe blind corners to the right or left of the entry door. The 360° visibility of a full dome can be used effectively in open areas or at four way intersections or as a reflector with CCTV equipment. You’ll find the quarter dome efficient and appropriate for corners and L intersections. We even offer a shallow profile wall-mount mirror for those areas where mounting against the ceiling doesn’t make sense. Kings County HospitalBrooklyn, NY

> DuraVision Brochure PDF > Specifications PDF:   Standard    |    > PREA 101 White Paper > Revit 3D ModelsCADdetails is the leading provider of manufacturer-specific building product information, delivering to more than 448,000 architects, engineers, contractors, and other design industry professionals throughout North America.Washer Repair Monroe Nc At CADdetails we want designers to specify new and innovative building products in their most coveted projects. Cat Meow Old SalemWe recognize that using a product for the first time can be risky, so we go the extra mile to make sure our 3D models, CAD details and specifications are current, accurate and work in multiple formats. Avis Rental Car Detroit Metro Airport

All of the content we host on CADdetails meets or exceeds the highest industry standards, and all content is available for download free of charge. High-quality content at your fingertips. VELUX offers a complete system of complementary products and accessories for any solution from installation down to the finishing touches. Select from several categories to find the right residential skylight window for you. Introducing the VELUX SUN TUNNEL skylight - the most innovative skylight in the industry. The new product design delivers brighter natural light and the easiest installation available. Find your local installation specialist Daylighting through the roofs of commercial buildings provides many benefits that no other light source can offer. VELUX commercial products can provide optimal light distribution while minimizing glare and enhancing your architectural designs. Make a statement with blinds! Our new blind collection can help turn an ordinary room into something special.

Get a 30% tax credit View our blinds collection Smart home, smart skylights There are seemingly limitless reasons why VELUX skylights can help you create a living space that will not only impress you and your family, but that will also lower your energy costs. Watch our newest commercial to witness how light and fresh air can change your indoor environment. Watch our newest commercial HGTV, HGTV Smart Home, HGTV Smart Home Giveaway and their associated logosare trademarks of Scripps Networks, LLC. Photos © 2016 Scripps Networks, LLC. Find out why VELUX is the right choiceThis is part 1 of the 3 part blog post about cloud rendering. Lightstanza is a simple online tool that works by uploading 3D models made (or imported) from Sketchup. As of now, its functionality is limited to Sketchup, but the team is working actively to develop Rhino and Revit add-ins. This would be helpful as a lot of architectural firms including LMN use Rhino and Revit more than Sketchup.

Lightstanza is a great tool since you can upload the model to the online website and let multiple simulations run at the same time. The tool is able to perform  simulations for various daylight metrics (all that are really needed) viz. sDA, ASE, DA, CDA, UDI, Mean Illumination, hourly/point in time illumination, glare based on set views/scenes and false color images. It can also analyze the design for LEED compliance based on sDA and ASE. Cloud computing enables one to keep modelling design variations and in the meantime simulate other options.SKETCHUP INTERFACE _ MODEL SETUPFor daylight simulation, Lightstanza requires illumination grid to be created in Sketchup using its extension that is installed locally on the machine. It also requires the model to be geo-located to help the software calculate the surrounding ground reflections, which is great as it improves the accuracy of the simulations. Additionally, interior or exterior views or scenes need to be added as these are used for false color and glare analysis – again a great feature specifically to compare different times of the day and year.

Advanced simulation includes adding “Window Assembly” to some or all of windows which essentially refer to adding interior dynamic blinds to the window. The blind operation is controlled by two settings – Solar or sDA specification. This is a great feature as one can compare not only illumination and annual daylight metrics for options with and without blinds, but also compare views for daylight quality or glare. The tool works by detecting the geometry in Sketchup by materials and layers. This can be edited later online and helps to compare different materials, and textures, but also lets you model design variations in one model using different layers and toggle them on and off online.WEB INTERFACE _ MODEL SETUP_AVAILABLE SIMULATIONSOnce the model is uploaded, some work needs to be done to create variations of the design and set the materials and properties. Since the tool reads the Sketchup materials, it separates all geometry by materials. The materials and properties can be set using the pre-defined values, or custom materials can be created which again is helpful to get more accurate results and/or test different design variations.

After the material and model setting, the only thing left is to run simulations. This is where Lightstanza stands out because it lets you do multiple simulations at different settings at the same time. Of course, the time for each would be different, but everything runs parallel at the same time. The tool gives the options of setting up a ‘draft’ simulation or a ‘medium’ quality simulation which essentially translates to the accuracy. The grid size for sensor placement can be set from pre-set values ranging from 1′ to 10′. The time for simulation depends on both these settings. Lightstanza lets you compare different times of the year and hours of days (options of running simulations either at a specific hours, or multiple hours on Solstice and Equinox) in a “Key Times” mode. In the annual mode, the web interface neatly places all metrics in a row for every floor. Another useful feature in Lightstanza is the ability to view false color images and change exposure settings on the views (the scenes that were set in Sketchup).

These scenes are photo realistic renderings using Radiance and were comparable to similar studies done on DIVA. Lightstanza can also analyze these scenes for glare (there is an option to simulate using perspective or hemispherical lens). This is really helpful, though as with any glare analysis, setting up the camera can affect the glare probability results. The results for both key times and annual are downloadable in multiple formats. The other great feature of the tool is the ability to simulate blinds for ASE and glare. If the uploaded Sketchup model includes ‘windows assemblies’ set using the Lightstanza toolbar, the web interface can simulate the blinds. There are two settings available for this: Solar Control or ASE Control. The Blind operation can be viewed in the visualization (scene) as well. The timing of simulations among others (graphics, ease of setup) is a key important feature in a cloud based rendering software. My simulations took from a couple minutes to about an hour for the analysis of 40 ‘key times’ (shoebox or a big 4 floor building).

For annual simulation, these times can be expected to be in the range of couple minutes to about even about an hour or longer (depending on the model complexity, size and grid dimensions). These times are not the best, but they are not bad compared to the existing daylight simulations methods done on local computers. Besides since its not using local machine resources, it works well.The graphics and visuals are clear and to an extent are customizable. As of now, you can change the appearance of key time metrics with different colors and grid node shapes. The team is working on improving these controls and provide similar options for the annual simulations as well. There are options for downloading the key time hourly simulations as avi animations to see hourly/monthly results. Annual files can also be downloaded in csv format to process data in different ways. Apart from that, customizable vector files, png images are available for download. The activity trackers and simulation history are all neatly stacked and makes the process of tracking design variations simple.