![]() ![]() We guarantee all our products with an industry-leading 10-year warranty and back it with extensive product testing. Every detail is considered and every part justified in our drive to make hardware that puts functionality first. From design to finishing, we focus on making the best products in the industry. Krownlab is dedicated to creating world class architectural hardware. The fine texture changes both the color tone and light reflection of the metal. Positioning-centric information is changing the way people, businesses and governments work throughout the world. Our Satin finish is produced by hand through a media blasting process. The results speak for themselves: deep grooves for just the right amount friction and texture in the hand. Special tooling was imported from Germany, and different machining methods were explored. Inspired by the long legacy of this metal shaping technique, we set out to achieve the prefect diamond knurling for our Kor pulls. Select from two distinct textures: knurled for a more industrial look and feel and satin for a softer touch and variance in light reflection. Kor is available in four high-quality finishes and, like all Krownlab hardware, is proudly made in the USA. This unique design has a wide range of cabinet and furniture applications, enhancing kitchens, baths and living rooms as well as offices and hotels. That’s the whole idea of learning and using SketchUp, it’s the best tool I’ve seen for figuring things out so I can concentrate on building when it’s time to build.Our new Kor pulls bring a modern, timeless aesthetic to your space. If you make each part a component as soon as you can, and group things like doors, drawers and panels into nested components your modeling will be more efficient and you’ll be out in your real shop making stuff sooner. Build the Cabinet Box First, open a brand new SketchUp file in the architectural template, delete the figure, and zoom in so that the origin is clearly visible. One of the ways to get good at using SketchUp is to pretend you’re out in the shop working on real parts. One thing I do is to give the component the name I would give it in a real-life parts list and if there is a convenient way to designate the size, material or other special feature of a component I try to work it into the name. There are a bunch of ways you can use this information and of course there are also a bunch of things you can do to make this information more useful. Change the drawer box widths by moving the. In the case of your cabinets, you can change the width by changing the position of the right side of the cabinet. You’ll see how child components get moved instead of scaled. If you click on the name of a component in the Outliner window, that component will be highlighted in the model. You should have a look at some of the Dynamic Components that are included with sketchup. If you only see an icon of four small squares, you know that there are no other components nested inside. If you see a plus (+) sign next to a component’s name, a click on that will expand the list to show the child components and the plus sign changes to a minus (-) sign. One of the cool features of the Outliner window is that it shows the components in the way that they are organized. The plus sign next to the component names in the Outliner window will expand the display and show the names of nested components. The two rails are instances of the same component, so changing the top one will also change the one on the bottom. In this case the main component is open and so is the rail component. When a component is open, it is surrounded by a box of dotted lines and the rest of the model dims. With the “panel assembly” component open, I can move the individual components around, but to change the size of any of the nested components I need to open them for editing. There are two stiles (the skinny up and down pieces), two rails (the horizontal parts of the frame) and one panel. Within the panel component are five individual components, the parts that would be in a panel in the real world. At right, I’ve made a copy of that panel component out in space and opened it for editing. In the picture above, the paneled side of the cabinet is one component. In addition to making every part that would be a distinct piece in real life a component, I also combine individual components into a parent component. ![]() Each part is also a component, nested in side the assembly.
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