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Texte wiki de la nouvelle page, après la modification (new_wikitext) | '<br>A rising busbar in commercial applications is used to isolate certain loads or equipment so that it may be operated safely and cleanly without the presence of multiple bus bars. Rising busbars are used in different applications including overhead cranes, utility lifts, telecommunication lines and cable assembly lines among others. Rising busbars also provide an effective solution to the overload conditions that are created during the operation of different equipment or machinery. Busbars come in different shapes, sizes and configurations. It is important to analyze your specific application so that you are able to select the one that will give you the best performance.<br><br><br>The rising busbar system has two major components - the busbar isolator. The busbar isolator connects the busbar to the unit which encloses the load that needs to be isolated. The rising busbar system isolates any load or system from the utilities. Usually these busbars sit above the outside load of the utility, on the top of the main structure of the building. The function of a rising busbar is to guide the electrical current to the loads they are intended to support, and to make sure there is enough space at the bottom of the busbar and the utilities to make sure that there is enough space for the current to travel through the load.<br><br><br>Most rising busbar systems consist of steel struts or tiebacks. Steel struts are designed to keep the load secure while the busbar is at its highest and helps prevent the load from rising suddenly. These are also useful to keep the top load stable when the busbar system is at its lowest position. In addition to steel struts, a pre-made tieback can also be used if you don't want to build your own. Tiebacks are simply pieces of metal which can be tied around or under the load to prevent it from rising unexpectedly.<br><br><br>The next component of the rising busbar system is the vertical support rod. This is usually made from iron or steel and attaches the busbar to the structure it is connected to. Depending on the type of busbar system you have, this could be either a single horizontal pole or a series of vertically positioned poles. The vertical support rod helps prevent the busbar from twisting in any direction when the structure or utilities are being used and keeps the load secure.<br><br><br>The last component is the cable tie-down. This is usually made of cable wire and attaches the busbar to the tie-down pole and the actual utility. These cables are controlled manually or electronically, depending on the type of busbar system you have. It is usually located above the pole to prevent unwanted cable interference.<br><br><br>To make sure that your new structure looks good and performs well, it is important to hire a professional roofer. Rising busbars are relatively simple structures to install, but there are quite a few things that can go wrong if you try to do it yourself. If you loved this article therefore you would like to acquire more info pertaining to [https://www.rhibusbar.com/product/extruded_copper_bus_bar.html RHI Electric] please visit our web site. It would be a big mistake to attempt to install your busbar without the help of an experienced roofer, because the wrong height can damage the structure of your roof. If you are planning on building a vertical lift cable fence, it would be a good idea to hire a professional company to install it. This way you will be guaranteed that your structure will look good, perform properly and will last for years to come.<br>' |