Automation, the application of machines to tasks once performed by human beings or, increasingly, to tasks that would otherwise be impossible. Although the term mechanization is often used to refer to the simple replacement of human labour by machines, automation generally implies the integration of machines into a self-governing system. Robotics is one of these technologies; it is a specialized branch of automation in which the automated machine possesses certain anthropomorphic, or humanlike, characteristics. The robot’s arm can be programmed to move through a sequence of motions to perform useful tasks, such as loading and unloading parts at a production machine or making a sequence of spot-welds on the sheet-metal parts of an automobile body during assembly. Some of the important historical developments in mechanization and automation leading to modern automated systems are described here. Thousands of years were undoubtedly required for the development of simple mechanical devices and machines such as the wheel, the lever, and the pulley, by which the power of human muscle could be magnified. The next extension was the development of powered machines that did not require human strength to operate. Examples of these machines include waterwheels, windmills, and simple steam-driven devices. The steam engine represented a major advance in the development of powered machines and marked the beginning of the Industrial Revolution. During the two centuries since the introduction of the Watt steam engine, powered engines and machines have been devised that obtain their energy from steam, electricity, and chemical, mechanical, and nuclear sources. Each new development in the history of powered machines has brought with it an increased requirement for control devices to harness the power of the machine. The flying-ball governor remains an elegant early example of a negative feedback control system, in which the increasing output of the system is used to decrease the activity of the system. Another important development in the history of automation was the Jacquard loom, which demonstrated the concept of a programmable machine. These cards were the ancestors of the paper cards and tapes that control modern automatic machines. The concept of programming a machine was further developed later in the 19th century when Charles Babbage, an English mathematician, proposed a complex, mechanical “Analytical engine” that could perform arithmetic and data processing.
Home Automation buying guide
Home automation is nothing new, but a recent boom in smart home tech has thrust it straight into the spotlight. “Home automation” is slightly less broad, referring specifically to things in your home that can be programmed to function automatically. Are there any devices you regularly turn on and off? Do you regularly adjust your home environment depending on what you’re doing? Those regular habits and activities are typically the best candidates for automation. Some of the most popular categories in home automation include light bulbs, switches, home security, door locks, cameras and climate control. These devices are the nervous system of the smart home – they’re able to sense the environment around them in some way, providing vital context for the decisions your automated home is going to make. A good one will integrate every smart thing in your home into a single, seamless home automation experience, and offer consolidated controls within a single app. Typically, a hub will include multiple radios for popular smart home protocols like Z-Wave and ZigBee – the wireless “Languages” of smart home gadgetry. One other smart home platform you might have heard something about is IFTTT. An acronym for “If This, Then That,” IFTTT is a free service that lets you craft automation recipes that link smart gadgets, web services, and online tools. Home automation can conjure Jetsons-esque images of fully mechanized, highly intelligent living spaces. If you’ve got a specific vision for want you want your home automation setup to accomplish, all that’s left is to study your options, narrow them down, and give one a shot. The majority of home automation boils down to things turning on and off on their own. For now, my pick is the Belkin WeMo Mini, which offers a mature, well-developed system, tons of use scenarios, fairly wide third-party compatibility, and best of all, a price point of just $35. It’s a low-risk way to dip your foot into smart home waters, and if you like it, finding compatible gadgets that make it even smarter isn’t difficult at all. In general, smart home manufacturers see the value in keeping things at least somewhat open, and many go out of their way to embrace third-party hubs and smart home platforms as a means of providing compatibility with other gadgets. You can also find ways of experimenting with home automation that don’t cost anything at all. In sum, it’s a great time to give home automation a shot.
If you want to improve the quality or productivity of an existing manual manufacturing/assembly process or lower the operating cost, DESHAZO can provide you with an engineered solution to meet your requirements. Our engineers will visit your site, observe your manufacturing processes and prepare a 3-D conceptual design of the equipment or system to meet your requirements. We employ the latest technology in design and manufacturing processes including SolidWorks, AutoCAD, Catia, and Robot Simulation software as well as CNC manufacturing equipment in our plant. DESHAZO has the ability to analyze the financial benefits of a prospective automation project in your facility. Working with your personnel, we can assist in calculations on the projected improvement in productivity, quality and operating cost, as well as the return on investment of an automation project. DESHAZO has the engineering and manufacturing expertise to design, build and install one work cell or a complete automation system in your facility to meet your requirements. We have the capability to handle all aspects of your automation project to provide a complete solution for your needs. DESHAZO’s team has designed, built and installed all kinds of manual, semi-automated and fully automated assembly systems. DESHAZO has developed solutions for virtually every type of testing and inspection situation, including mechanical, functional, electrical, and leak detection/flow measurement testing. Whether you’re working with simple gravity conveyors or complex, fully programmable sorting/inspection lines, DESHAZO can provide integrated material handling systems to suit your needs. DESHAZO has developed robotic solutions for welding applications including precise laser welding, plastics joining, resistance welding and automated wire feed welding applications. With DESHAZO’s integrated control systems, you will be able to know, control, and react to everything that occurs in your operation. DESHAZO is proficient in the application of many controls systems including Allen Bradley, Omron, Mitsubishi, GE, and Toyopuc PLC’s, as well as other custom computer programs and database design. DESHAZO can provide you with robotic vision systems to perform quality control inspections, parts picking and other applications to lower hard tooling costs. DESHAZO can provide you with a robotic packaging system that will determine what product goes into a particular package and then box the product.