Ellison Technologies Distributes CNC Machine Tools and Engineering Solutions to American Manufacturers


Ellison Technologies equips American manufacturers to compete and succeed globally by distributing cutting-edge CNC machine tools, engineering solutions, and robotic automation technologies.

Employees at Ellison Technologies rate it highly on multiple culture dimensions, placing it among the Top 25% of comparable-sized companies on Comparably. These ratings include CEO Rating, Employee Net Promoter Score (NPS), and Leadership.

DN Solutions

Ellison Technologies stands out in the machine tool industry with its comprehensive selection of high-performance CNC machines. Distributed throughout North America by manufacturers, Ellison’s machines provide engineering solutions, service support, robotic automation integration, and machine financing – helping businesses increase efficiency and reduce costs while being accessible on any scale. Ellison’s expert staff are on hand to guide customers in selecting products suitable for their business needs.

DN Solutions, previously known as Doosan Machine Tools, is an international supplier of computerized numerical control (CNC) machine tools and related automation and technology equipment. They serve the automotive, aerospace, IT, and energy sectors, and their products include bar feeders, machining centers, mill-turn machines as well as vertical and horizontal turning centers, and bridge-type machine tools – plus accessories and complementary automation for each product line!

Recently, our company underwent a significant brand transformation. Under its new moniker of DN Solutions, this represents their dedication to evolving as global manufacturers, expanding upon current growth engines while actively developing new ones by investing in expanding manufacturing capacities while practicing sustainable social responsibility management practices.

Ellison Technologies values its team members as its most important resource, offering flexible work arrangements and the option to work remotely as benefits for its employees. Ellison also strives to promote a positive workplace culture, providing employees with optimal working conditions; their workforce comprises both full-time and part-time roles, with most being remote positions.

Machining solutions from this company are engineered to enhance the performance of metal-cutting businesses, offering increased productivity, quality, and throughput. Automatic assembly lines provide firms with an effective means to improve competitiveness in the market, with capabilities for producing small pieces to large assemblies. Alongside its high-performance machining centers, the company also provides other innovative products. These include a servo-driven rotary table for mill-turn applications, an SMX series of 5-axis machining centers with enhanced flexibility and precision, and a Swiss-type turning center designed to produce intricate microscopic components.

Robotic Automation

Robotic Process Automation (RPA) is a form of business process automation that employs software robots to perform high-volume, repetitive tasks without human agents being present. RPA works independently, securely, and continuously without intervention from outsiders or agents to automate existing processes and functions while using similar IT infrastructure that humans do.

An RPA tool combines software robots with additional technologies like artificial intelligence or machine learning to address more complex automation requirements. These different technologies may provide the context needed for recognizing patterns in data or performing more challenging tasks — for instance, reading text with optical character recognition technology, processing invoice terms with natural language processing, or estimating damage on insurance claim photographs.

Businesses are turning to RPA as an innovative solution to cut customer service costs and enhance service quality, especially during round-the-clock operations. When robots instead of human representatives handle customer inquiries, their time can be better used on more challenging issues that require a higher skill. This improves the customer experience and fosters loyalty for long-term business success.

One financial services company employs robotics to assist customers in navigating complex mortgage applications and documents. RPA technology identifies and captures relevant data before automatically performing necessary steps – speeding up application processing while decreasing employee time and increasing productivity.

RPA stands out as an invaluable asset in customer support thanks to its 24-hour availability and ability to be more responsive than human agents. An electronics retailer deployed a chatbot that allows customers to ask simple queries such as how to reset passwords. When no human representatives were available to answer those queries, RPA took over. Afterward, it directed customers directly to relevant articles or forum pages with answers instead of keeping representatives busy answering more straightforward inquiries while freeing up human representatives to handle more complex inquiries like upselling and complex inquiries – improving customer experience while reducing employee burnout and turnover rates significantly. RPA can either attend to or unattended, which is best suited to back-office operations as it requires minimal participant interaction.

CNC Machine Tools

CNC (computer numerical control) manufacturing technology automates machine tools’ management, movement, and precision for cutting metal parts. While traditional machines use levers and gears to perform cutting operations, modern CNC machines use preprogrammed computer software that reads digital instructions from its host computer system to instruct them on the action.

CNC technology can save time and money by performing multiple tasks simultaneously when producing or repairing existing products. Furthermore, this method helps provide more precise cuts, assuring your finished product meets specifications exactly.

At manufacturing facilities, CNC machines can be found in various forms. Professionals frequently choose CNC milling machines due to their spindle-mounted multi-point cutting tools that use multi-point milling for shape carving and face milling purposes; or peripheral milling for deeper cavities within workpiece surfaces.

CNC lathes provide another versatile option, employing rotating tools to cut or shape materials like wood and MDF. This type of machine can also create complex shapes that would otherwise be difficult or impractical to craft by hand. CNC turning centers combine two kinds of devices for more efficient processing capabilities, including creating contoured contours impossible or impractical to cut by hand.

All CNC machines are programmed using a set of machining codes, which an onboard microcomputer translates into digital commands that instruct it what to do. This coding has two main categories: G-code for general or geometric functions and M-code, which controls any additional functions attached to the machine.

An operator can begin manufacturing once a code has been loaded into a machine. They start by attaching their workpiece directly onto machinery or placing it into vises that hold it while running; once ready, they load tools necessary for cutting or shaping before following their program to create their desired form. Finally, quality assurance tools can be used to inspect it against specifications before final delivery to clients.

Engineering Solutions

Engineering Solutions is an engineering, program management, and construction management firm specializing in mechanical, electrical, plumbing, and fire protection (MEP & FP) for the Federal, Education, Healthcare, Commercial, and Industrial sectors. Engineering Solutions offers complete sourcing packages, including Design Engineering, Compliance Testing, Quality Control Logistics Warehousing Warehousing, and Just in Time deliveries.

Solution engineering is devising and executing a course of action commonly known as a solution. An engineer sets forth such action by mapping the situation’s structure, identifying points of impact, paths between them, desired outcomes, and activities for that map; before marshaling support and resources to implement their action plan.

To achieve this goal, engineers need to have an in-depth knowledge of the available technologies, their abilities and limitations, and how they will interact with one another to produce desired outcomes. Furthermore, engineers often research and create prototypes to test theoretical solutions; additionally, they must also keep close communication with customers regarding technical details in case additional clarifications or details become necessary.