AVRs Unleashed: Empowering CNC Machines for Optimal Performance

AVRs Unleashed: Empowering CNC Machines for Optimal Performance


The CNC machine industry currently stands at the forefront of modern manufacturing, powering the creation of many intricate products with precision and speed. In this highly competitive landscape, achieving optimal performance is not just a goal, it is a necessity. As CNC machines play a pivotal role in shaping diverse sectors, ranging from aerospace to electronics, the pursuit of excellence in their operation is essential to meet ever-evolving demands. 


In this article, we will be exploring the purpose of CNC machines, how they are used in different industries and what leading manufacturers do to ensure optimal performance.


Introduction to Industrial CNCs and Their Purpose


To reach a high degree of precision, manual operation of instruments such as drills, mills, and lathes necessitates tremendous labour and concentration from people. The emergence of Computer Numerically Controlled   (CNC) equipment revolutionised the industrial sector by overcoming this constraint. CNC machines include a microprocessor within the tool, allowing for automated machining control. CNC machines reduce the need for manual operation by following coded, preprogrammed instructions that include machine motions, material feed rates, speeds, and other parameters. This results in greater efficiency and precision. These devices are distinct from general-purpose motion controllers in that they are primarily intended to meet the demands of the machine tool industry. 



Furthermore, CNC machines are used in the manufacturing of a wide range of products, including aerospace components, metallic vehicle parts, woodwork decorations, and plastic consumer goods. Their flexibility stems from the fact that they can execute operations like wood routing, turret punching, wire bending, laser cutting, circular grinding, 3D printing, and more by using a broad range of extra equipment and parts. Manufacturers may use CNC technology to quickly and precisely build a wide range of goods capable of performing intricate cuts at various elevations and locations in a short period. CNC machine applications frequently utilize different supplementary equipment to achieve maximum precision, contributing to the overall efficiency and accuracy of the production process.





Why Do We Need CNC Machines?


We use CNC machines in various processes owing to the following reasons:



Enhanced Accuracy


Compared to conventional machines, CNC machines are far more accurate. This is due to the ability of CNC machines to accurately regulate tool motion, which guarantees every cut is made exactly where it should be. Greater accuracy is possible with CNC machining than with conventional techniques. This is so that they can maintain tolerances of 0.001 or less.



Increased Consistency


Since CNC machines are computer-controlled, they can consistently generate outputs over time. Contrast this with conventional approaches, where it is simple for human error to slip in and lead to inconsistent results.



Greater Speed


Compared to conventional machines, CNC machines can run at substantially faster rates. This is so that the tooling can be moved extremely fast without compromising precision or accuracy.



The Working of a CNC Machine


In a CNC framework, microcomputers are utilized to carry out all fundamental tasks following the software stored in the machine control system, which may transmit instructions to the servo drive to complete a range of tasks such as turning on and off the coolant and motors, shifting tools, and palletizing. Additionally, feedback tools like proximity detectors, pressure gauges, and other similar sensors continually monitor all CNC operations. As a result, the system would produce a “Fault Message” to notify the operator of any errors.





CNC Machine Industries


Precision is especially important in life-or-death situations, such cases arise in the military, aerospace, petrochemical, and defence sectors. Because a component’s failure might endanger lives, businesses in these industries demand the greatest level of precision in their components. When it matters, the CNC machine industry can attain the levels of accuracy required to save lives.



Medical Sector


To meet the different demands of patients, the medical industry depends on specialised, high-quality goods. However, this business also makes extensive use of disposable equipment to safeguard patients from contracting illnesses or infections while obtaining medical attention. To meet the demands of their patients and maintain their facilities supplied with necessities, medical firms need to produce large quantities of exact components. Sometimes businesses would ask for prototypes before starting full production, particularly when trying out new concepts. In the medical industry, prototypes are essential since experts must make sure the items are reliable before deploying them on patients.


The numerous CNC machine types from CNC machines industries easily adapt to the demands of the medical industry. Medical professionals may have a broad range of components made by CNC machining or the CNC machine industry, such as implants, MRI systems, orthotic equipment, electrical items, and electronic casings to regulate devices. This is possible because of the diversity of materials and equipment that is accessible.



Aerospace Industry


Devices used in the aerospace sector are exposed to a variety of situations, such as rapid speeds, swift air currents, and very high air pressure. Engineers must use the exact equipment and components to build every component to prevent harm to the aircraft. Even a little error might cause drag or worsen component wear.


CNC machining or CNC machine industry for the aerospace industry must adhere to very exact specifications, such as tolerances of about 0.00004 inches. With extra-critical and robust industry-standard substances like titanium, aluminium, nickel, and various polymers, machinists must abide by such tolerances. The precise materials used are dependent upon the components being produced and the qualities needed for that CNC constituent. Manifolds, airfoils, and bushings are just a few of the components that the aerospace and aviation industries employ for aircraft and aircraft servicing equipment.





The Transportation Sector


Many parts utilised in the aviation sector, such as engines, may also be found in the transportation sector. Because it impacts people’s safety and ability to travel, product development and testing are equally important for the transportation business as they are for the aerospace industry. The designers of vehicles should test physical component prototypes to bring improvement to their initial concepts and models. The technical staff may construct prototypes, evaluate their viability, and finally produce a design that fulfils all of their precise requirements thanks to CNC machining. CNC machine applications are the best option in this regard.


Unlike the aviation and space industries, which want vehicles with supersonic performance, the transportation business demands durability. To transport big items over long distances, vehicles require sturdy components. The accuracy of the CNC machine applications can meet all these requirements of the transportation sector.





The Oil and Gas Sector


Huge machinery is utilised in the petrochemical sector at large. Precision-fitting, well-machined components are essential in this area of work. A poor fit might lead to problems like leakage of valves, failures of pistons, and malfunctioning of cylinders. Petrochemical organisations need components produced by the most precise CNC machines to ensure high efficacy.


Another instance where components need to have a high tolerance is drilling rigs. Drilling rigs function at remote locations, in contrast to other facilities. Getting a replacement or repair for a CNC component that doesn’t function properly might prevent you from producing for days.


Read on to find out how these industries safeguard their valuable equipment and maintain optimal uptime.  




CNC Success Stories


Ford Motor Company:



The case of the Ford Motor Company is one of the relevant examples where the utilisation of CNC machines has not only reduced its production costs but has also increased the margins of profit of the company. The CNC machines enable the company to acquire accurate dimensions for the equipment as well as for the vehicles. Not only this, the utilisation of CNC machines has provided an impetus to manufacturing speed while minimising labour costs.



The Stryker Corporation:


The Stryker Corporation is one of the leading companies in medical device manufacturing regimes. The company is strongly linked with the usage of CNC machines especially in the production of orthopaedic implants and various other surgical instruments. Additionally, CNC machines make it possible to create implants that are unique to each patient, improving patient outcomes and speeding up surgery. Stryker maintains the highest quality standards and complies with strict regulatory criteria in the medical business thanks to the precise production process.


Electro Scientific Industries (ESI) 



CNC technologies are pivotal for precise manufacturing, demanding reliability in voltage control. Electro Scientific Industries (ESI) supplies cutting-edge CNC machines for critical applications. 


Challenges arise due to voltage irregularities, impacting operations. ESI collaborated with Ashley Edison to introduce Automatic Voltage Stabilisers (AVRs) to mitigate issues like fluctuations, surges, sags, and imbalances. These AVRs ensure consistent, clean power supply, safeguarding equipment and boosting performance.


 Ashley Edison’s AVRs provide ultra-precise regulation, enhancing CNC reliability. With over 855 AVRs delivered, ESI reaps benefits such as increased yield and reduced downtime. ESI’s journey exemplifies how precision and innovation elevate CNC manufacturing, fortifying industries with dependable solutions.


This journey towards precision and innovation is encapsulated in ESI’s case study. Explore how ESI’s CNC machines are revolutionising micro-manufacturing: https://www.ashleyedison.com/case-studies/max-uptime-for-cnc-manufacturer/ 




Ensuring Stable Power Supply with Voltage Stabilizers for CNC Machines


Static voltage stabilisers relevant to CNC machines from Ashley Edison’s Voltage Stabilizers can improve the functionality of your CNC machines by supplying steady power and lowering downtime.

In order to operate precisely and perform at their best, CNC machines—which are extensively employed in many sectors for precision manufacturing—need a steady and reliable power source. For the power requirements of CNC machines, Ashley Edison provides premium static voltage stabilisers.



Why Static Voltage Stabilizers are Important for CNC Machines?


The performance and precision of CNC machines may be greatly impacted by voltage fluctuations and disturbances, which can result in more downtime, more expensive maintenance, and lower-quality products. To safeguard CNC machines from voltage fluctuations and to enable them to work at their most productive levels, a static voltage stabiliser guarantees a consistent power supply.



Primary Benefits of Using a CNC Machine Static Voltage Stabiliser


Following are the benefits of CNC Machine Cases Voltage Stabilizers from Ashley Edison for CNC Machines.



Improved Performance


A steady power source from Ashley Edison makes it possible for CNC machines to retain their accuracy and precision, which improves product quality and increases output rates.



Reduced Downtime


A static voltage stabiliser from Ashley Edison reduces downtime by shielding CNC machines in CNC machines industries from voltage disturbances, raising overall productivity and lowering operating expenses.



Extended Equipment Life


Voltage fluctuations may shorten the lifetime and raise maintenance expenses of CNC equipment in CNC machine industries by causing wear and tear. Equipment is shielded from voltage disturbances by a static voltage stabiliser from Ashley Edison, extending its lifespan and lowering maintenance costs.



Energy Efficiency


The static voltage stabilisers from Ashley Edison are designed with energy efficiency in mind, minimising power losses and energy consumption.



Advanced protective Features


To preserve your priceless CNC machines and maintain a steady power supply, static voltage stabilisers from Ashley Edison are fitted with several built-in protective features, including over/under voltage, short circuit, overload, and surge protection.





Computer-controlled machining, or CNC (computer numerical control) machining, is a manufacturing technique in which machine tools are programmed to etch certain features onto a workpiece. CNC machines are a preferred option among producers because of their astounding accuracy, precision, and speed. In a broad range of industries and sectors, CNC machines are employed in several ways. Some firms choose to purchase pre-owned CNC machines to get them at a discount. Because of their reputation for accuracy and dependability, these machines are excellent for producing engine parts and other components. Machined parts are used in a wide range of industries, including transportation and medicine.



CNC machining is now more competent than any other manufacturing technique to date in making complicated, personalised designs because of advancements in computers and mechanical equipment. Automatic voltage regulators keep the CNC machine in its best condition which needs a consistent, dependable voltage supply at a constant voltage level. It might be difficult to find the optimum voltage regulation tool for your equipment loads when there are so many options available. Knowing what to look for in an automatic voltage regulator is crucial since failing to do so might result in costly downtime for your equipment.


Need specified voltage for your CNC machines to work accurately and maximise productivity? Get an AVR to help ensure voltage regulation for your CNC operations now! Contact Ashley Edison to get started! 



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