Robotic Research Uses Innovations to Help Health Care Workers Fight COVID-19

DC-area engineering firm produces reusable face shields for region’s hospitals, offers sterile 3D printer patent for COVID applications globally

The team of engineers at Robotic Research LLC, a leading provider of autonomy and robotic technologies for government and commercial customers, announced today they are applying their innovative engineering expertise to create new solutions for healthcare workers to help fight the COVID-19 crisis in the Washington area and around the world. The company has created a unique design for reusable face shields and is providing them to healthcare teams in hospitals around the Greater Washington Metro area. The company also just opened up its patented design of its sterile 3D printer by waiving licensing fees globally for any application of the printers related to fighting the current public health pandemic.


Face shields

The face shields, which Robotic Research is printing on standard industrial 3D printers at its robotics engineering facility in Clarksburg, Maryland, are currently being delivered to support teams at local hospitals in the Montgomery County area. The face shield design provides comfort and protection, and features an improved disinfection process capability using materials that are compatible with the cleaning methods used at a hospital. The design has been approved for use in select departments, with broader uses currently under evaluation.

"Our team wanted to help out in any way we could to support the local frontline health care providers who are working around the clock to assist those impacted by the COVID-19 public health crisis," said Alberto Lacaze, president of Robotic Research. "We are producing a face shield that modifies a design that is based off the blueprint provided by the National Institutes of Health. The design includes some enhancements to further protect from aerosol in the temple area, allow the masks to be cleaned and therefore reusable, as well as comfortable to wear over prolonged use."

Robotic Research has sourced materials from across the country to support the production of approximately 2,000 face shields. The company is seeking a grant through Montgomery County and the state of Maryland to boost production to approximately 500 shields a day. Robotic Research is a provider of autonomy and robotic technologies for government and commercial customers. The company normally uses its standard 3D printers to support many of its products and solutions.

Sterile 3D printer

Materials used for polymer 3D printing are often damaged by the high temperatures, chemicals or radiation used in standard sterilization processes. Robotic Research's patented process overcomes this challenge by using a sterile chamber around a 3D printer where unsterilized plastic is brought into the chamber. The possibly contaminated plastic is sterilized by the printing process and packaged maintaining the sterile field. This system was initially designed for a U.S. government agency to allow sterile medical materials to be printed at locations where commonly used sterilization methods might not be possible.

"Because this printer can create sterile materials, which are sterile from the inside out once produced, we are eliminating the need for hospitals to resterilize equipment before use," said Lacaze. "At a time when efficiency and supplies are critical, we hope this technology will be able to help alleviate some of the immense pressure hospitals and medical facilities are currently facing. It is our hope that providing the use of this process at no cost may help bring solutions to the health care teams working to save lives during this crisis."

This unique printer process enables the manufacturing of sterile medical equipment and implantable device components, such as intubation tubes and other materials required during invasive procedures, in a manner that eliminates the need for additional sterilization.

Robotic Research's patented sterile 3D printing process (USPTO 10,406,758) will be available royalty free for a minimum of one year for any COVID-19 applications across the globe.

The company is committed to continuing to use its resources and facilities to develop solutions for the ongoing challenges of the COVID-19 pandemic.

Multimedia

Learn more about Robotic Research's COVID-19 support efforts at https://www.roboticresearch.com/covid-19-information

Images of the initial batch of face shields delivered to Maryland hospitals can be found at https://bit.ly/3cbd2Er

The 3D printing system patent can be found at https://bit.ly/2ybJfNf

About Robotic Research

Robotic Research, LLC, is a leading provider of autonomy software and robotic technology and solutions driving the transformation of commercial and government autonomous operations through innovative and intelligent systems. Whether providing autonomous systems to the military to keep the warfighter safe, delivering unmanned transformable robots to extend the reach of Special Forces units, or making commercial transportation safer and more efficient, Robotic Research is leading this dynamic revolution in technology. To learn more about Robotic Research, visit www.roboticresearch.com and follow us on Twitter and LinkedIn.

Featured Product

T.J. Davies' Retention Knobs

T.J. Davies' Retention Knobs

Our retention knobs are manufactured above international standards or to machine builder specifications. Retention knobs are manufactured utilizing AMS-6274/AISI-8620 alloy steel drawn in the United States. Threads are single-pointed on our lathes while manufacturing all other retention knob features to ensure high concentricity. Our process ensures that our threads are balanced (lead in/lead out at 180 degrees.) Each retention knob is carburized (hardened) to 58-62HRC, and case depth is .020-.030. Core hardness 40HRC. Each retention knob is coated utilizing a hot black oxide coating to military specifications. Our retention knobs are 100% covered in black oxide to prevent rust. All retention knob surfaces (not just mating surfaces) have a precision finish of 32 RMA micro or better: ISO grade 6N. Each retention knob is magnetic particle tested and tested at 2.5 times the pulling force of the drawbar. Certifications are maintained for each step in the manufacturing process for traceability.