Abstract: A multi-scale manufacturing system comprising a centrally located multi-axis and multi-dimensional first manipulating component associated with a housing for manipulating a substrate and a template, a control subsystem coupled to the first manipulating component for controlling movement thereof, a pre-alignment subsystem for pre-aligning the substrate and the template, an assembly station for applying nanomaterial to the template, an alignment station for aligning the template and the substrate together to form a workpiece assembly, and a transfer subsystem for applying pressure to the workpiece assembly for transferring the nanomaterial from the template to the substrate.
Type:
Grant
Filed:
November 11, 2019
Date of Patent:
August 3, 2021
Assignee:
Milara Incorporated
Inventors:
Krassimir D. Petkov, Velimir Deric, Haniel Olivera, Eugene Bonev
Abstract: A multi-scale manufacturing system comprising a centrally located multi-axis and multi-dimensional first manipulating component associated with a housing for manipulating a substrate and a template, a control subsystem coupled to the first manipulating component for controlling movement thereof, a pre-alignment subsystem for pre-aligning the substrate and the template, an assembly station for applying nanomaterial to the template, an alignment station for aligning the template and the substrate together to form a workpiece assembly, and a transfer subsystem for applying pressure to the workpiece assembly for transferring the nanomaterial from the template to the substrate.
Type:
Grant
Filed:
September 19, 2016
Date of Patent:
September 17, 2019
Assignee:
Milara Incorporated
Inventors:
Krassimir D. Petkov, Velimir Deric, George Krastev, Radoslav A. Kefilev, Sabin I. Sinapov, Plamen Kamenarov
Abstract: A manufacturing system for applying a material to a workpiece comprising a blade unit having a blade element for selectively moving along first and second axes for applying the material to the workpiece. A reciprocating motor is coupled to the blade unit for reciprocating the blade element along the first axis concurrent with movement of the blade element along the second axis, and a vibration detector is coupled to the blade unit for detecting the vibrational movement of the blade element. The vibration detector generates an output signal corresponding to the vibrational movement of the blade element. A control unit is coupled to the vibration detector for generating an output signal in response to the vibration detector signal, and a regulating device adjusts a parameter of the reciprocating motor in response to the output signal of the control unit.
Type:
Grant
Filed:
September 15, 2016
Date of Patent:
October 16, 2018
Assignee:
Milara Incorporated
Inventors:
Krassimir D. Petkov, Velimir Deric, Stephen K. Brodeur