Patents by Inventor Benjamin Oliver
Benjamin Oliver has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11082589Abstract: A visual inspection device includes a housing, a handle coupled to the housing that is grasped by a user while the device is in use, and an articulating camera unit coupled to the housing. The articulating camera unit includes a flexible cable with a first end coupled to the housing and a second end, a camera coupled to the second end of the flexible cable and operable to transmit image data through the flexible cable, and an articulation mechanism operable to articulate the camera relative to the flexible cable. The articulation mechanism includes a mount that is removably coupled to the housing. The articulating camera unit further includes a means for securing the mount to the housing in a plurality of different orientations relative to the housing. The visual inspection device further includes a display unit coupled to the housing to display an image transmitted by the articulating camera unit.Type: GrantFiled: October 21, 2019Date of Patent: August 3, 2021Assignee: Milwaukee Electric Tool CorporationInventors: Gareth Mueckl, Jason R. Crowe, Benjamin Oliver Ryan Cabot
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Publication number: 20210231734Abstract: A testing device including a main housing, and a probe housing, wherein the probe housing is rotatably coupled to the main housing. The testing device further includes a first test probe and a second test probe. The first test probe may be configured to be inserted into an alternating-current receptacle. The second test probe is coupled to the probe housing. The second test probe may be configured to be inserted into a universal serial bus receptacle.Type: ApplicationFiled: April 12, 2021Publication date: July 29, 2021Inventors: Benjamin Oliver Ryan Cabot, Gareth Mueckl
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Patent number: 11002796Abstract: A testing device including a housing including an indicator, a main housing, and a probe housing, wherein the probe housing is rotatably coupled to the main housing. The testing device further includes a first test probe and a second test probe. The first test probe is coupled to the main housing. The first test probe is configured to be inserted into an alternating-current receptacle. The second test probe is coupled to the probe housing. The second test probe is configured to be inserted into a universal serial bus receptacle.Type: GrantFiled: June 28, 2018Date of Patent: May 11, 2021Assignee: Milwaukee Electric Tool CorporationInventors: Benjamin Oliver Ryan Cabot, Gareth Mueckl
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Publication number: 20210010869Abstract: Systems, methods, and devices for thermal detection. A thermal detection device includes a visual sensor, a thermal sensor (e.g., a thermopile array), a controller, a user interface, a display, and a removable and rechargeable battery pack. The thermal detection device also includes a plurality of additional software and hardware modules configured to perform or execute various functions and operations of the thermal detection device. An output from the visual sensor and an output from the thermal sensor are combined by the controller or the plurality of additional modules to generate a combined image for display on the display.Type: ApplicationFiled: September 28, 2020Publication date: January 14, 2021Inventors: Evans H. Nguyen, Matthew J. Mergener, Wade Burch, James V. Curtin, Zachary P. Haas, Benjamin Oliver Ryan Cabot, Gareth Mueckl
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Patent number: 10794769Abstract: Systems, methods, and devices for thermal detection. A thermal detection device includes a visual sensor, a thermal sensor (e.g., a thermopile array), a controller, a user interface, a display, and a removable and rechargeable battery pack. The thermal detection device also includes a plurality of additional software and hardware modules configured to perform or execute various functions and operations of the thermal detection device. An output from the visual sensor and an output from the thermal sensor are combined by the controller or the plurality of additional modules to generate a combined image for display on the display.Type: GrantFiled: March 14, 2013Date of Patent: October 6, 2020Assignee: MILWAUKEE ELECTRIC TOOL CORPORATIONInventors: Evans H. Nguyen, Matthew J. Mergener, Wade Burch, James V. Curtin, Zachary P. Haas, Benjamin Oliver Ryan Cabot, Gareth Mueckl
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Patent number: 10743950Abstract: An implant positioning device and a method of using the device are described. The positioning device includes an end effector configured to contact an implant component during a surgical procedure, the end effector connected to an actuator for imparting an impact force to the implant component during the surgical procedure, a motor mechanically connected to the actuator and configured to move the actuator to produce one or more impacts on the end effector, thereby imparting the impact force to the implant component, and a control circuit coupled to the motor. The control circuit is configured to generate at least one motor control signal, transfer the at least one motor control signal to the motor, and, as a result of the at least one motor control signal, cause the motor to move the actuator to produce one or more impacts on the end effector.Type: GrantFiled: March 1, 2018Date of Patent: August 18, 2020Assignee: Blue Belt Technologies, Inc.Inventors: Constantinos Nikou, Branislav Jaramaz, Benjamin Oliver McCandless
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Publication number: 20200155247Abstract: Systems and methods for navigation and control of an implant positioning device are discussed. For example, a method can include operations for accessing an implant plan, establishing a 3-D coordinate system, receiving tracking information, generating control signals, and sending the control signals to the implant positioning device. The implant plan can include location and orientation data describing an ideal implant location and orientation in reference to an implant host. The 3-D coordinate system can provide spatial orientation for the implant positioning device and the implant host. The tracking information can identify current location and orientation data within the 3-D coordinate system for the implant positioning device and implant host during a procedure. The control signals can control operation of the implant positioning device to assist a surgeon in positioning the implant according to the implant plan.Type: ApplicationFiled: January 21, 2020Publication date: May 21, 2020Inventors: Constantinos NIKOU, Branislav JARAMAZ, Benjamin Oliver MCCANDLESS
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Publication number: 20200155246Abstract: Systems and methods for navigation and control of an implant positioning device are discussed. For example, a method can include operations for accessing an implant plan, establishing a 3-D coordinate system, receiving tracking information, generating control signals, and sending the control signals to the implant positioning device. The implant plan can include location and orientation data describing an ideal implant location and orientation in reference to an implant host. The 3-D coordinate system can provide spatial orientation for the implant positioning device and the implant host. The tracking information can identify current location and orientation data within the 3-D coordinate system for the implant positioning device and implant host during a procedure. The control signals can control operation of the implant positioning device to assist a surgeon in positioning the implant according to the implant plan.Type: ApplicationFiled: January 21, 2020Publication date: May 21, 2020Inventors: Constantinos NIKOU, Branislav JARAMAZ, Benjamin Oliver MCCANDLESS
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Publication number: 20200085521Abstract: Systems and methods for navigation and control of an implant positioning device are discussed. For example, a method can include operations for accessing an implant plan, establishing a 3-D coordinate system, receiving tracking information, generating control signals, and sending the control signals to the implant positioning device. The implant plan can include location and orientation data describing an ideal implant location and orientation in reference to an implant host. The 3-D coordinate system can provide spatial orientation for the implant positioning device and the implant host. The tracking information can identify current location and orientation data within the 3-D coordinate system for the implant positioning device and implant host during a procedure. The control signals can control operation of the implant positioning device to assist a surgeon in positioning the implant according to the implant plan.Type: ApplicationFiled: November 21, 2019Publication date: March 19, 2020Inventors: Constantinos NIKOU, Branislav JARAMAZ, Benjamin Oliver MCCANDLESS
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Publication number: 20200078974Abstract: An example system includes a cutting tool and a device configured to remotely control the cutting tool. The device is configured to establish a wireless communication with the cutting tool, and the cutting tool is configured to send a first signal to the device indicating that the cutting tool is enabled to be operated remotely responsive to the cutting tool receiving information indicating that a trigger is locked in an “on” state and a remote switch is in a first position. The device is configured to send a second signal to the cutting tool indicating a request to cause the cutting tool to perform a cutting operation responsive to receiving information indicative of actuation of at least one button of a user interface of the device.Type: ApplicationFiled: November 14, 2019Publication date: March 12, 2020Inventors: Luke Skinner, Timothy Ryan Obermann, Benjamin Oliver Ryan Cabot, Thomas Cunningham Hanks
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Publication number: 20200053259Abstract: A visual inspection device includes a housing, a handle coupled to the housing that is grasped by a user while the device is in use, and an articulating camera unit coupled to the housing. The articulating camera unit includes a flexible cable with a first end coupled to the housing and a second end, a camera coupled to the second end of the flexible cable and operable to transmit image data through the flexible cable, and an articulation mechanism operable to articulate the camera relative to the flexible cable. The articulation mechanism includes a mount that is removably coupled to the housing. The articulating camera unit further includes a means for securing the mount to the housing in a plurality of different orientations relative to the housing. The visual inspection device further includes a display unit coupled to the housing to display an image transmitted by the articulating camera unit.Type: ApplicationFiled: October 21, 2019Publication date: February 13, 2020Inventors: Gareth Mueckl, Jason R. Crowe, Benjamin Oliver Ryan Cabot
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Patent number: 10507590Abstract: An example system includes a cutting tool and a device configured to remotely control the cutting tool. The device is configured to establish a wireless communication with the cutting tool, and the cutting tool is configured to send a first signal to the device indicating that the cutting tool is enabled to be operated remotely responsive to the cutting tool receiving information indicating that a trigger is locked in an “on” state and a remote switch is in a first position. The device is configured to send a second signal to the cutting tool indicating a request to cause the cutting tool to perform a cutting operation responsive to receiving information indicative of actuation of at least one button of a user interface of the device.Type: GrantFiled: March 10, 2017Date of Patent: December 17, 2019Assignee: Milwaukee Electric Tool CorporationInventors: Luke Skinner, Timothy Ryan Obermann, Benjamin Oliver Ryan Cabot, Thomas Cunningham Hanks
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Patent number: 10477079Abstract: A visual inspection device includes a housing, a handle coupled to the housing that is grasped by a user while the device is in use, and an articulating camera unit coupled to the housing. The articulating camera unit includes a flexible cable with a first end coupled to the housing and a second end, a camera coupled to the second end of the flexible cable and operable to transmit image data through the flexible cable, and an articulation mechanism operable to articulate the camera relative to the flexible cable. The articulation mechanism includes a mount that is removably coupled to the housing. The articulating camera unit further includes a means for securing the mount to the housing in a plurality of different orientations relative to the housing. The visual inspection device further includes a display unit coupled to the housing to display an image transmitted by the articulating camera unit.Type: GrantFiled: July 6, 2017Date of Patent: November 12, 2019Assignee: MILWAUKEE ELECTRIC TOOL CORPORATIONInventors: Gareth Mueckl, Jason R. Crowe, Benjamin Oliver Ryan Cabot
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Publication number: 20190133701Abstract: Systems and methods for navigation and control of an implant positioning device are discussed. For example, a method can include operations for accessing an implant plan, establishing a 3-D coordinate system, receiving tracking information, generating control signals, and sending the control signals to the implant positioning device. The implant plan can include location and orientation data describing an ideal implant location and orientation in reference to an implant host. The 3-D coordinate system can provide spatial orientation for the implant positioning device and the implant host. The tracking information can identify current location and orientation data within the 3-D coordinate system for the implant positioning device and implant host during a procedure. The control signals can control operation of the implant positioning device to assist a surgeon in positioning the implant according to the implant plan.Type: ApplicationFiled: January 7, 2019Publication date: May 9, 2019Inventors: Constantinos NIKOU, Branislav JARAMAZ, Benjamin Oliver MCCANDLESS
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Publication number: 20190133700Abstract: Systems and methods for navigation and control of an implant positioning device are discussed. For example, a method can include operations for accessing an implant plan, establishing a 3-D coordinate system, receiving tracking information, generating control signals, and sending the control signals to the implant positioning device. The implant plan can include location and orientation data describing an ideal implant location and orientation in reference to an implant host. The 3-D coordinate system can provide spatial orientation for the implant positioning device and the implant host. The tracking information can identify current location and orientation data within the 3-D coordinate system for the implant positioning device and implant host during a procedure. The control signals can control operation of the implant positioning device to assist a surgeon in positioning the implant according to the implant plan.Type: ApplicationFiled: January 7, 2019Publication date: May 9, 2019Inventors: Constantinos NIKOU, Branislav JARAMAZ, Benjamin Oliver MCCANDLESS
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Publication number: 20180344414Abstract: Systems and methods for navigation and control of an implant positioning device are discussed. For example, a method can include operations for accessing an implant plan, establishing a 3-D coordinate system, receiving tracking information, generating control signals, and sending the control signals to the implant positioning device. The implant plan can include location and orientation data describing an ideal implant location and orientation in reference to an implant host. The 3-D coordinate system can provide spatial orientation for the implant positioning device and the implant host. The tracking information can identify current location and orientation data within the 3-D coordinate system for the implant positioning device and implant host during a procedure. The control signals can control operation of the implant positioning device to assist a surgeon in positioning the implant according to the implant plan.Type: ApplicationFiled: July 24, 2018Publication date: December 6, 2018Inventors: Constantinos NIKOU, Branislav JARAMAZ, Benjamin Oliver MCCANDLESS
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Patent number: 10126331Abstract: A multi-meter including a current input, a common input, a display, a first current measurement circuit, a second current measurement circuit, and a controller. The controller includes a first input and a second input. The controller operable to receive a first voltage from the first current measurement circuit at the first input, receive a second voltage from the second current measurement circuit at the second input, determine a value for a current being measured based on the first voltage if the first voltage is below a predetermined threshold, determine a value for a current being measured based on the second voltage if the first voltage is above the predetermined threshold, generate an output signal related to the determined value for the current, and provide the output signal to the display.Type: GrantFiled: December 29, 2016Date of Patent: November 13, 2018Assignee: MILWAUKEE ELECTRIC TOOL CORPORATIONInventors: Benjamin Oliver Ryan Cabot, Evans H. Nguyen
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Publication number: 20180321297Abstract: A testing device including a housing including an indicator, a main housing, and a probe housing, wherein the probe housing is rotatably coupled to the main housing. The testing device further includes a first test probe and a second test probe. The first test probe is coupled to the main housing. The first test probe is configured to be inserted into an alternating-current receptacle. The second test probe is coupled to the probe housing. The second test probe is configured to be inserted into a universal serial bus receptacle.Type: ApplicationFiled: June 28, 2018Publication date: November 8, 2018Inventors: Benjamin Oliver Ryan Cabot, Gareth Mueckl
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Publication number: 20180303564Abstract: An implant positioning device and a method of using the device are described. The positioning device includes an end effector configured to contact an implant component during a surgical procedure, the end effector connected to an actuator for imparting an impact force to the implant component during the surgical procedure, a motor mechanically connected to the actuator and configured to move the actuator to produce one or more impacts on the end effector, thereby imparting the impact force to the implant component, and a control circuit coupled to the motor. The control circuit is configured to generate at least one motor control signal, transfer the at least one motor control signal to the motor, and, as a result of the at least one motor control signal, cause the motor to move the actuator to produce one or more impacts on the end effector.Type: ApplicationFiled: June 25, 2018Publication date: October 25, 2018Inventors: Constantinos NIKOU, Branislav JARAMAZ, Benjamin Oliver MCCANDLESS
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Patent number: 10024902Abstract: A testing device including a housing having an indicator, a first test probe configured to be inserted into an alternating-current (AC) receptacle, a second test probe configured to be inserted into a universal serial bus (USB) receptacle, a first test circuit located within the housing, and a second test circuit located within the housing. The first test circuit is coupled to the first test probe and is configured to receive an AC voltage from the AC receptacle, perform a first test on the AC voltage, and output a first signal to the indicator based on the first test. The second test circuit is electrically coupled to the second test probe and is configured to receive a USB voltage from the USB receptacle, perform a second test on the USB voltage, and output a second signal to the indicator base on the second test.Type: GrantFiled: March 18, 2016Date of Patent: July 17, 2018Assignee: MILWAUKEE ELECTRIC TOOL CORPORATIONInventors: Benjamin Oliver Ryan Cabot, Gareth Mueckl