The material becomes misaligned after passing through a furnace during the manufacturing process. Misalignment can lower productivity and increase failure risks. Various factors could be causing the misalignment, such as vibration during rolling, motor speed/torque issues, lack of maintenance, improper guidelines, design limitations, inexperience, material properties like thermal expansion, and potential design errors.
The document discusses reasons for inaccurate drilling using a hand drill. It identifies several potential user errors that could lead to inaccurate drilling, including a lack of experience, using the wrong tools, not handling the drill properly, or having an uneven work surface. It also notes that vibration during drilling and a lack of feedback on the drilling position can cause inaccuracies. The document proposes using sensors like an inertial measurement unit (IMU) or ultrasonic sensor to provide feedback on the drill's angle or distance from the workpiece to improve accuracy. However, it acknowledges this would increase the device's complexity and loss of time.
Printii proposal for Transation over TransportationJohnson Wang
This document describes how Printii works over transportation. Same solution could be integrated to commerce over flight, high-speed rail and even long distant bus.
This document discusses redesigning a remote live view app to be more user-friendly for home users rather than IT experts. It suggests simplifying the connection process by allowing users to enter an IP address, device ID, or search without specifying device details. The redesign focuses on intuitive navigation between live camera feeds and basic camera controls without complex configuration. It aims to automate functions like device detection and provide different optimized interfaces for phones and tablets.
The material becomes misaligned after passing through a furnace during the manufacturing process. Misalignment can lower productivity and increase failure risks. Various factors could be causing the misalignment, such as vibration during rolling, motor speed/torque issues, lack of maintenance, improper guidelines, design limitations, inexperience, material properties like thermal expansion, and potential design errors.
The document discusses reasons for inaccurate drilling using a hand drill. It identifies several potential user errors that could lead to inaccurate drilling, including a lack of experience, using the wrong tools, not handling the drill properly, or having an uneven work surface. It also notes that vibration during drilling and a lack of feedback on the drilling position can cause inaccuracies. The document proposes using sensors like an inertial measurement unit (IMU) or ultrasonic sensor to provide feedback on the drill's angle or distance from the workpiece to improve accuracy. However, it acknowledges this would increase the device's complexity and loss of time.
Printii proposal for Transation over TransportationJohnson Wang
This document describes how Printii works over transportation. Same solution could be integrated to commerce over flight, high-speed rail and even long distant bus.
This document discusses redesigning a remote live view app to be more user-friendly for home users rather than IT experts. It suggests simplifying the connection process by allowing users to enter an IP address, device ID, or search without specifying device details. The redesign focuses on intuitive navigation between live camera feeds and basic camera controls without complex configuration. It aims to automate functions like device detection and provide different optimized interfaces for phones and tablets.
The material becomes misaligned after passing through a furnace during the manufacturing process. Misalignment can lower productivity and increase failure risks. Various factors may contribute to misalignment, including vibration during rolling, motor speed and torque issues, lack of maintenance, improper guidelines, design limitations, inexperience, thermal expansion and contraction effects, and design errors.
The document discusses issues with misalignment of materials after emerging from a furnace. It then lists several potential causes for the misalignment including roller shaking, vibration, motor speed and torque issues, lack of service, improper guidelines, design limitations, lack of experience, thermal expansion and contraction, and design errors. Finally, it discusses using sensors like an inertial measurement unit or ultrasonic sensor to provide feedback on drill angle or distance to improve drilling accuracy but increase device complexity and loss of time.
The document discusses reasons for inaccurate drilling using a hand drill. It identifies several potential user errors that could lead to inaccurate drilling, including a lack of experience, using the wrong tools, not handling the drill properly, or having an uneven work surface. It also notes that vibration from the drill could affect accuracy. The document considers using sensors like an inertia measurement unit or ultrasonic sensor to provide feedback to the user on the drill's angle or distance, which could help improve drilling accuracy but may increase the complexity of the device.
The material becomes misaligned after passing through a furnace during the manufacturing process. Misalignment can lower productivity and increase failure risks. Various factors could be causing the misalignment, such as vibration during rolling, motor speed/torque issues, lack of maintenance, improper guidelines, design limitations, inexperience, material properties like thermal expansion, and potential design errors.
The document discusses issues with misalignment of materials after emerging from a furnace. It then lists several potential causes for the misalignment including roller shaking, vibration, motor speed and torque issues, lack of service, improper guidelines, design limitations, lack of experience, thermal expansion and contraction, and design errors. Finally, it discusses using sensors like an inertial measurement unit or ultrasonic sensor to provide feedback on drill angle or distance to improve drilling accuracy but increase device complexity and loss of time.
The material becomes misaligned after passing through a furnace during the manufacturing process. Misalignment can lower productivity and increase failure risks. Various factors may contribute to misalignment, including vibration during rolling, motor speed and torque issues, lack of maintenance, improper guidelines, design limitations, inexperience, thermal expansion and contraction effects, and design errors.
The document discusses issues with misalignment of materials after emerging from a furnace. It then lists several potential causes for the misalignment including roller shaking, vibration, motor speed and torque issues, lack of service, improper guidelines, design limitations, lack of experience, thermal expansion and contraction, and design errors. Finally, it discusses using sensors like an inertial measurement unit or ultrasonic sensor to provide feedback on drill angle or distance to improve drilling accuracy but increase device complexity and loss of time.
The document discusses reasons for inaccurate drilling using a hand drill. It identifies several potential user errors that could lead to inaccurate drilling, including a lack of experience, using the wrong tools, not handling the drill properly, or having an uneven work surface. It also notes that vibration from the drill could affect accuracy. The document considers using sensors like an inertia measurement unit or ultrasonic sensor to provide feedback to the user on the drill's angle or distance, which could help improve drilling accuracy but may increase the complexity of the device.
The material becomes misaligned after passing through a furnace during the manufacturing process. Misalignment can lower productivity and increase failure risks. Various factors could be causing the misalignment, such as vibration during rolling, motor speed/torque issues, lack of maintenance, improper guidelines, design limitations, inexperience, material properties like thermal expansion, and potential design errors.
The document discusses issues with misalignment of materials after emerging from a furnace. It then lists several potential causes for the misalignment including roller shaking, vibration, motor speed and torque issues, lack of service, improper guidelines, design limitations, lack of experience, thermal expansion and contraction, and design errors. Finally, it discusses using sensors like an inertial measurement unit or ultrasonic sensor to provide feedback on drill angle or distance to improve drilling accuracy but increase device complexity and loss of time.