Canon kabushiki kaisha (20240189047). MEDICAL APPARATUS simplified abstract
Contents
- 1 MEDICAL APPARATUS
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 MEDICAL APPARATUS - A simplified explanation of the abstract
- 1.4 Potential Applications
- 1.5 Problems Solved
- 1.6 Benefits
- 1.7 Commercial Applications
- 1.8 Prior Art
- 1.9 Frequently Updated Research
- 1.10 Questions about Medical Apparatus
- 1.11 Original Abstract Submitted
MEDICAL APPARATUS
Organization Name
Inventor(s)
YUSUKE Niikawa of Kanagawa (JP)
TOMIO Noguchi of Shizuoka (JP)
MEDICAL APPARATUS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240189047 titled 'MEDICAL APPARATUS
The medical apparatus described in the patent application consists of a drive source, a bending portion, a linear body that bends the bending portion, and a connecting portion that links a first member from the drive source and a second member from the linear body. The connecting portion is designed to maintain the state where a protrusion portion is engaged in a recess portion when a tensile force or compressive force below certain threshold values is applied between the first and second members. However, if the force exceeds these threshold values, the protrusion portion disengages from the recess portion.
- The medical apparatus includes a drive source, a bending portion, a linear body, and a connecting portion.
- The connecting portion maintains engagement between a protrusion portion and a recess portion under specific force conditions.
- If the force exceeds certain threshold values, the protrusion portion disengages from the recess portion.
Potential Applications
The technology can be applied in medical devices for minimally invasive procedures, robotic surgery, endoscopy, and other fields requiring precise control over bending mechanisms.
Problems Solved
This innovation addresses the need for a reliable and responsive bending mechanism in medical devices that can adapt to varying force levels without compromising functionality.
Benefits
- Enhanced precision and control in medical procedures - Improved safety and efficiency in device operation - Versatile applications in different medical fields
Commercial Applications
Title: Advanced Bending Mechanism for Medical Devices The technology can be utilized in the development of next-generation medical devices for surgical procedures, diagnostic imaging, and therapeutic interventions. It has the potential to revolutionize the way medical professionals perform minimally invasive surgeries and other intricate medical tasks.
Prior Art
Readers interested in exploring prior art related to this technology can start by researching patents and publications in the fields of medical device design, robotics, and biomechanics.
Frequently Updated Research
Stay informed about the latest advancements in medical device technology, robotics, and materials science to understand how this innovation may evolve in the future.
Questions about Medical Apparatus
What are the key advantages of using this advanced bending mechanism in medical devices?
The advanced bending mechanism offers enhanced precision, control, and adaptability in medical procedures, leading to improved patient outcomes and operational efficiency.
How does this technology compare to traditional bending mechanisms in terms of performance and reliability?
Compared to traditional bending mechanisms, this innovative design provides greater responsiveness to varying force levels and ensures consistent functionality under different operating conditions.
Original Abstract Submitted
a medical apparatus includes a drive source, a bending portion, a linear body configured to bend the bending portion, and a connecting portion in which a first member connected to the drive source and a second member connected to the linear body are connected. the connecting portion is configured such that in a case where a tensile force equal to or smaller than a first threshold value or a compressive force equal to or smaller than a second threshold value acts between the first member and the second member, the state in which a protrusion portion is fitted in the recess portion is maintained, and in a case where a tensile force exceeding the first threshold value or a compressive force exceeding the second threshold value acts between the first member and the second member, the protrusion portion is disengaged from the recess portion.
