18559341. TOUCH STRUCTURE AND TOUCH DISPLAY APPARATUS simplified abstract (BOE TECHNOLOGY GROUP CO., LTD.)
Contents
TOUCH STRUCTURE AND TOUCH DISPLAY APPARATUS
Organization Name
BOE TECHNOLOGY GROUP CO., LTD.
Inventor(s)
TOUCH STRUCTURE AND TOUCH DISPLAY APPARATUS - A simplified explanation of the abstract
This abstract first appeared for US patent application 18559341 titled 'TOUCH STRUCTURE AND TOUCH DISPLAY APPARATUS
The touch structure in this patent application consists of multiple electrode plates positioned on the same virtual reference plane, each with a sensing surface. The touch region is defined by the minimum enclosed pattern region where all electrode plates are located.
- The electrode plates include first electrode plates with designated edges, with at least one edge being arc-shaped, forming part of the touch region boundary.
- The sensing surface area of each first electrode plate falls within the range of 10mm to 35mm.
- The innovation lies in the specific arrangement and design of the electrode plates to create an effective touch structure.
Potential Applications: - Touchscreen devices - Interactive displays - Human-machine interfaces
Problems Solved: - Enhancing touch sensitivity - Improving touch accuracy - Creating more responsive touch interfaces
Benefits: - Increased precision in touch interactions - Enhanced user experience - Versatile applications in various industries
Commercial Applications: Title: Advanced Touch Technology for Enhanced User Interfaces This technology can be applied in smartphones, tablets, kiosks, and other touch-enabled devices, improving user interactions and overall usability. The market implications include increased demand for more intuitive and responsive touch interfaces.
Prior Art: Further research can be conducted in the field of touch technology, specifically focusing on electrode plate arrangements and touch region definitions.
Frequently Updated Research: Stay updated on advancements in touch technology, particularly in electrode plate design and touch sensitivity improvements.
Questions about Touch Structures: 1. How does the arrangement of electrode plates impact touch sensitivity? 2. What are the potential challenges in implementing this touch structure in different devices?
A relevant generic question not answered by the article: How does this touch structure compare to existing touch technologies in terms of performance and cost-effectiveness? - This touch structure offers improved touch sensitivity and accuracy compared to traditional touchscreens, making it a valuable innovation in the field of human-machine interfaces.
Another relevant generic question: What industries can benefit the most from this touch technology? - Industries such as consumer electronics, automotive, and healthcare can greatly benefit from this touch technology due to its enhanced user experience and versatility in applications.
Original Abstract Submitted
A touch structure includes a plurality of electrode plates, the plurality of electrode plates are located on a same virtual reference plane, and each electrode plate has a sensing surface. A minimum enclosed pattern region where a whole of the plurality of electrode plates is located is a touch region. The plurality of electrode plates include a plurality of first electrode plates, each first electrode plate has a designated edge, the designated edge constitutes a part of a boundary of the touch region, and at least one designated edge is arc-shaped. An area of a sensing surface of each first electrode plate is in a range of 10 mmto 35 mm.
