DISPLAYING SUBSTRATE, MANUFACTURING METHOD THEREOF, AND DISPLAY PANEL

Organization Name

BOE TECHNOLOGY GROUP CO., LTD.

Inventor(s)

Zhao Cui of Beijing (CN)

Feng Zhang of Beijing (CN)

Zhijun Lv of Beijing (CN)

Wenqu Liu of Beijing (CN)

Liwen Dong of Beijing (CN)

Xiaoxin Song of Beijing (CN)

Detian Meng of Beijing (CN)

Libo Wang of Beijing (CN)

Dongfei Hou of Beijing (CN)

Qi Yao of Beijing (CN)

DISPLAYING SUBSTRATE, MANUFACTURING METHOD THEREOF, AND DISPLAY PANEL - A simplified explanation of the abstract

This abstract first appeared for US patent application 17432433 titled 'DISPLAYING SUBSTRATE, MANUFACTURING METHOD THEREOF, AND DISPLAY PANEL

Simplified Explanation

The disclosed patent application is about a displaying substrate, its manufacturing method, and a display panel in the field of display technology. The displaying substrate consists of a first supporting base, multiple vibrating element modules, and a display module. The display module includes display units, connecting units, and hollowed-out units. Each connecting unit is positioned between two adjacent display units, while each hollowed-out unit is located between two adjacent display units except for the area where the corresponding connecting unit is located. The hollowed-out units have cavities that correspond to the vibrating element modules. The orthographic projections of the hollowed-out units on a reference plane cover the orthographic projections of the vibrating element modules on the same plane. The vibrating element modules and the cavities together form a transducer.

• The patent application describes a displaying substrate with a unique design that includes vibrating element modules and a display module.
• The display module consists of display units, connecting units, and hollowed-out units.
• The hollowed-out units have cavities that correspond to the vibrating element modules, and their orthographic projections cover the projections of the vibrating element modules on a reference plane.
• The vibrating element modules and the cavities form a transducer, which enables the displaying substrate to convert electrical signals into mechanical vibrations.

Potential Applications

• This technology can be applied in various display devices, such as televisions, computer monitors, and mobile devices.
• It can be used in touchscreens to provide haptic feedback, enhancing the user experience.
• The displaying substrate can be utilized in virtual reality or augmented reality devices to create realistic tactile sensations.

Problems Solved

• The displaying substrate addresses the need for improved display technology by providing a unique design that incorporates vibrating element modules and a display module.
• It solves the problem of converting electrical signals into mechanical vibrations efficiently and accurately.
• The design of the hollowed-out units and cavities ensures proper alignment and integration of the vibrating element modules, enhancing the overall performance of the display panel.

Benefits

• The displaying substrate offers enhanced user experience by providing haptic feedback in touchscreens and other display devices.
• It enables the creation of more realistic tactile sensations in virtual reality or augmented reality devices.
• The design and integration of the vibrating element modules and cavities improve the efficiency and accuracy of converting electrical signals into mechanical vibrations.

Original Abstract Submitted

The disclosure provides a displaying substrate, a manufacturing method thereof, and a display panel, and relates to the technical field of display. The displaying substrate comprises a first supporting base (), plurality of vibrating element modules (), and a display module (). The display module () comprises display units (), connecting units () and hollowed-out units (). Each connecting unit () is located between two adjacent display units (). Each hollowed-out unit () is located between two adjacent display units () except an area where the corresponding connecting unit () is located. The hollowed-out units () are provided with cavities () corresponding to the vibrating element modules (). Orthographic projections of the hollowed-out units () on a reference plane cover orthographic projections of the vibrating element modules () on the reference plane. The vibrating element modules () and the cavities () form a transducer.