A display device includes: a display panel including a flat area and a first sliding area adjacent to the flat area in a first direction and configured to slide in the first direction; a main digitizer disposed on the flat area of the display panel; a first sub-digitizer disposed on the main digitizer and partially overlapping with the main digitizer in a thickness direction; and a flexible printed circuit board electrically connecting the main digitizer with the first sub-digitizer.

A slide rail mechanism for a retractable screen structure includes a holder assembly including a holder; and a slide rail assembly including a fixed seat fixedly coupled to the holder, a sliding member coupled to a flexible display screen of the retractable screen structure and arranged on the fixed seat and slidable along a first direction, and an elastic assembly having a first end coupled to the fixed seat and a second end coupled to the sliding member. The second end of the elastic assembly and the flexible display screen are driven to move together when the sliding member slides along the first direction relative to the fixed seat.

An electronic device includes a housing, a display screen and a camera module. The display screen is combined with the housing and capable of being drawn into or out of the housing. The camera module includes a reflective element, a first lens component, a second component and an image sensor. The image sensor is configured to image based on light reflected by the reflective element to travel through the first lens component when the camera module is working in a first mode. The image sensor is configured to image based on light reflected by the reflective element to travel through the first lens component and the second lens component when the camera module is working in a second mode.

According to various embodiments, an electronic device may include: a flexible display having a first portion disposed to be visible from an outside and a second portion extending from the first portion and accommodated in an inner space to be invisible from the outside in a slide-in state; a housing whose having a variable size wherein the flexible display is configured to be expanded in response to a change from the slide-in state to a slide-out state; a sensor disposed in the inner space and configured to detect a moving distance of the flexible display; a memory; and a processor operatively connected to the flexible display, the sensor, and the memory. The processor may be configured to: identify a first distance for the flexible display through the sensor in response to the change from the slide-in state to the slide-out state, control the display to display a user interface through the flexible display based on the first distance, detect a touch on at least a partial region of the flexible display, identify a second distance for the flexible display based on coordinate information corresponding to the detected touch, adjust a size or position of the user interface based on a difference value between the first distance and the second distance, and control the display to display the adjusted user interface through the flexible display.

An example computing device includes a flexible display coupled to a housing that includes a support plate having a first joint coupled to a first end of the support plate and a second joint coupled to a second end of the support plate. A slide module has a slot that guides a linear slide movement of the second joint along a linear path of movement within the slot as the support plate pivots about the first joint, where the support plate moves according to the first joint and the second joint to support at least the portion of the flexible display when the flexible display is unfolded and moves according to the first joint and the second joint to create a gap between at least a portion of the support plate and at least the portion of the flexible display when the flexible display is folded.

An extensible display screen apparatus includes a power supply device and a screen display device. The screen display device includes at least one screen unit and a screen support assembly, wherein the at least one screen unit is disposed on the screen support assembly and the screen support assembly is arranged to support the at least one screen unit, whereas the at least one screen support assembly can electrically connect with the screen display device through the power supply device. The power supply device is configured to provide a working power to the at least one screen unit for a mobile electronic device to communicate with the at least one screen unit, wherein the said screen unit provides additional information of the mobile electronic device while being electrically connected with the screen display device.

Support structural members, which are used in a flexible display panel. The support structural members comprise a main body support member, which includes a bearing part used for bearing a portion of the flexible display panel; a sliding support member, which is connected to the main body support member in a manner that allows movement along a second direction, the sliding support member includes a first support part and a second support part which are distributed at an interval along a first direction, the first support part being used for extending the main body support member and jointly supporting the flexible display panel with the bearing part; a pushing member, which is connected to the second support part in a manner that allows movement along the second direction, the pushing member includes a stopping part.

A display device includes a display panel including a base layer, a first heat dissipation member disposed on a first surface of the base layer, and a second heat dissipation member disposed on a first surface of the first heat dissipation member. The first heat dissipation member includes a first polymer resin and first metal nano-particles dispersed in the first polymer resin, and the second heat dissipation member includes a second polymer resin and second metal nano-particles dispersed in the second polymer resin. The weight of the first metal nano-particles in the first heat dissipation member may be different from the weight of the second metal nano-particles in the second heat dissipation member.

According to various embodiments, an electronic device may include a first structure including a first plate including a first face and a second face facing away from the first face, and a second structure including a second plate, which faces the second face of the first plate and has an opening formed therein, and a first side wall extending from a first end portion of the second plate. The first structure may be movable between an open state and a closed state with respect to the second structure in a first direction with respect to the second plate. The second structure may be positioned at a first position from the first side wall when the first structure is in the closed state and positioned at a second distance, which is greater than the first distance, from the first side wall when the first structure is in the open state. The electronic device may further include a flexible touch screen display. The flexible touch screen display may include a planar portion extending across at least part of the first face, mounted to the first face, and having a first width in a second direction perpendicular to the first direction, and a bendable portion extending from the planar portion and positioned from the planar portion to the inside of a space between the first side wall and the first structure when in the closed state. The bendable portion may include a first portion extending from one end of the planar portion and having the same width as the first width, and a second portion extending from the first portion, facing the second plate, and having a second width less than the first width. The second portion of the bendable portion may be exposed visually at least in part to the outside of the electronic device through the opening of the second plate. At least part of the first portion of the bendable portion may be configured to construct substantially the same plane as the planar portion when the first structure transitions from the closed state to the open state. Other various embodiments are possible.

An electronic device may include a plurality of housings including a first housing and a second housing, wherein the first housing movably connects to the second housing in a moving direction, a display panel in which a screen display area visually exposed to an outside changes depending on a movement of the second housing relative to the first housing, and a lattice plate disposed on a rear surface of the display panel to support the display panel. The display panel may include a flat portion forming the screen display area and comprising a surface substantially forming a flat surface, an edge portion connected to one end portion of the flat portion and comprising at least a partial region which is curved, and a bending portion connected to the other end portion of the flat portion opposite to the edge portion and comprising at least a partial region which bends according to a movement of the first housing relative to the second housing. The lattice plate may include a first lattice portion disposed on a rear surface of the edge portion and including a first lattice pattern, and a second lattice portion disposed on a rear surface of the bending portion and including a second lattice pattern that is different from the first lattice pattern so as to have a relatively higher modulus than the first lattice portion.