Abstract: A flexible touch screen and a flexible display device including the flexible touch screen are provided in the present disclosure. The flexible touch screen includes a first substrate and a first conductive layer located on the first substrate. The first substrate includes a first surface and a second surface opposite to the first surface. When the flexible touch screen is bent in a first direction in a manner that the first surface becomes convex and the second surface becomes concave, the first conductive layer is located on one side of the first substrate where the first surface is located and is subject to compressive stress or zero stress. The flexible touch screen of the present disclosure can effectively improve an anti-bending ability and prolong the service life.

Abstract: A flexible display screen system (100) includes a flexible display screen (10), a sensor (30) and a processor (50), in which the flexible display screen (10) is formed with a first display region (11), the sensor (30) is configured to generate a bending signal when the flexible display screen (10) is bent, and the processor (50) is configured to control the flexible display screen (10) to form a second display region (13) according to the bending signal and the display content of the first display region (11) and control the second display region (13) to display the display content. The flexible display screen system (100) realizes control over the flexible display screen (10) by bending, and may form another display area which facilitates sharing the content of the original display area with others, and is easy and convenient to operate.

Abstract: An electronic bag is provided. The electronic bag includes a communication unit operable to establish a communication connection between the electronic bag and an electronic device, a touch unit operable to receive a touch gesture on the touch unit, and a processor operable to generate, according to the touch gesture on the touch unit, a control signal for controlling the electronic device. Different functions of the electronic device can be set to be controlled by performing different touch gestures on the touch unit of the electronic bag.

Abstract: A processing method for character stroke and related device are provided. The method comprises: obtaining handwriting information of a first handwriting point and handwriting information of a second handwriting point in a character stroke, the handwriting information comprising coordinate information; determining a display effect related to the first handwriting point according to the handwriting information of the first handwriting point and the handwriting information of the second handwriting point; rendering the display effect related to the first handwriting point within a display range of the first handwriting point. The display manner of the character stroke can be enriched through above manner, thereby improving the user experience.

Abstract: Organic light emitting diode display module includes a substrate, a flat layer formed on the substrate, an anode layer formed on the flat layer and within the second through hole, a pixel definition layer formed on the flat layer and the anode layer, a light-emitting layer and a cathode layer formed within third layer through hole and on anode layer. A lead and a power cable are formed on the substrate. The cathode layer is formed on the pixel definition layer, light-emitting layer and lead. The cathode layer includes wire blocks arranged at intervals. The wire blocks includes a bent conductive wire, and both ends of the conductive wire are coupled to the lead and the power cable respectively. The present disclosure also discloses a manufacturing method of the display module and an electronic device.

Abstract: A method for multiuser interaction includes: detecting the number of users of an accompanying robot and azimuths of the users relative to the accompanying robot; dividing a display screen of the accompanying robot into a plurality of screen splitting display areas according to the number and azimuths of the users; and interacting the users located at the different azimuths with the accompanying robot simultaneously by the plurality of screen splitting display areas. The method for multiuser interaction may be operated to realize synchronous interaction between the accompanying robot and the plurality of users, reduce the power consumption and production cost of the accompanying robot, and improve the overall performance of the accompanying robot. An apparatus for multiuser interaction and an accompanying robot are provided by the present disclosure.

Abstract: A selfie stick comprises: a fixing support assembly, configured for clamping a photographic device; a telescopic tube assembly, a first end of which connects to the fixing support assembly; and a handle assembly, connecting to a second end of the telescopic tube assembly, the second end of the telescopic tube assembly being distant from the first end. The handle assembly comprises a touch screen assembly wirelessly connecting to the photographic device, and the photographic device is controlled by touching the touch screen assembly. The selfie stick according to the present disclosure can adjust photographic parameters or functions of the photographic device. The present disclosure further discloses a method for controlling the photographic device by the selfie stick.

Abstract: A pixel circuit driving method is disclosed. The method including: a plurality of rows of pixel circuits are provided, each row of the pixel circuit includes a switch module, a driving module, a compensation module, an organic light emitting diode, a first scanning line, a second scanning line, and a data compensation line. The switch module is turned on to activate the driving module. The compensation module is turned off to enable a data terminal to output a data signal which is transmitted to the organic light emitting diode. The organic light emitting diode being activated, the compensation module being turned on via the second scanning line, and the switch module being turned off, thus to perform compensation detection on the organic light emitting diode. A compensation signal is outputted and transmitted to the organic light emitting diode for performing compensation after detection.

Abstract: A flexible device comprises a flexible screen and a supporting assembly for supporting the flexible screen. The supporting assembly comprises a plurality of moving members and connecting members each for movably connecting two adjacent moving members of the plurality of moving members. The adjacent moving members moving relatively to support the flexible screen in an unfolded state or a bent state. The flexible device can be transformed into different forms according to requirements, so as to adapt to application requirements of various shapes of flexible screen.

Abstract: The present disclosure provides a lamp holder rotating assembly, comprising a foundation support, an inserted rod, and a rotating head. The foundation support defines a locating slot. The inserted rod comprises a head end and a tail end coupled to the head end. The rotating head defines a groove. The inserted rod is rotatably mounted on the foundation support. The tail end passes through the locating slot. The head end passes through the groove of the rotating head. The head end rotates in the groove along a first direction which causes the tail end rotating in the locating slot along a second direction opposite to the first direction. The present disclosure further provides an illuminating apparatus.

Abstract: A handwriting board is provided. The handwriting board includes a bendable support plate, a touch screen and a control module located at the bendable support plate. The touch screen and the control module are electrically connected with each other. The touch screen is configured to sense a writing operation of a stylus on a writing paper and to generate touch coordinate data of the writing operation. The control module is configured to acquire the touch coordinate data and to generate touch handwriting information according to the touch coordinate data. The handwriting board is configured to sense the writing operation of the stylus on the writing paper and to form the touch handwriting information corresponding to an actual handwriting of the stylus formed on the writing paper.

Abstract: A desk lamp including a base, a bracket, a lamp body, a flexible touch screen, and a control device that controls the desk lamp to work in a working mode including a first mode and a second mode. When the desk lamp is in the first mode, the control device controls the flexible touch screen to sense a first distance touch. When the desk lamp is in the second mode, the control device controls the flexible touch screen to sense a second distance touch. The desk lamp has the first mode and the second mode. The desk lamp may be controlled to work in a corresponding working mode as needed by sensing the first and second distance touches using the flexible touch screen, and by responding to the sensing signal using the control device.

Abstract: Disclosed are a method for moving a graphical pointer, and a touch display device. The method includes the following. Whether a sliding touch operation is executed on a touch display device is determined. Touch time of each of at least three consecutive touch points is obtained when the sliding touch operation is executed on the touch display device. A variation of a speed of the sliding touch operation is determined according to the touch time of each of the at least three consecutive touch points. A movement speed of the graphical pointer displayed on the touch display device is increased when the speed of the sliding touch operation is increased. The movement speed of the graphical pointer is decreased when the speed of the sliding touch operation is decreased.