A display apparatus, comprising a first display panel, a first flexible circuit board, and a rigid membrane, wherein the first flexible circuit board is arranged on the back side of the first display panel; the first flexible circuit board comprises a first portion, a second portion, and a bending portion for connecting the first portion and the second portion; the first portion is electrically connected to the first display panel, and the second portion is located on the side of the first portion away from the first display panel; and the rigid membrane is located between the back side of the first display panel (101) and the bending portion, the rigid membrane supports the bending portion, the rigidity of the rigid membrane is greater than the rigidity of the first display panel (101), and the rigid membrane is used for dispersing a resilience force generated by the bending portion.

Provided are a bending unit, a hinge, and a bending device with flexible module. The bending unit includes two transmission blocks, a connection block, a restricting block, and two rotating arms. The two transmission blocks have a tooth portion respectively. The two transmission blocks match with each other through tooth portions of the two transmission blocks. The two transmission blocks are respectively rotatably connected to the connection block. The restricting block is slidably connected to the connection block. A first end of a rotating arm of the two rotating arms is rotatably connected to one of the two transmission blocks. A second end of the rotating arm is connected to the restricting block. The rotating arm is slidable relative to the restricting block in a first direction and rotatable relative to the restricting block.

A rotating shaft mechanism for folding an electronic device, a housing assembly and an electronic device are provided. The rotating shaft mechanism includes a supporting frame, a rotating member and a resilient piece. An end of the rotating member is rotatably disposed on the supporting frame; and the resilient piece is disposed on the supporting frame and is configured to apply a damping force to the rotating member.

According to various embodiments, an electronic device comprises: a first housing; a second housing; a hinge device including a hinge connecting the first housing and the second housing to be foldable; a display panel including a flexible display arranged to be supported by the second housing from the first housing through the hinge device, and comprising a window layer, and a bending portion disposed under the window layer corresponding to the second housing and at least partially extending outwardly; and a conductive plate disposed under the display panel and electrically connected to the ground, wherein the bending portion bypasses a rear surface of the at least one conductive plate and includes a flexible display electrically connected to the rear surface; wherein when the display panel is viewed from above, the conductive plate may comprise at least one exposed portion exposed further outward than the edge of the display panel around the bending portion.

A foldable terminal includes a body, a display screen and a flattening member. The display screen is located on a surface of the body and includes a bendable portion. The flattening member is located between the body and the bendable portion, and configured to apply a force to the bendable portion, so as to flatten the bendable portion when the foldable terminal is in a flattened state.

A mobile terminal comprises a first body; a second body arranged in parallel to the first body; a hinge part for connecting the first body and the second body such that an angle formed between the first body and the second body varies; a display panel positioned on one surface of the first body and one surface of the second body; and a window positioned on the front surface of the display panel, wherein the window comprises a first window which is positioned on the first body and/or the second body and which does not bend, and a second window which is connected to the first window and which bends, and thus present invention improves the strength of a flexible display unit so as to prevent shock delivery in both the vertical and lateral directions.

According to certain embodiments, an electronic device comprises: first housing; a first substrate disposed in the first housing; a second housing; a second substrate disposed in the second housing; a flexible printed circuit board (FPCB) connecting the first substrate and the second substrate; a hinge hingably connecting the first housing and the second housing; a hinge cover covering the hinge, the hinge cover having a microphone hole formed therein; at least one first microphone disposed in the first housing; a speaker disposed in the second housing; and at least one second microphone disposed in the hinge, and configured to collect external sound through the microphone hole formed in the hinge cover, and mounted on a portion extending from the FPCB.

An electronic device is provided. The electronic device includes a foldable housing and a flexible printed circuit board. The foldable housing includes a first housing, a second housing, and a folding part between the first housing and the second housing. The flexible printed circuit board may be located in an inner space of the foldable housing. The flexible printed circuit board includes a first part corresponding to the folding part, a second part extending from the first part to the first housing, and a third part extending from the first part to the second housing. The folding part includes at least one hinge connecting the first housing and the second housing with each other, and a hinge housing configured to cover the at least one hinge. The hinge housing includes a first surface exposing to an outside in a folding state of the foldable housing.

A specific solution includes: as an electronic device is folded, dividing a display screen of the electronic device into a first screen and a second screen; when the electronic device is in a folded state, detecting that the electronic device is in a landscape state or a portrait state; and if the electronic device is in the landscape state, displaying a first interface in response to horizontal unfolding of the electronic device, where the first interface includes a payment mode of one or more applications; or if the electronic device is in the portrait state, displaying a second interface in response to vertical unfolding of the electronic device, where the second interface includes any one of a lock screen interface, a main interface, or an interface displayed before the electronic device is folded.

The present invention provides a foldable mobile terminal, and a heat dissipation system and a housing of the foldable mobile terminal. The heat dissipation system includes a heat dissipation hole, a baffle, and a rotating shaft. The heat dissipation hole is defined on the housing of the foldable mobile terminal. When the foldable mobile terminal needs heat dissipation, the baffle rotates to open the heat dissipation hole for the heat dissipation. When the heat dissipation is not required, the baffle closes the heat dissipation hole to prevent foreign matters from entering an interior of the foldable mobile terminal through the heat dissipation hole and affecting performance of the foldable mobile terminal and causing failure.