WO2021209008A1 - 折叠装置及电子设备 - Google Patents
折叠装置及电子设备 Download PDFInfo
- Publication number
- WO2021209008A1 WO2021209008A1 PCT/CN2021/087515 CN2021087515W WO2021209008A1 WO 2021209008 A1 WO2021209008 A1 WO 2021209008A1 CN 2021087515 W CN2021087515 W CN 2021087515W WO 2021209008 A1 WO2021209008 A1 WO 2021209008A1
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- WIPO (PCT)
- Prior art keywords
- housing
- fixing frame
- rotating
- transmission arm
- arm
- Prior art date
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- 230000005540 biological transmission Effects 0.000 claims abstract description 415
- 230000007246 mechanism Effects 0.000 claims abstract description 119
- 230000001360 synchronised effect Effects 0.000 claims description 146
- 230000000670 limiting effect Effects 0.000 claims description 104
- 230000008093 supporting effect Effects 0.000 claims description 103
- 238000005452 bending Methods 0.000 claims description 28
- 238000009434 installation Methods 0.000 claims description 10
- 230000002093 peripheral effect Effects 0.000 claims description 10
- 238000000034 method Methods 0.000 abstract description 30
- 230000008569 process Effects 0.000 abstract description 29
- 230000033001 locomotion Effects 0.000 description 73
- 238000010586 diagram Methods 0.000 description 66
- 230000009471 action Effects 0.000 description 20
- 230000009286 beneficial effect Effects 0.000 description 17
- 238000013461 design Methods 0.000 description 11
- 230000000694 effects Effects 0.000 description 11
- 230000007935 neutral effect Effects 0.000 description 7
- 238000013459 approach Methods 0.000 description 6
- 230000000712 assembly Effects 0.000 description 6
- 238000000429 assembly Methods 0.000 description 6
- 238000004891 communication Methods 0.000 description 6
- 239000000463 material Substances 0.000 description 6
- 229920001621 AMOLED Polymers 0.000 description 4
- 238000004519 manufacturing process Methods 0.000 description 4
- 230000007704 transition Effects 0.000 description 4
- 210000000078 claw Anatomy 0.000 description 3
- 230000008602 contraction Effects 0.000 description 3
- 239000000428 dust Substances 0.000 description 3
- 239000000758 substrate Substances 0.000 description 3
- 230000004308 accommodation Effects 0.000 description 2
- 230000003139 buffering effect Effects 0.000 description 2
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Images
Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
- H04M1/0206—Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings
- H04M1/0208—Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings characterized by the relative motions of the body parts
- H04M1/0214—Foldable telephones, i.e. with body parts pivoting to an open position around an axis parallel to the plane they define in closed position
- H04M1/0216—Foldable in one direction, i.e. using a one degree of freedom hinge
- H04M1/022—The hinge comprising two parallel pivoting axes
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
- H04M1/0206—Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings
- H04M1/0208—Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings characterized by the relative motions of the body parts
- H04M1/0214—Foldable telephones, i.e. with body parts pivoting to an open position around an axis parallel to the plane they define in closed position
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
- H04M1/0206—Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings
- H04M1/0208—Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings characterized by the relative motions of the body parts
- H04M1/0214—Foldable telephones, i.e. with body parts pivoting to an open position around an axis parallel to the plane they define in closed position
- H04M1/0216—Foldable in one direction, i.e. using a one degree of freedom hinge
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
- H04M1/026—Details of the structure or mounting of specific components
- H04M1/0266—Details of the structure or mounting of specific components for a display module assembly
- H04M1/0268—Details of the structure or mounting of specific components for a display module assembly including a flexible display panel
Definitions
- This application relates to the technical field of foldable electronic products, and in particular to a folding device and electronic equipment.
- the foldable electronic equipment also includes a folding device for carrying the flexible display screen.
- the folding device generally includes two shells and a rotating mechanism connected between the two shells. The two shells are relatively folded or folded by the deformation of the rotating mechanism. Relatively unfold, and drive the flexible display screen to fold or unfold.
- the flexible display screen is prone to be pulled during the folding process and squeezed during the unfolding process. Pressure, the flexible display screen is easily damaged and the service life is shortened.
- the purpose of this application is to provide a folding device and electronic equipment.
- the folding device is used to carry the flexible display screen. During the folding or unfolding process of the folding device, the risk of the flexible display screen being pulled or squeezed is small, which makes the flexible display screen more reliable and has a longer service life.
- this application provides a folding device.
- the folding device can be applied to electronic equipment and used to carry a flexible display screen of the electronic equipment.
- the folding device includes a first housing, a rotating mechanism, and a second housing connected in sequence, and the rotating mechanism can be deformed so that the first housing and the second housing are relatively folded or relatively unfolded.
- the rotating mechanism includes a main shaft, a first fixing frame, a second fixing frame, a first transmission arm, a first rotation arm, a second transmission arm, and a second rotation arm.
- the first fixing frame is fixed to the first housing
- the second fixing frame is fixed to the second housing.
- the first transmission arm includes a sliding end and a rotation end. The sliding end of the first transmission arm is slidably connected to the second fixing frame, the rotation end of the first transmission arm is rotatably connected to the main shaft, and one end of the first rotation arm is rotatably connected to the rotation of the first transmission arm One end and the other end are rotatably connected to the first fixing frame.
- the second transmission arm includes a sliding end and a rotation end.
- the sliding end of the second transmission arm is slidably connected to the first fixing frame, the rotation end of the second transmission arm is rotatably connected to the main shaft, and one end of the second rotation arm is rotatably connected to the rotation of the second transmission arm One end and the other end are rotatably connected to the second fixing frame.
- the rotating end of the first transmission arm is rotatably connected to the main shaft
- the sliding end is slidably connected to the second fixing frame
- the second fixing frame is fixed to the second housing
- the rotating end of the second transmission arm is rotatably connected to the main shaft and the sliding end.
- the first fixing frame is slidably connected, and the first fixing frame is fixed to the first housing.
- the first housing drives the first fixing frame to rotate relative to the main shaft
- the second The transmission arm rotates with the first fixing frame relative to the main shaft
- the second housing drives the second fixing frame to rotate relative to the main shaft
- the first transmission arm rotates with the second fixing frame relative to the main shaft
- the first transmission arm slides relative to the second fixing frame, so the folding device can freely switch between the flat state and the closed state, and the first housing and the second housing can be relatively expanded to the flat state, so that the flexible display screen is
- the flat form is used to realize a large-screen display, and the first housing and the second housing can also be relatively folded to a closed state, so that the electronic device is convenient to store and carry.
- first shell and the second shell are relatively folded to the closed state by the rotating mechanism, they can be completely closed, there is no gap or small gap between the two, so that the appearance of the folding device is relatively complete, and the appearance is self-shielding.
- the appearance of the electronic equipment of the folding device is relatively complete, which is beneficial to improve the reliability of the product and the user experience.
- the first transmission arm When the first housing and the second housing are relatively unfolded to a flat state, the first transmission arm is rotated into the main shaft, so that the first rotation arm extends out of the main shaft, and the first rotation arm connects the first housing through the first fixing frame.
- the body pushes away from the main shaft, the second transmission arm rotates into the main shaft, so that the second rotating arm extends out of the main shaft, and the second rotating arm pushes the second housing away from the main shaft through the second fixing frame.
- the first housing and the second housing are relatively folded to the closed state, the first transmission arm rotates out of the main shaft, so that the first rotation arm extends into the main shaft, and the first rotation arm connects the first housing through the first fixing frame.
- the rotating mechanism can cause the first fixing frame to drive the first housing to move away from the main shaft, and the second fixing frame to drive the second housing to move away from the main shaft during the relatively unfolding process of the first housing and the second housing.
- the first fixing frame drives the first housing to move closer to the main shaft
- the second fixing frame drives the second housing to move closer to the main shaft. Move in direction.
- the rotating mechanism can realize the internal pulling movement of the housing when the folding device changes from the flat state to the closed state, and the external pushing movement of the housing when the folding device changes from the closed state to the flat state, so that the folding device is In the process of unfolding or folding, it can realize the deformation movement with the flexible display screen as the neutral surface, thereby reducing the risk of pulling or squeezing the flexible display screen, so that the flexible display screen maintains a constant length to protect the flexible display screen and improve the flexible display
- the reliability of the screen makes the flexible display screen and electronic equipment have a long service life.
- the first transmission drives the second end of the first rotating arm to rotate around the first rotating center to form a first-stage linkage movement.
- the first end of the first rotating arm rotates around the second end of the first rotating arm to form The second-stage connecting rod moves, so the connecting rod movement of the first rotating arm is equivalent to the second connecting rod movement.
- the second end of the first rotating arm Since the second end of the first rotating arm is rotatably connected to the rotating end of the first transmission arm, the second end of the first rotating arm rotates around the fixed point synchronously with the rotating end of the first transmission arm, so the first stage of the first rotating arm
- the rotation angle of the connecting rod movement is equal to the rotation angle of the first transmission arm, and the direction is opposite. Therefore, the first rotating arm and the first transmission arm form an interlocking structure.
- the first rotating arm and the first transmission arm form a primary hinge between the first fixing frame and the second fixing frame.
- the degree of freedom of movement of the first rotating arm is It is reduced to 1, so that the first rotating arm and the first transmission arm have no virtual position and no movement during the movement of the rotating mechanism, which improves the tensile strength and reliability of the rotating mechanism.
- the second transmission arm Since the first end of the second rotating arm is rotatably connected to the second fixing frame, and the second end is rotatably connected to the rotating end of the second transmission arm, during the relative rotation of the first housing and the second housing, the second transmission arm The rotating end drives the second end of the second rotating arm to rotate around the second rotating center to form a first-stage linkage movement. At the same time, the first end of the second rotating arm rotates around the second end of the second rotating arm to form a second The cascade link moves, so the link movement of the second rotating arm is equivalent to the two link movement.
- the second rotating arm and the second transmission arm form an interlocking structure.
- the second rotating arm and the second transmission arm form a primary hinge between the first fixing frame and the second fixing frame.
- the degree of freedom of movement of the second rotating arm is It is reduced to 1, so that the second rotating arm and the second transmission arm have no virtual position and no movement during the movement of the rotating mechanism, which improves the tensile strength and reliability of the rotating mechanism.
- the main shaft includes a main inner shaft and a main outer shaft fixed to the main inner shaft.
- the main inner shaft is located between the main outer shaft and the first fixing frame and the second fixing frame.
- the first transmission arm rotates around a first rotation center, the first rotation center is close to the main inner shaft and away from the main outer shaft, and the first rotation center is close to the second fixing frame and away from the first fixing frame.
- the second transmission arm rotates around a second rotation center, the second rotation center is close to the main inner shaft and far away from the main outer shaft, and the second rotation center is close to the first fixing frame and away from the second fixing frame.
- the rotation mechanism can more easily realize the internal pulling movement of the housing when the folding device changes from the flat state to the closed state, and the folding device is in the closed state.
- the external pushing motion of the shell in the process of changing to the flat state realizes the deformation motion with the flexible display screen as the neutral surface.
- main inner shaft and the main outer shaft are provided with multiple three-dimensional space structures.
- the main inner shaft and the main outer shaft can jointly form multiple moving spaces, and the structural parts of the rotating mechanism move It is installed in multiple movable spaces of the main shaft to realize the connection with the main shaft.
- the separate design of the main inner shaft and the main outer shaft is beneficial to reduce the manufacturing difficulty of the main shaft, and improve the production accuracy and product yield of the main shaft.
- the main inner shaft and the main outer shaft jointly enclose a plurality of arc-shaped grooves
- the rotating end of the first transmission arm is arc-shaped and is installed in one of the arc-shaped grooves
- the rotation of the second transmission arm The end is arc-shaped and is installed in another arc-shaped slot.
- the rotating connection structure is simple, and the space occupied is small, which is beneficial to reduce the thickness of the rotating mechanism and make the folding Devices and electronic equipment are easier to achieve thinner and lighter.
- the rotating end of the first transmission arm may further include a limiting protrusion, and the limiting protrusion is formed at an end position of the rotating end.
- the limiting protrusion is used to cooperate with the limiting protrusion of the main shaft to prevent the first transmission arm from accidentally detaching from the main shaft.
- the rotating end of the first transmission arm may further include a limiting protrusion, and the limiting protrusion forms an inner position and/or an outer position of the rotating end.
- the limit protrusion is used to cooperate with the limit groove and/or the limit groove of the main shaft, so that the first transmission arm and the main shaft realize mutual limit in the axial direction of the main shaft.
- the second fixing frame has a first sliding groove, a first recessed area, and a second recessed area, the first recessed area and the second recessed area are both connected to the first sliding groove, and the first recessed area is located at Between the main shaft and the second recessed area.
- the rotating mechanism further includes a first limiting member, the first limiting member is installed on the sliding end of the first transmission arm, and the sliding end of the first transmission arm is installed on the first sliding groove.
- the first limiting member is used to limit the relative positional relationship between the first transmission arm and the second fixing frame, so that the first transmission arm and the second fixing frame can maintain the preset position when not receiving a large external force.
- the rotating mechanism can stay at a preset angle, and the rotating device can be kept in a flat or closed state, so as to improve the user experience of the folding device and the electronic device.
- the side wall of the first chute may have a recessed guide space.
- the sliding end of the first transmission arm is installed in the first sliding groove to be slidably connected to the second fixing frame.
- the sliding end of the first transmission arm includes a first flange on the peripheral side.
- the first flange is installed in the guide space of the first chute.
- the sliding end of the first transmission arm has a first installation groove, and the first limiting member is installed in the first installation groove.
- the first limiting member includes a first bracket and a first elastic member.
- the first bracket includes a control portion and a resisting portion.
- One end of the first elastic member is mounted on the control portion of the first bracket, and the other end resists the On the groove wall, the resisting part of the first bracket is clamped to the second fixing frame. Since the first elastic member of the first limiting member can be deformed under the action of external force, the first limiting member can smoothly move relative to the second fixing frame between the first recessed area and the second recessed area, so as to improve the The reliability of the limit between a transmission arm and the second fixing frame.
- the first limiting member may further include a first buffer member, and the first buffer member is installed on the resisting portion of the first bracket.
- the first buffer member may be made of a material with less rigidity (for example, rubber, etc.), so that when an external force is received, the impact force can be absorbed through deformation to achieve buffering.
- the first limiting member is provided with the first buffer member, which can buffer the stress between the resisting portion and the second fixing frame, thereby improving the reliability of the limiting structure.
- the rotating mechanism may further include a second limiting member.
- the second limiting member is installed on the sliding end of the second transmission arm, and the second limiting member is clamped to the first fixing frame.
- the second limiting member is used to limit the relative positional relationship between the second transmission arm and the first fixing frame, so that the second transmission arm and the first fixing frame can maintain the preset position when not receiving a large external force.
- the rotating mechanism can stay at a preset angle, and the rotating device can be kept in a flat or closed state, so as to improve the user experience of the folding device and the electronic device.
- the rotating mechanism further includes a first support plate and a second support plate, the first support plate is fixedly connected to the sliding end of the second transmission arm, and the second support plate is fixedly connected to the sliding end of the first transmission arm.
- first support plate and the second support plate are flush, the first support plate is set between the first fixing frame and the main shaft, and the second support plate is set on Between the second fixing frame and the main shaft.
- first housing and the second housing are relatively folded to a closed state, the first supporting plate is stacked on the side of the first fixing frame away from the second fixing frame, and the second supporting plate is stacked on the second fixing frame away from the first fixing frame On the side.
- the first support plate, the main shaft, and the second support plate can jointly form a complete plane support for the bending part of the flexible display screen .
- the first support plate and the second support plate can be slidably folded relative to the first housing and the second housing, respectively, so that the main shaft is exposed to form a pair of flexible display screens.
- the complete support of the bending part. Therefore, the rotating mechanism can fully support the bending part of the flexible display screen when the folding device is in the flat state or the closed state, so that the flexible display screen is not easily damaged due to external force touch, which is beneficial to protect the flexible display screen and also beneficial to Improve user experience.
- the main shaft has a supporting surface, and when the first housing and the second housing are relatively folded to a closed state, the supporting surface of the main shaft is exposed to the first supporting plate and the second supporting plate, and the supporting surface of the main shaft is arc.
- the main shaft can provide a complete semi-circular or nearly semi-circular support effect for the bending part of the flexible display screen when the first housing and the second housing are relatively folded to a closed state, which is similar to the bending of the flexible display screen.
- the ideal closed form of the parts is kept consistent, so that a more optimized support can be provided for the closed form of the flexible display screen.
- the rotating mechanism further includes a first shielding plate and a second shielding plate, the first shielding plate is fixedly connected to the sliding end of the first transmission arm, and the second shielding plate is fixedly connected to the sliding end of the second transmission arm.
- the first shielding plate is located on the side of the first transmission arm away from the first support plate, and the second shielding plate is located on the side of the second transmission arm away from the second support plate.
- the first shielding plate and the second shielding plate are flush, the first shielding plate is set between the first fixing frame and the main shaft, and the second shielding plate is set on the Between the second fixing frame and the main shaft.
- the first shielding plate is located between the first fixing frame and the first housing, and the second shielding plate is located between the second fixing frame and the second housing.
- the first shielding plate when the first housing and the second housing are relatively expanded to a flat state, the first shielding plate is flush with the second shielding plate, and the first shielding plate is set up between the first fixing frame and the main shaft , Can shield the gap between the first fixing frame and the main shaft, the second shielding plate is set up between the second fixing frame and the main shaft, and can cover the gap between the second fixing frame and the main shaft, so the folding device can realize self-shielding, It is beneficial to improve the integrity of the appearance, and can also reduce the risk of external dust and debris entering the rotating mechanism to ensure the reliability of the folding device.
- the first shielding plate When the first housing and the second housing are relatively folded to a closed state, the first shielding plate can be folded between the first fixing frame and the first housing, and the second shielding plate can be folded between the second fixing frame and the second housing Between the bodies, avoidance is realized, so that the folding device can be smoothly folded to a closed form, and the reliability of the mechanism is high.
- the first support plate and the first shielding plate are fixed to the sliding end of the first transmission arm, the first support plate and the first shielding plate follow the sliding end of the first transmission arm to move, the second support plate and the second shielding plate Fixed to the sliding end of the second transmission arm, the second support plate and the second shielding plate follow the sliding end of the second transmission arm to move, so when the folding device is converted from the closed state to the flat state, and from the flat state In the process of converting to the closed state, the first support plate and the second support plate are gradually approaching or away from the main shaft, so that the folding device can completely support the flexible display in various forms, which improves the flexible display and electronic The reliability and service life of the equipment.
- the first shielding plate and the second shielding plate are gradually approaching or away from the main shaft, so that the folding device
- self-shielding can be carried out according to the form of the rotating mechanism, and the reliability of the mechanism is high.
- the first support plate, the first shielding plate and the second transmission arm are assembled into one part, and the second support plate, the second shielding plate and the first transmission arm are assembled into one part, so the second transmission arm can directly control the first support plate And the movement track of the first shielding plate, the first transmission arm can directly control the movement track of the second support plate and the second shielding plate, so that the first support plate, the second support plate, the first shielding plate and the second shielding plate are
- the movement process has high control precision and small backlash, so as to accurately realize the expansion and contraction during the rotation of the folding device, so as to meet the support requirements of the flexible display screen and the self-shielding requirements of the rotating mechanism.
- the main shaft has a shielding surface.
- the shielding surface of the spindle is exposed to the first shielding plate and the second shielding plate, so the rotating mechanism can pass through the first shielding plate, the spindle And the second shielding plate jointly shield the gap between the first housing and the second housing, thereby realizing self-shielding.
- the main shaft further includes a shielding plate, and the shielding plate is fixed on a side of the main inner shaft that faces away from the main outer shaft.
- the shielding surface of the main shaft is formed on the shielding plate and is arranged away from the main outer shaft.
- the shielding plate can be fixed to the main inner shaft in an assembled manner.
- the shielding plate and the main inner shaft may also be integrally formed structural members.
- the first fixing frame includes a first connecting block.
- the first connecting block may be in the shape of a claw, and the first connecting block has a rotating hole.
- the first rotating arm includes a claw-shaped first end, and the first end of the first rotating arm has a rotating hole.
- the first end of the first rotating arm is interleaved with the first connecting block, and the rotating shaft passes through the rotating hole of the first connecting block and the rotating hole of the first end of the first rotating arm, so that the first end of the first rotating arm rotates
- the first connecting block is connected, so as to realize the rotating connection between the first rotating arm and the first fixing frame.
- the first end of the first rotating arm and the first connecting block are staggeredly connected, which can realize mutual restriction in the axial direction of the main shaft, and improve the connection reliability of the rotating mechanism.
- the first connecting block includes a stop block.
- the stop block When the first shell is expanded to a flat state relative to the second shell, the end of the first end of the first rotating arm abuts the stop block, so that the first rotating arm stays At a predetermined position, avoid pulling the flexible display screen due to overturning of the first casing and the second casing, so as to protect the flexible display screen.
- the first rotating arm further includes a claw-shaped second end, the second end of the first rotating arm is disposed opposite to the first end, and the second end of the first rotating arm has a rotating hole.
- the end of the rotation end of the first transmission arm is claw-shaped, and the end of the rotation end of the first transmission arm has a rotation hole.
- the second end of the first rotating arm is alternately connected with the end of the rotating end of the first transmission arm, and the rotation shaft passes through the rotation hole of the second end of the first rotation arm and the rotation hole of the rotation end of the first transmission arm, so that the first rotation
- the second end of the arm is rotatably connected to the rotation end of the first transmission arm, so as to realize the rotation connection between the first rotation arm and the first transmission arm.
- the second end of the first rotating arm and the end of the rotating end of the first transmission arm are staggeredly connected, which can realize mutual restriction in the axial direction of the main shaft and improve the connection reliability of the rotating mechanism.
- the rotating mechanism further includes a first synchronous swing arm and a second synchronous swing arm.
- the first synchronous swing arm includes a rotating end and a movable end.
- the rotating end of the first synchronous swing arm is rotatably connected to the main shaft, and the movable end of the first synchronous swing arm is movably connected to the first fixing frame.
- the first housing is opposite to the second housing. During the folding or unfolding process, the movable end of the first synchronous swing arm slides and rotates relative to the first fixing frame.
- the second synchronous swing arm includes a rotating end and a movable end.
- the rotating end of the second synchronous swing arm is rotatably connected to the main shaft, the rotating end of the second synchronous swing arm engages with the rotating end of the first synchronous swing arm, and the movable end of the second synchronous swing arm
- the second fixed frame is movably connected. During the relative folding or unfolding of the first housing and the second housing, the movable end of the second synchronous swing arm slides and rotates relative to the second fixed frame.
- the rotating end of the first synchronous swing arm and the rotating end of the second synchronous swing arm are meshed with each other, the rotating end of the first synchronous swing arm and the rotating end of the second synchronous swing arm are both rotatably connected to the main shaft.
- the movable end of a synchronous swing arm is movably connected to the first fixing frame, and the movable end of the second synchronous swing arm is movably connected to the second fixing frame. Therefore, when the first housing and the second housing are relatively unfolded or relatively folded, the first housing and the second housing are relatively unfolded or relatively folded.
- a synchronous swing arm and a second synchronous swing arm can control the rotation angles of the first fixing frame and the second fixing frame relative to the main shaft to be consistent, so that the rotation actions of the first housing and the second housing have synchronization and consistency, and the folding device
- the folding action and the unfolding action are more symmetrical, which is conducive to improving the user experience.
- the first synchronous swing arm is rotatably connected to the main shaft, slidably connected and rotatably connected to the first fixing frame, that is, a connecting rod slider structure is formed.
- the second synchronous swing arm is rotatably connected to the main shaft, slidably connected and rotatably connected to the second fixing frame, that is, a connecting rod slider structure is formed.
- the two intermeshing linkage slider structures can well control the synchronization and consistency of the rotation actions of the first housing and the second housing.
- the rotating end of the first synchronous swing arm includes a first rotating body, a first rotating shaft, and a first gear.
- the first rotating shaft is fixed on the front and/or back of the first rotating body, and the first gear is fixed.
- the first rotating shaft is rotatably connected with the main shaft.
- the rotating end of the second synchronous swing arm includes a second rotating body, a second rotating shaft, and a second gear.
- the second rotating shaft is fixed on the front and/or back of the second rotating body, and the second gear is fixed on the peripheral side of the second rotating body.
- the second rotating shaft is rotatably connected to the main shaft, and the second gear meshes with the first gear.
- the rotating end of the first synchronous swing arm and the rotating end of the second synchronous swing arm directly mesh with the second gear through the first gear, the first synchronous swing arm and the second synchronous swing arm are jointly formed
- the structure of the synchronization component is simple, the movement process is easy to control, and the accuracy is high.
- the rotation mechanism further includes a first adapter and a second adapter.
- the first adapter is slidably mounted on the first fixing frame, and the movable end of the first synchronous swing arm is rotatably connected to the first rotation.
- the second adapter is slidably mounted on the second fixing frame, and the movable end of the second synchronous swing arm is rotatably connected with the second adapter.
- the rotating mechanism further includes a third fixing frame, a fourth fixing frame, a third transmission arm, a fourth transmission arm, and a gear transmission assembly.
- the third fixing frame is fixed to the first housing
- the fourth fixing frame is fixed to the second housing.
- the third transmission arm includes a sliding end and a rotation end.
- the sliding end of the third transmission arm is slidably connected to the first fixing frame
- the rotation end of the third transmission arm is rotatably connected to the main shaft.
- the fourth transmission arm includes a sliding end and a rotation end.
- the sliding end of the fourth transmission arm is slidably connected to the second fixing frame, the rotation end of the fourth transmission arm is rotatably connected to the main shaft, and the rotation end of the fourth transmission arm is connected to the third through a gear transmission assembly.
- the rotating ends of the transmission arms mesh with each other.
- the rotation mechanism is provided with a third fixing frame, a fourth fixing frame, a third transmission arm, a fourth transmission arm, and a gear transmission assembly, thereby increasing the gap between the rotation mechanism and the first and second housings.
- the interaction force makes the folding device easier to fold and unfold.
- the actions of the third transmission arm and the fourth transmission arm are related to each other, and the two form an interlocking structure, thereby limiting the degree of freedom of the mechanism and increasing the structural strength and reliability of the mechanism.
- the rotation center of the third transmission arm relative to the main shaft and the rotation center of the second transmission arm relative to the main shaft are collinear.
- the rotation center of the fourth transmission arm relative to the main shaft and the rotation center of the first transmission arm relative to the main shaft are collinear.
- the third transmission arm is slidably connected to the third fixing frame, and the fourth transmission arm and the first transmission arm rotate relative to the main shaft.
- the center is collinear, and the fourth transmission arm is slidably connected to the fourth fixing frame. Therefore, the movement of the third transmission arm can be synchronized with the movement of the second transmission arm, and the movement of the fourth transmission arm can be synchronized with the movement of the first transmission arm.
- the structural design and connection relationship of the rotating mechanism are simplified, and the reliability of the rotating structure is improved.
- the rotating end of the third transmission arm includes a third gear
- the rotating end of the fourth transmission arm includes a fourth gear
- the gear transmission assembly includes a first gear shaft and a second gear shaft.
- the first gear shaft includes a middle shaft and two end gears respectively fixed on both sides of the middle shaft.
- the second gear shaft includes a middle shaft and a second gear shaft. Two end gears on both sides of the gear.
- One of the end gears of the first gear shaft meshes with the third gear of the third transmission arm.
- the two end gears of the second gear shaft respectively mesh with the two end gears of the first gear shaft.
- One of the end gears of the second gear shaft meshes with the fourth gear of the fourth transmission arm.
- the middle shaft of the first gear shaft is rotatably connected with the main shaft
- the middle shaft of the second gear shaft is rotatably connected with the main shaft.
- the present application also provides an electronic device, including a flexible display screen and the folding device of any one of the above, the flexible display screen includes a first non-bending portion, a bending portion, and a second non-bending portion arranged in sequence , The first non-bending part is fixed to the first shell, and the second non-bending part is fixed to the second shell. During the relative folding or relative unfolding of the first shell and the second shell, the bending part occurs deformation.
- the flexible display screen can be unfolded or folded with the folding device.
- the flexible display screen When the electronic device is in a flattened state, the flexible display screen is in a flattened form and can be displayed on a full screen, so that the electronic device has a larger display area to improve the user's viewing experience.
- the planar size of the electronic device When the electronic device is in the closed state, the planar size of the electronic device is small, which is convenient for users to carry and store.
- the electronic device can rotate with the flexible display screen as the neutral surface, thereby reducing the risk of pulling or squeezing the flexible display screen, so as to protect the flexible display screen and improve the reliability of the flexible display screen. , So that the flexible display screen and electronic equipment have a long service life.
- FIG. 1 is a schematic structural diagram of an electronic device in an unfolded state according to an embodiment of the present application
- FIG. 2 is a schematic diagram of the structure of the folding device of the electronic equipment shown in FIG. 1;
- Fig. 3 is a schematic structural diagram of the electronic device shown in Fig. 1 when it is in an intermediate state;
- FIG. 4 is a schematic structural diagram of the folding device of the electronic equipment shown in FIG. 3;
- FIG. 5 is a schematic structural diagram of the electronic device shown in FIG. 1 when it is in a closed state
- FIG. 6 is a schematic structural diagram of the folding device of the electronic equipment shown in FIG. 5;
- FIG. 7 is a schematic diagram of a partially exploded structure of the folding device shown in FIG. 2;
- FIG. 8 is a schematic diagram of a partially exploded structure of the rotating mechanism shown in FIG. 7;
- Fig. 9 is a schematic structural diagram of the folding device shown in Fig. 2 at another angle;
- FIG. 10 is a partially exploded structural schematic diagram of a partial structure of the folding device shown in FIG. 2; FIG.
- Fig. 11 is a schematic diagram of an exploded structure of the main shaft shown in Fig. 10;
- Fig. 12 is a schematic structural diagram of the main outer shaft shown in Fig. 11 at another angle;
- Fig. 13 is a schematic structural view of the main shaft shown in Fig. 10 taken along line A-A;
- Fig. 14 is a schematic structural view of the main shaft shown in Fig. 10 taken along the line B-B;
- Fig. 15 is a schematic structural view of the main shaft shown in Fig. 10 taken along the line C-C;
- Fig. 16 is a schematic structural view of the main shaft shown in Fig. 10 taken along the line D-D;
- Fig. 17 is a schematic structural view of the main shaft shown in Fig. 10 taken along the line E-E;
- Fig. 18 is a schematic structural diagram of the end connection assembly shown in Fig. 10 at another angle;
- Fig. 19 is a partial exploded structural diagram of the end connection assembly shown in Fig. 18;
- FIG. 20 is a schematic diagram of an exploded structure of the first limiting member shown in FIG. 19;
- Fig. 21 is a schematic structural diagram of the middle connecting assembly shown in Fig. 10 from another angle;
- Fig. 22 is an exploded structural diagram of the middle connecting assembly shown in Fig. 21;
- Fig. 23 is a partial structural diagram of the rotating mechanism shown in Fig. 7;
- FIG. 24 is a schematic diagram of the structure of the first support plate shown in FIG. 8;
- FIG. 25 is a schematic diagram of the structure of the first shielding plate shown in FIG. 8;
- FIG. 26 is a schematic diagram of a part of the structure of the folding device shown in FIG. 2;
- Figure 27 is a schematic diagram of a part of the structure of the folding device shown in Figure 2;
- FIG. 28 is a schematic cross-sectional structure diagram of the folding device shown in FIG. 2 corresponding to the position of the first transmission arm;
- FIG. 29 is a schematic cross-sectional structure diagram of the folding device shown in FIG. 2 corresponding to the position of the second transmission arm;
- FIG. 30 is a schematic cross-sectional structure diagram of the folding device shown in FIG. 4 corresponding to the position of the first transmission arm;
- FIG. 31 is a schematic cross-sectional structure diagram of the folding device shown in FIG. 4 corresponding to the position of the second transmission arm;
- FIG. 32 is a schematic cross-sectional structure diagram of the folding device shown in FIG. 6 corresponding to the position of the first transmission arm;
- FIG. 33 is a schematic cross-sectional structure diagram of the folding device shown in FIG. 6 corresponding to the position of the second transmission arm;
- FIG. 34 is a schematic cross-sectional structure diagram of the folding device shown in FIG. 2 corresponding to the positions of the first synchronous swing arm and the second synchronous swing arm;
- 35 is a schematic cross-sectional structure diagram of the folding device shown in FIG. 4 corresponding to the positions of the first synchronous swing arm and the second synchronous swing arm;
- Fig. 36 is a schematic cross-sectional structure diagram of the folding device shown in Fig. 6 corresponding to the positions of the first synchronous swing arm and the second synchronous swing arm.
- the embodiments of the present application provide a folding device and an electronic device.
- the electronic device includes a folding device and a flexible display screen fixed to the folding device.
- the folding device can be expanded to a flat state, can also be folded to a closed state, and can also be in an intermediate state between the flat state and the closed state.
- the flexible display screen is unfolded and folded with the folding device.
- the electronic device can rotate with the flexible display screen as the neutral surface, thereby reducing the risk of pulling or squeezing the flexible display screen, so as to protect the flexible display screen and improve the reliability of the flexible display screen. , So that the flexible display screen and electronic equipment have a long service life.
- FIG. 1 is a schematic structural diagram of an electronic device 1000 in an unfolded state according to an embodiment of the present application
- FIG. 2 is a schematic structural diagram of a folding device 100 of the electronic device 1000 shown in FIG. 1 3 is a schematic structural diagram of the electronic device 1000 shown in FIG. 1 in an intermediate state
- FIG. 4 is a schematic structural diagram of the folding device 100 of the electronic device 1000 shown in FIG. 3
- FIG. 5 is a closed state of the electronic device 1000 shown in FIG.
- Fig. 6 is a schematic structural diagram of the folding device 100 of the electronic device 1000 shown in Fig. 5.
- the electronic device 1000 may be a product such as a mobile phone, a tablet computer, or a notebook computer. In this embodiment, the electronic device 1000 is a mobile phone as an example for description.
- the electronic device 1000 includes a folding device 100 and a flexible display screen 200.
- the folding device 100 includes a first housing 10, a rotating mechanism 20, and a second housing 30 connected in sequence.
- the first housing 10 may include a left middle frame and a left rear cover
- the second housing 30 may include a right middle frame and a right rear cover.
- the rotating mechanism 20 can be deformed so that the first housing 10 and the second housing 30 are relatively folded or relatively unfolded. As shown in FIGS. 1 and 2, the first housing 10 and the second housing 30 can be relatively expanded to a flat state, so that the electronic device 1000 is in a flat state.
- the first housing 10 and the second housing 30 when they are in a flat state, they may be approximately 180° (a slight deviation is also allowed, such as 165°, 177°, or 185°).
- the first housing 10 and the second housing 30 can be relatively rotated (expanded or folded) to an intermediate state, so that the electronic device 1000 is in an intermediate state.
- the first housing 10 and the second housing 30 can be relatively folded to a closed state, so that the electronic device 1000 is in a closed state.
- the intermediate state shown in FIG. 3 and FIG. 4 can be any state between the flat state and the closed state. Therefore, the electronic device 1000 can switch between the flat state and the closed state through the deformation of the rotating mechanism 20.
- the flexible display 200 is used to display images.
- the flexible display 200 may be an organic light-emitting diode (OLED) display, an active-matrix organic light-emitting diode, or an active-matrix organic light-emitting diode (active-matrix organic light-emitting diode).
- OLED organic light-emitting diode
- AMOLED active-matrix organic light-emitting diode
- mini organic light-emitting diode display micro organic light-emitting diode display
- micro organic light-emitting diode display micro organic light-emitting diode display
- quantum Quantum dot light emitting diode (QLED) display screen QLED
- the flexible display 200 includes a first non-bending portion 2001, a bending portion 2002, and a second non-bending portion 2003 arranged in sequence.
- the flexible display screen 200 is fixed to the folding device 100.
- the flexible display screen 200 may be adhered to the folding device 100 through an adhesive layer.
- the first non-bending portion 2001 of the flexible display screen 200 is fixed to the first housing 10, and the second non-bending portion 2003 is fixed to the second housing 30.
- the first housing 10 and the second housing 30 are folded or folded relative to each other.
- the bending portion 2002 is deformed. As shown in FIG. 1, when the first housing 10 and the second housing 30 are in a flat state, the flexible display screen 200 is in a flat state; as shown in FIG.
- the first housing 10 and the second housing 30 are in a flat state.
- the flexible display screen 200 is in an intermediate state between the flattened state and the closed state; as shown in FIG. 5, when the first housing 10 and the second housing 30 are in the closed state, the flexible display screen 200 is in the closed state .
- the flexible display screen 200 when the electronic device 1000 is in the closed state, the flexible display screen 200 is located outside the folding device 100, and the flexible display screen 200 may be roughly U-shaped.
- the flexible display screen 200 can be unfolded or folded with the folding device 100.
- the flexible display screen 200 is in a flattened form and can display in full screen, so that the electronic device 1000 has a larger display area, so as to improve the user's viewing experience.
- the planar size of the electronic device 1000 is small (having a small width size), which is convenient for the user to carry and store.
- the rotation center of the electronic device 1000 is parallel to the width direction of the electronic device 1000" as an example.
- the electronic device 1000 can be rotated left and right, and the electronic device 1000 can be folded and unfolded. Affect the width dimension of the electronic device 1000.
- the rotation center of the electronic device 1000 may also be parallel to the length direction of the electronic device 1000. At this time, the electronic device 1000 can rotate up and down, and the folding and unfolding of the electronic device 1000 affects the length of the electronic device 1000. .
- FIG. 7 is a partially exploded structural diagram of the folding device 100 shown in FIG. 2
- FIG. 8 is a partially exploded structural diagram of the rotating mechanism 20 shown in FIG. 7.
- none of the drawings in this application illustrate the fasteners in the folding device 100, so as to simplify the drawings and illustrate the main structure of the folding device 100 more clearly.
- the rotating mechanism 20 of the folding device 100 includes a main shaft 1, an end connecting component 20a, a middle connecting component 20b, a first supporting plate 21, a second supporting plate 22, a first shielding plate 23, and a second shielding plate 24 .
- the main shaft 1 is located between the first housing 10 and the second housing 30.
- the end connecting component 20 a connects the first housing 10, the main shaft 1 and the second housing 30.
- the number of the end connection components 20a is two, and the two end connection components 20a are arranged at intervals in the axial direction of the main shaft 1, for example, can be connected to the top and bottom of the main shaft 1 respectively.
- the middle connecting component 20 b connects the first housing 10, the main shaft 1 and the second housing 30.
- the middle connecting component 20b is located between the two end connecting components 20a.
- the first support plate 21 and the second support plate 22 are located on one side of a plurality of connecting components (that is, the two end connecting components 20a and the middle connecting component 20b), and the first shielding plate 23 and the second shielding plate 24 are located on multiple connecting components. Connect the other side of the assembly (20a, 20b).
- the first supporting plate 21 is located on the side of the main shaft 1 facing the first housing 10, and the first supporting plate 21 is connected to the end connecting assembly 20a. In some embodiments, the first support plate 21 can also be connected to the middle connecting component 20b.
- the second supporting plate 22 is located on the side of the main shaft 1 facing the second housing 30, and the second supporting plate 22 is connected to the end connecting assembly 20a. In some embodiments, the second support plate 22 may also be connected to the middle connecting component 20b.
- the first housing 10 has a first supporting surface 101, and the first supporting surface 101 is used to support the flexible display screen 200.
- the second housing 30 has a second supporting surface 301, and the second supporting surface 301 is used to support the flexible display screen 200.
- the first supporting surface 101 and the second supporting surface 301 are flush to better support the flexible display screen 200, making the flexible display screen 200 more compact. It is flat and helps to improve the user experience.
- the main shaft 1 has a supporting surface 11.
- the supporting surface 11 of the main shaft 1 is partially exposed relative to the first supporting plate 21 and the second supporting plate 22.
- the first support plate 21, the main shaft 1 and the second support plate 22 can jointly support the bending portion 2002 of the flexible display 200, so that the flexible display 200 is flatter and is not easily damaged due to external touch, so as to improve the flexible display 200 reliability.
- the supporting surface 11 of the spindle 1 is partially exposed relative to the first supporting plate 21 and the second supporting plate 22, and the supporting surface of the spindle 1
- the exposed area 11 is larger than the exposed area in the flat state.
- the supporting surface 11 of the spindle 1 and the first supporting plate 21 and the second supporting plate 22 jointly support the bending portion 2002 of the flexible display screen 200.
- the supporting surface 11 of the spindle 1 is completely exposed relative to the first supporting plate 21 and the second supporting plate 22, and the supporting surface of the spindle 1 11
- the bending part 2002 of the flexible display screen 200 is supported.
- the supporting surface 11 of the main shaft 1 is arc-shaped.
- the main shaft 1 can provide a complete semicircle or close to a semicircle supporting effect for the bending portion 2002 of the flexible display screen 200.
- the ideal closed shape of the bent portion 2002 is consistent, so that the flexible display screen 200 in the closed shape can be provided with more optimized support. It is understandable that in the embodiment of the present application, there are two situations where the supporting surface 11 of the main shaft 1 is arc-shaped. One is the supporting surface 11 of the main shaft 1 being a standard arc, and the other is the supporting surface of the main shaft 1. 11 The overall shape is approximately arc.
- the supporting surface 11 of the main shaft 1 is in a standard arc shape, and its central angle may be in the range of 150° to 180° to better support the flexible display screen 200.
- the central area of the supporting surface 11 of the main shaft 1 is planar, and the areas on both sides are arcuate.
- the supporting surface 11 is approximately arc-shaped as a whole, and can achieve semi-circular or approximately semi-circular support for the flexible display screen 200 in the closed state.
- the middle area of the supporting surface 11 can be in a flat state, and can jointly support the flexible display screen 200 with the first supporting plate 21 and the second supporting plate 22.
- the supporting surface 11 of the main shaft 1 may also have other shapes.
- the supporting surface 11 of the main shaft 1 is set in a semi-elliptical shape to reduce the width of the folding device 100 when it is in the closed state, so that it is easier to carry and store.
- the implementation of the application does not strictly limit the shape of the supporting surface 11 of the main shaft 1.
- FIG. 9 is a schematic structural diagram of the folding device 100 shown in FIG. 2 at another angle.
- the viewing angle of the folding device 100 of FIG. 9 is the viewing angle of the viewing angle of FIG. 2 after being flipped.
- the first shielding plate 23 is located on the side of the main shaft 1 facing the first housing 10, and the first shielding plate 23 is connected to the end connecting assembly 20a. In some embodiments, the first shielding plate 23 can also be connected to the middle connecting component 20b.
- the second shielding plate 24 is located on the side of the main shaft 1 facing the second housing 30, and the second shielding plate 24 is connected to the end connecting assembly 20a. In some embodiments, the second shielding plate 24 can also be connected to the middle connecting assembly 20b.
- the main shaft 1 has a shielding surface 12. As shown in FIG. 9, when the first housing 10 and the second housing 30 are relatively expanded to a flat state, the shielding surface 12 of the spindle 1 is exposed to the first shielding plate 23 and the second shielding plate 24; the first shielding plate 23 Located between the first housing 10 and the main shaft 1, the gap between the first housing 10 and the main shaft 1 can be shielded; the second shielding plate 24 is located between the second housing 30 and the main shaft 1, and can shield the second housing The gap between 30 and the main shaft 1, so the rotating mechanism 20 can be in the flat state, the first shielding plate 23, the main shaft 1, and the second shielding plate 24 jointly shield the first housing 10 and the second housing 30 In order to realize self-shielding, it is beneficial to improve the integrity of the appearance, and can also reduce the risk of external dust and debris entering the rotating mechanism 20, so as to ensure the reliability of the folding device 100.
- FIG. 10 is a partially exploded schematic diagram of a partial structure of the folding device 100 shown in FIG. 2.
- a plurality of movable spaces connected to the outside of the main shaft 1 are formed inside the main shaft 1, and a plurality of connecting components (20a, 20b) of the rotating mechanism 20 are movably installed in these movable spaces to connect the main shaft 1.
- the rotation center of the entire rotating mechanism 20 is parallel to the axial direction of the main shaft 1, and the main shaft 1 extends along the axial direction.
- the structures of the two end connecting components 20a are the same, so that the overall structure of the rotating mechanism 20 is relatively simple and the processing cost is low. Among them, the structure of the middle connecting component 20b is simpler than that of the end connecting component 20a.
- the rotating mechanism 20 has two end connecting components 20a to realize the main connection and control function, and the middle connecting component 20b realizes the auxiliary connection and control function. .
- the structures of the two end connecting components 20a may also be different. In some other embodiments, the rotating mechanism 20 may not be provided with the middle connecting component 20b.
- the rotating mechanism 20 can also set the connecting component located in the middle as the main connecting component (for example, the structure of the connecting component can refer to the structure of the end connecting component 20a in FIG. 10), which is located at the end.
- the connecting component of is set as an auxiliary connecting component (for example, the structure of the connecting component can refer to the structure of the middle connecting component 20b in FIG. 10).
- the embodiment of the present application may also be provided with only one end connecting assembly 20a, and the end connecting assembly 20a connects the middle of the main shaft 1 with the middle of the first housing 10 and the middle of the second housing 30. It can be understood that the structure of the rotating mechanism 20 can have various combinations and deformation modes, which are not strictly limited in the embodiment of the present application.
- FIG. 11 is an exploded structural diagram of the main shaft 1 shown in FIG. 10, and FIG. 12 is a structural diagram of the main outer shaft 14 shown in FIG. 11 at another angle.
- the main shaft 1 includes a main outer shaft 14, a main inner shaft 15 and a shielding plate 16.
- the main outer shaft 14 is fixed on one side of the main inner shaft 15, and the shielding plate 16 is fixed on the other side of the main inner shaft 15.
- the supporting surface 11 of the main shaft 1 is formed on the main outer shaft 14 and is arranged away from the main inner shaft 15.
- the shielding surface 12 of the main shaft 1 is formed on the shielding plate 16 and is arranged away from the main outer shaft 14.
- the shielding plate 16 may be fixed to the main inner shaft 15 in an assembled manner.
- the shielding plate 16 and the main inner shaft 15 may also be integrally formed structural members.
- Both the main inner shaft 15 and the main outer shaft 14 are provided with multiple three-dimensional space structures. Through the design of these structures, the main inner shaft 15 and the main outer shaft 14 can be assembled together to form multiple movable spaces and multiple connecting components.
- the structural members (20a, 20b) are movably installed in multiple movable spaces of the main shaft 1, so as to realize the connection with the main shaft 1.
- the separate design of the main inner shaft 15 and the main outer shaft 14 is beneficial to reduce the manufacturing difficulty of the main shaft 1 and improve the manufacturing accuracy and product yield of the main shaft 1.
- the main inner shaft 15 includes a main inner shaft body 151, a plurality of grooves 152, a plurality of protrusions 153 and a plurality of fastening holes 155.
- the main inner shaft body 151 is generally plate-shaped, a plurality of protrusions 153 are formed on the main inner shaft body 151, a plurality of grooves 152 are formed on the main inner shaft body 151 and/or the plurality of protrusions 153, the protrusions 153 and the recesses
- the grooves 152 are combined with each other to form a plurality of three-dimensional space structures.
- a plurality of fastening holes 155 are formed in the main inner shaft body 151.
- "A and/or B” includes the three cases of “A”, “B” and “A and B”.
- the numbers of part of the groove 152, part of the bump 153 and part of the fastening hole 155 are schematically marked.
- the main outer shaft 14 includes a main outer shaft body 141, a plurality of grooves 143, a plurality of protrusions 144, two end stoppers 146 and a plurality of fastening holes 145.
- the main outer shaft body 141 is roughly arc-shaped, and two end stoppers 146 are fixed to the two ends of the main outer shaft body 141.
- a plurality of protrusions 144 are formed on the main outer shaft body 141, and a plurality of grooves 143 are formed on the main outer shaft body 141 and/or the plurality of protrusions 144.
- the protrusions 144 and the grooves 143 are combined with each other to form a plurality of three-dimensional Spatial structure.
- the plurality of fastening holes 145 are formed in the plurality of bumps 144. Wherein, the numbers of part of the groove 143, part of the bump 144 and part of the fastening hole 145 are schematically marked in FIG. 12.
- the main outer shaft body 141, the two end stoppers 146, and the main inner shaft body 151 jointly enclose the inner space of the main shaft 1, and the two end stoppers 146 are exposed.
- the multiple fastening holes 145 of the main outer shaft 14 are aligned with the multiple fastening holes 155 of the main inner shaft 15, and the main inner shaft 15 and the main outer shaft 14 are fixed by fasteners (not shown in the figure).
- fasteners include but are not limited to screws, bolts, rivets, pins, etc.
- the multiple three-dimensional space structures of the main outer shaft 14 and the multiple three-dimensional space structures of the main inner shaft 15 jointly form a plurality of movable spaces of the main shaft 1.
- part of the activity space structure of the multiple activity spaces is the same, and part of the activity space structure is different.
- the movable spaces with different structures are used to cooperate with the structural parts with different structures, so that the connection structure of the main shaft 1 and the multiple connection components (20a, 20b) is more flexible and diversified.
- the movable space with the same structure is used to cooperate with the structural parts with the same structure, which is beneficial to reduce the design difficulty and cost of the main shaft 1 and the connecting assembly.
- part of the convex block 153 of the main inner shaft 15 has a limiting groove 1531 for limiting the structural components installed in the corresponding movable space in the axial direction of the main shaft 1.
- a part of the limiting groove 1531 is schematically marked in FIG. 11.
- the groove wall of part of the groove 143 of the main outer shaft 14 is provided with a limiting groove 1431 to limit the structural components installed in the corresponding movable space in the axial direction of the main shaft 1 to Improve the reliability of the connection structure.
- Part of the limiting groove 1431 is schematically marked in FIG. 12.
- a limit groove (1531/1431) is provided in the same movable space, which can limit the position of the structural member in the axial direction of the main shaft 1.
- two limit grooves (1531, 1431) can also be provided in the same activity space to increase the limit stability.
- part of the protrusions 144 of the main outer shaft 14 has a limiting function, and this part of the protrusions 144 is located in the movable space of the main shaft 1, and is used to limit the structural parts of the connecting assembly. Preventing the structure from accidentally detaching from the main shaft 1 to improve the connection reliability and movement reliability of the connecting assembly and the main shaft 1, so that the reliability of the rotating mechanism 20 and the folding device 100 is higher.
- the main shaft 1 may also be provided with a protrusion for limiting the position on the main inner shaft 15.
- FIG. 13 is a schematic diagram of the structure of the spindle 1 shown in FIG. 10 taken along the line AA
- FIG. 14 is a schematic diagram of the structure of the spindle 1 shown in FIG. 10 taken along the line BB
- Fig. 17 is a structural diagram of the main shaft 1 shown in Fig. 10 taken along the line EE.
- the main shaft 1 of this embodiment forms a plurality of movable spaces, and the plurality of movable spaces are used to cooperate with different structural members of the connecting assembly.
- the main outer shaft 14 and the main inner shaft 15 are jointly surrounded to form an arc-shaped groove 131 and a communicating hole 134.
- the center of the arc-shaped groove 131 is close to the main inner shaft 15 and far from the main outer shaft 14.
- the arc-shaped groove 131 One end is connected to the external space on one side of the main shaft 1, the communication hole 134 connects the other end of the arc-shaped groove 131 to the external space on the other side of the main shaft 1, and the arc-shaped groove 131 and the communication hole 134 together form an active space.
- the movable space may further include two limiting grooves (1531, 1431) communicating with the arc-shaped groove 131, one of which is formed on the main outer shaft 14 and the other is formed on the main inner shaft 15.
- the main outer shaft 14 may further include a protrusion 144 with a limiting effect, and the protrusion 144 extends into the arc-shaped groove 131 to limit the structure of the arc-shaped groove 131.
- the main outer shaft 14 and the main inner shaft 15 are jointly surrounded by an M-shaped groove 132.
- Two recessed grooves 133 arranged at intervals, the M-shaped groove 132 and the two recessed grooves 133 together form a movable space.
- the main outer shaft 14 and the main inner shaft 15 are jointly enclosed to form an arc-shaped groove 131 and a communicating hole 134.
- the center of the arc-shaped groove 131 is close to the main inner shaft 15 and far from the main outer shaft 14.
- the arc-shaped groove 131 One end is connected to the external space on one side of the main shaft 1, the communication hole 134 connects the other end of the arc-shaped groove 131 to the external space on the other side of the main shaft 1, and the arc-shaped groove 131 and the communication hole 134 together form an active space.
- the movable space may further include two limiting grooves (1531, 1431) communicating with the arc-shaped groove 131, one of which is formed on the main outer shaft 14 and the other is formed on the main inner shaft 15.
- the main outer shaft 14 may further include a protrusion 144 with a limiting effect, and the protrusion 144 extends into the arc-shaped slot 131 to limit the structure of the arc-shaped slot 131.
- the activity space shown in FIG. 13 and the activity space shown in FIG. 15 are arranged in pairs, and the positions of the arc groove 131 and the communication hole 134 of the activity space are opposite to the position of the arc groove 131 and the communication hole 134 of the activity space.
- the main outer shaft 14 and the main inner shaft 15 are jointly enclosed to form an arc-shaped groove 131.
- the center of the arc-shaped groove 131 is close to the main outer shaft 14 and far away from the main inner shaft 15 to form a movable space.
- the movable space may further include two limiting grooves (1531, 1431) communicating with the arc-shaped groove 131, one of which is formed on the main outer shaft 14 and the other is formed on the main inner shaft 15.
- the main outer shaft 14 may further include a protrusion 144 with a limiting effect, and the protrusion 144 extends into the arc-shaped groove 131 to limit the structure of the arc-shaped groove 131.
- the main outer shaft 14 and the main inner shaft 15 are jointly surrounded to form an arc-shaped groove 131.
- the center of the arc-shaped groove 131 is close to the main outer shaft 14 and away from the main inner shaft 15, forming a movable space.
- the movable space may further include two limiting grooves (1531, 1431) communicating with the arc-shaped groove 131, one of which is formed on the main outer shaft 14 and the other is formed on the main inner shaft 15.
- the main outer shaft 14 may further include a protrusion 144 with a limiting effect, and the protrusion 144 extends into the arc-shaped groove 131 to limit the structure of the arc-shaped groove 131.
- the activity space shown in Fig. 16 and the activity space shown in Fig. 17 are arranged in pairs, and the positions of the two are opposite.
- the main outer shaft 14 and the main inner shaft 15 jointly form a plurality of arc-shaped grooves 131.
- a plurality of arc-shaped grooves 131 are located in different movable spaces and are used to cooperate with different structural members.
- main shaft 1 in the embodiment of the present application may also have other structures, which is not strictly limited in the present application.
- FIG. 18 is a schematic structural diagram of the end connecting assembly 20a shown in FIG. 10 at another angle
- FIG. 19 is a partially exploded structural diagram of the end connecting assembly 20a shown in FIG. 18.
- the end connecting assembly 20a of the rotating mechanism 20 includes a first fixing frame 31, a second fixing frame 32, a first transmission arm 4, a first rotation arm 5, a second transmission arm 6, and a second rotation arm 7.
- the first transmission arm 4 includes a sliding end 41 and a rotation end 42
- the sliding end 41 of the first transmission arm 4 is slidably connected to the second fixing frame 32
- one end of the first rotation arm 5 is rotatably connected to the first transmission arm 4
- the rotating end 42 and the other end are rotatably connected to the first fixing frame 31.
- the second transmission arm 6 includes a sliding end 61 and a rotation end 62.
- the sliding end 61 of the second transmission arm 6 is slidably connected to the first fixing frame 31, and one end of the second rotation arm 7 is rotatably connected to the rotation end 62 of the second transmission arm 6. The other end is rotatably connected to the second fixing frame 32.
- the first fixing frame 31 includes a first connecting block 311.
- the first connecting block 311 may have a claw shape, and the first connecting block 311 has a rotating hole 3111.
- the first rotating arm 5 includes a claw-shaped first end 51, and the first end 51 of the first rotating arm 5 has a rotating hole 511.
- the first end 51 of the first rotating arm 5 is alternately connected with the first connecting block 311, and passes through the rotating hole 3111 of the first connecting block 311 and the first end 51 of the first rotating arm 5 through a rotating shaft (not shown in the figure).
- the rotating hole 5111 makes the first end 51 of the first rotating arm 5 rotatably connected to the first connecting block 311, so as to realize the rotating connection between the first rotating arm 5 and the first fixing frame 31.
- the first end 51 of the first rotating arm 5 and the first connecting block 311 are alternately connected to each other in the axial direction of the main shaft 1 to limit each other, thereby improving the connection reliability of the rotating mechanism 20.
- the rotating shaft in the embodiment of the present application may be a pin.
- the first connecting block 311 includes a stop block 3112.
- the stop block 3112 makes the first rotating arm 5 stay at a predetermined position to avoid pulling the flexible display screen 200 due to overturning of the first housing 10 and the second housing 30, so as to protect the flexible display 200.
- first connecting block 311 of the first fixing frame 31 and the first end 51 of the first rotating arm 5 may also have other structures, which can satisfy the rotational connection relationship between the two.
- the embodiment of the present application There is no strict restriction on this.
- the first rotating arm 5 further includes a claw-shaped second end 52.
- the second end 52 of the first rotating arm 5 is arranged opposite to the first end 51.
- the second end 52 of a rotating arm 5 has a rotating hole 522.
- the end of the rotation end 42 of the first transmission arm 4 is claw-shaped, and the end of the rotation end 42 of the first transmission arm 4 has a rotation hole 423.
- the second end 52 of the first rotating arm 5 is alternately connected with the end of the rotating end 42 of the first transmission arm 4, and passes through the rotating hole of the second end 52 of the first rotating arm 5 through a rotating shaft (not shown in the figure) 522 and the rotation hole 423 of the rotation end 42 of the first transmission arm 4, so that the second end 52 of the first rotation arm 5 is rotatably connected to the rotation end 42 of the first transmission arm 4, thereby realizing the first rotation arm 5 and the first transmission Rotational connection of arm 4.
- the second end 52 of the first rotating arm 5 and the end of the rotating end 42 of the first transmission arm 4 are staggeredly connected, which can realize mutual restriction in the axial direction of the main shaft 1 and improve the connection reliability of the rotating mechanism 20 .
- the second end 52 of the first rotating arm 5 and the rotating end 42 of the first transmission arm 4 may also have other structures, which can satisfy the rotational connection relationship between the two. Not strictly limited.
- the rotating end 42 of the first transmission arm 4 is arc-shaped.
- the rotating end 42 of the first transmission arm 4 can be installed in one of the arc-shaped grooves 131 of the main shaft 1 so that the first transmission arm 4 is connected to the main shaft 1 in rotation.
- the rotating end 42 of the first transmission arm 4 is installed in the arc-shaped groove 131 of the movable space of the main shaft 1 (refer to FIG. 13). At this time, the rotation center of the first transmission arm 4 and the main shaft 1 is close to the main shaft.
- the shaft 15 is far away from the main outer shaft 14.
- the first transmission arm 4 and the main shaft 1 are connected by a virtual shaft, the rotating connection structure is simple, and the space occupied is small, which is beneficial to reduce the thickness of the rotating mechanism 20, making the folding device 100 and the electronic device 1000 easier to implement Thin and light.
- the first transmission arm 4 and the main shaft 1 may also be connected by a real shaft, which is not strictly limited in the embodiment of the present application.
- the rotating end 42 of the first transmission arm 4 may further include a limiting protrusion 422, and the limiting protrusion 422 is formed at an end position of the rotating end 42.
- the limiting protrusion 422 is used to cooperate with the limiting protrusion 144 (refer to FIG. 13) of the main shaft 1 to prevent the first transmission arm 4 from accidentally detaching from the main shaft 1.
- the rotating end 42 of the first transmission arm 4 may further include a limiting protrusion 421, and the limiting protrusion 421 forms an inner position and/or an outer position of the rotating end 42.
- the limit protrusion 421 is used to cooperate with the limit groove 1531 and/or the limit groove 1431 of the main shaft 1 (see FIG. 13), so that the first transmission arm 4 and the main shaft 1 realize the axial direction of the main shaft 1 Mutual limit.
- the second fixing frame 32 has a first sliding groove 322.
- the side wall of the first sliding groove 322 may have a recessed guide space 3221.
- the sliding end 41 of the first transmission arm 4 is installed in the first sliding groove 322 to be slidably connected to the second fixing frame 32.
- the sliding end 41 of the first transmission arm 4 includes a first flange 413 on the peripheral side.
- the first flange 413 is installed in the guide space 3221 of the first sliding groove 322.
- the sliding end 41 of the first transmission arm 4 can be guided to slide in the first sliding groove 322.
- the direction makes the relative sliding action between the first transmission arm 4 and the second fixing frame 32 easier to implement and control accuracy is higher.
- the rotating mechanism 20 may further include a first limiting member 81.
- the first limiting member 81 is installed on the sliding end 41 of the first transmission arm 4, and the first limiting member 81 is clamped to the second fixing frame 32.
- the first limiting member 81 is used to limit the relative positional relationship between the first transmission arm 4 and the second fixing frame 32, so that the first transmission arm 4 and the second fixing frame 32 can be protected from a large external force.
- the preset relative position relationship is maintained at the time, the rotating mechanism 20 can stay at the preset angle, and the rotating device can be maintained in a flat state or a closed state, so as to improve the user experience of the folding device 100 and the electronic device 1000.
- the second fixing frame 32 further includes a first recessed area 323 and a second recessed area 324, and both the first recessed area 323 and the second recessed area 324 are connected to the first sliding groove 322.
- the first recessed area 323 is located on the side of the second recessed area 324 close to the first fixing frame 31. Refer to FIG. 8 in conjunction with FIG. 8, that is, the first recessed area 323 is located between the main shaft 1 and the second recessed area 324.
- the first limiting member 81 When the first housing 10 and the second housing 30 are relatively unfolded to the flat state, the first limiting member 81 is partially locked into the first recessed area 323; when the first housing 10 and the second housing 30 are relatively folded to the closed state , The first limiting member 81 is partially locked into the second recessed area 324.
- FIG. 20 is an exploded structure diagram of the first limiting member 81 shown in FIG. 19.
- the first limiting member 81 includes a first bracket 811 and a first elastic member 812.
- the first bracket 811 is a rigid structure and is not easily deformed under the action of external force.
- the first bracket 811 includes a control portion 8111 and a resisting portion 8112.
- the resisting portion 8112 is used to resist the external structural member to limit the structural member.
- the control part 8111 is used to control the position of the resisting part 8112.
- the control portion 8111 includes a substrate 8113 and a plurality of guide posts 8114, and the plurality of guide posts 8114 are fixed to one side of the substrate 8113 at intervals.
- the resisting portion 8112 is fixed to the other side of the substrate 8113.
- the first elastic member 812 is an elastic structure and is prone to deformation under the action of external force.
- One end of the first elastic member 812 is installed on the control portion 8111 of the first bracket 811.
- the first elastic member 812 may include a plurality of springs 8121, and the plurality of springs 8121 are sleeved on the plurality of guide posts 8114 in a one-to-one correspondence.
- the sliding end 41 of the first transmission arm 4 has a first installation groove 414, and the first limiting member 81 is installed in the first installation groove 414.
- the other end of the first elastic member 812 (that is, the end away from the control portion 8111) abuts against the groove wall of the first installation groove 414, and the first elastic member 812 is in a compressed state.
- the resisting portion 8112 of the first bracket 811 partially extends out of the first installation slot 414 and is engaged with the second fixing frame 32.
- the first elastic member 812 of the first limiting member 81 can be deformed under the action of an external force, the first limiting member 81 can be opposed to the second fixing frame 32 between the first recessed area 323 and the second recessed area 324
- the smooth movement between the first transmission arm 4 and the second fixing frame 32 improves the reliability of the restriction between the first transmission arm 4 and the second fixing frame 32.
- the first limiting member 81 may further include a first buffer member 813, and the first buffer member 813 is installed on the resisting portion 8112 of the first bracket 811.
- the first buffer member 813 may be made of a material with less rigidity (such as rubber, etc.), so as to be able to absorb the impact force through deformation when receiving an external force, so as to achieve buffering.
- the first limiting member 81 is provided with the first buffer member 813 to buffer the stress between the resisting portion 8112 and the structural member (that is, the second fixing frame 32), thereby improving the reliability of the limiting structure.
- the second fixing frame 32 includes a second connecting block 321.
- the second connecting block 321 may have a claw shape, and the second connecting block 321 has a rotating hole 3211.
- the second rotating arm 7 includes a claw-shaped first end 71, and the first end 71 of the second rotating arm 7 has a rotating hole 711.
- the first end 71 of the second rotating arm 7 is alternately connected with the second connecting block 321, and passes through the rotating hole 3211 of the second connecting block 321 and the first end 71 of the second rotating arm 7 through a rotating shaft (not shown in the figure).
- the rotating hole 711 makes the first end 71 of the second rotating arm 7 rotatably connected to the second connecting block 321, so as to realize the rotating connection between the second rotating arm 7 and the second fixing frame 32.
- the first end 71 of the second rotating arm 7 and the second connecting block 321 are alternately connected to each other in the axial direction of the main shaft 1 to achieve mutual restriction, thereby improving the connection reliability of the rotating mechanism 20.
- the second connecting block 321 includes a stop block 3212.
- the stop block 3212 makes the second rotating arm 7 stay at a predetermined position, so as to prevent the flexible display 200 from being pulled by the first housing 10 and the second housing 30 due to overturning, so as to protect the flexible display 200.
- the second connecting block 321 of the second fixing frame 32 and the first end 71 of the second rotating arm 7 may also have other structures, which can satisfy the rotational connection relationship between the two.
- the embodiment of the present application There is no strict restriction on this.
- the second rotating arm 7 further includes a claw-shaped second end 72.
- the second end 72 of the second rotating arm 7 is arranged opposite to the first end 51.
- the second end 72 of the second rotating arm 7 has a rotating hole 721.
- the end of the rotation end 62 of the second transmission arm 6 is claw-shaped, and the end of the rotation end 62 of the second transmission arm 6 has a rotation hole 623.
- the second end 72 of the second rotating arm 7 is alternately connected with the end of the rotating end 62 of the second transmission arm 6, and passes through the rotating hole of the second end 72 of the second rotating arm 7 through a rotating shaft (not shown in the figure) 721 and the rotation hole 623 of the rotation end 62 of the second transmission arm 6, so that the second end 72 of the second rotation arm 7 is rotatably connected to the rotation end 62 of the second transmission arm 6, thereby realizing the second rotation arm 7 and the second transmission
- the rotation of the arm 6 is connected.
- the second end 72 of the second rotating arm 7 and the end of the rotating end 62 of the second transmission arm 6 are alternately connected to each other in the axial direction of the main shaft 1, thereby improving the connection reliability of the rotating mechanism 20 .
- the second end 72 of the second rotating arm 7 and the rotating end 62 of the second transmission arm 6 may also have other structures, which can satisfy the rotational connection relationship between the two. Not strictly limited.
- the rotating end 62 of the second transmission arm 6 is arc-shaped.
- the rotating end 62 of the second transmission arm 6 can be installed in one of the arc-shaped grooves 131 of the main shaft 1 so that the second transmission arm 6 is connected to the main shaft 1 in rotation.
- the rotating end 62 of the second transmission arm 6 is installed in the arc-shaped groove 131 of the active space of the main shaft 1 (refer to FIG. 15). At this time, the rotation center of the second transmission arm 6 and the main shaft 1 is close to the main shaft. The shaft 15 is far away from the main outer shaft 14.
- the second transmission arm 6 and the main shaft 1 are connected by a virtual shaft, the rotating connection structure is simple, and the space occupied is small, which is beneficial to reduce the thickness of the rotating mechanism 20, making the folding device 100 and the electronic device 1000 easier to implement Thin and light.
- the second transmission arm 6 and the main shaft 1 may also be connected by a real shaft, which is not strictly limited in the embodiment of the present application.
- the rotating end 62 of the second transmission arm 6 may further include a limiting protrusion 622, and the limiting protrusion 622 is formed at an end position of the rotating end 62.
- the limiting protrusion 622 is used to cooperate with the limiting protrusion 144 (refer to FIG. 15) of the main shaft 1 to prevent the second transmission arm 6 from accidentally detaching from the main shaft 1.
- the rotating end 62 of the second transmission arm 6 may further include a limiting protrusion 621, and the limiting protrusion 621 forms an inner position and/or an outer position of the rotating end 62.
- the limiting protrusion 421 is used to cooperate with the limiting groove 1431 and/or the limiting groove 1531 of the main shaft 1 (see FIG. 15), so that the second transmission arm 6 and the main shaft 1 realize the axial direction of the main shaft 1 Mutual limit.
- the first fixing frame 31 has a second sliding groove 312.
- the side wall of the second sliding groove 312 may have a recessed guide space 3121.
- the sliding end 61 of the second transmission arm 6 is installed in the second sliding groove 312 to be slidably connected to the first fixing frame 31.
- the sliding end 61 of the second transmission arm 6 includes a second flange 613 on the peripheral side.
- the second flange 613 is installed in the guide space 3121 of the second sliding groove 312.
- the cooperation of the guide space 3121 of the second sliding groove 312 and the second flange 613 of the second transmission arm 6 can guide the sliding end 61 of the second transmission arm 6 to slide in the second sliding groove 312
- the direction makes the relative sliding action between the second transmission arm 6 and the first fixing frame 31 easier to realize and higher control accuracy.
- the rotating mechanism 20 may further include a second limiting member 82.
- the second limiting member 82 is installed on the sliding end 61 of the second transmission arm 6, and the second limiting member 82 is clamped to the first fixing frame 31.
- the second limiting member 82 is used to limit the relative positional relationship between the second transmission arm 6 and the first fixing frame 31, so that the second transmission arm 6 and the first fixing frame 31 can be protected from a large external force.
- the preset relative position relationship is maintained at the time, the rotating mechanism 20 can stay at the preset angle, and the rotating device can be maintained in a flat state or a closed state, so as to improve the user experience of the folding device 100 and the electronic device 1000.
- the first fixing frame 31 further includes a third recessed area 313 and a fourth recessed area 314, and both the third recessed area 313 and the fourth recessed area 314 are connected to the second sliding groove 312.
- the third recessed area 313 is located on the side of the fourth recessed area 314 close to the second fixing frame 32. Refer to FIG. 8 in conjunction with FIG. 8, that is, the third recessed area 313 is located between the main shaft 1 and the fourth recessed area 314.
- the second limiting member 82 When the first housing 10 and the second housing 30 are relatively unfolded to the flat state, the second limiting member 82 is partially locked into the third recessed area 313; when the first housing 10 and the second housing 30 are relatively folded to the closed state , The second limiting member 82 partially engages in the fourth recessed area 314.
- the structure of the second limiting member 82 is the same as the structure of the first limiting member 81 to simplify the material types of the rotating mechanism 20 and reduce the design difficulty and cost of the rotating mechanism 20.
- the specific structure of the second limiting member 82 will not be repeated in the embodiment of the present application.
- the structure of the second limiting member 82 may also be different from the structure of the first limiting member 81.
- the rotating mechanism 20 may further include a first synchronous swing arm 91 and a second synchronous swing arm 92.
- the first synchronous swing arm 91 includes a rotating end 911 and a movable end 912.
- the rotating end 911 of the first synchronous swing arm 91 is rotatably connected to the main shaft 1, and the movable end 912 of the first synchronous swing arm 91 is movably connected to the first fixing frame 31.
- the first housing 10 and the second housing 30 are relatively folded or unfolded. In the process, the movable end 912 of the first synchronous swing arm 91 slides and rotates relative to the first fixing frame 31.
- the rotating end 911 of the first synchronous swing arm 91 includes a first rotating body 9111, a first rotating shaft 9112, and a first gear 9113.
- the first rotating body 9111 includes a front face, a back face, and a peripheral side connected between the front face and the back face.
- the first gear 9113 is fixed on the peripheral side of the first rotating body 9111.
- the first rotating shaft 9112 is fixed to the front and/or back of the first rotating body 9111.
- the first rotating shaft 9112 includes two parts, which are respectively fixed on the front and back of the first rotating body 9111, so that the first synchronous swing arm 91 has a better balance when connected to other structures through the first rotating shaft 9112. Sex and stability.
- the first rotating shaft 9112 includes a part, and the first rotating shaft 9112 is fixed on the front or back of the first rotating body 9111 to reduce the installation space requirement of the first synchronous swing arm 91.
- the first rotating shaft 9112 is used to rotate and connect the main shaft 1.
- the first synchronous swing arm 91 can be installed in the movable space of the main shaft 1 (as shown in FIG. 14 ), and the first rotating shaft 9112 is installed in the concave groove 133 of the M-shaped groove 132.
- the rotating end 911 of the first synchronous swing arm 91 and the main shaft 1 are rotationally connected through a real shaft.
- the rotating end 911 of the first synchronous swing arm 91 and the main shaft 1 may also be connected in rotation through a virtual shaft, which is not strictly limited in the embodiment of the present application.
- the movable end 912 of the first synchronous swing arm 91 includes a third rotating body 9121 and a third rotating shaft 9122, and the third rotating shaft 9122 is fixed to the front and/or back of the third rotating body 9121.
- the first fixing frame 31 further has a third sliding groove 316, and the groove wall of the third sliding groove 316 has a recessed guide space 3161.
- the guiding direction of the guiding space 3161 of the third sliding groove 316 is the same as the guiding direction of the guiding space 3121 of the second sliding groove 312.
- the movable end 912 of the first synchronous swing arm 91 can be installed in the third sliding groove 316 of the first fixing frame 31, and the third rotating shaft 9122 can be installed in the guiding space 3161 of the third sliding groove 316.
- the movable end 912 of the first synchronous swing arm 91 can slide and rotate relative to the first fixing frame 31.
- the cooperation of the guiding space 3161 of the third sliding groove 316 and the first rotating shaft 9112 of the first synchronous swing arm 91 can guide the movable end 912 of the first synchronous swing arm 91 to the third sliding groove 316
- the sliding direction makes the relative movement between the first synchronous swing arm 91 and the first fixing frame 31 easier to realize and higher control accuracy.
- the second synchronous swing arm 92 includes a rotating end 921 and a movable end 922.
- the rotating end 921 of the second synchronous swing arm 92 is rotatably connected to the main shaft 1, and the second synchronous swing arm 92
- the rotating end 921 engages the rotating end 911 of the first synchronous swing arm 91
- the movable end 922 of the second synchronous swing arm 92 is movably connected to the second fixing frame 32
- the first housing 10 and the second housing 30 are relatively folded or unfolded
- the movable end 922 of the second synchronous swing arm 92 slides and rotates relative to the second fixing frame 32.
- the rotating end 911 of the first synchronous swing arm 91 and the rotating end 921 of the second synchronous swing arm 92 are meshed with each other, the rotating end 911 of the first synchronous swing arm 91 and the rotation of the second synchronous swing arm 92 are The ends 921 are all rotatably connected to the main shaft 1, the movable end 912 of the first synchronous swing arm 91 is movably connected to the first fixing frame 31, and the movable end 922 of the second synchronous swing arm 92 is movably connected to the second fixing frame 32.
- the first synchronous swing arm 91 and the second synchronous swing arm 92 can control the rotation angles of the first fixed frame 31 and the second fixed frame 32 relative to the main shaft 1 to be consistent.
- the rotation actions of the first fixing frame 31 and the second fixing frame 32 are synchronized and consistent, and the folding and unfolding actions of the rotating mechanism 20 are more symmetrical, which is beneficial to improve the user experience.
- the first synchronous swing arm 91 is rotatably connected to the main shaft 1, slidably connected and rotatably connected to the first fixing frame 31, that is, a connecting rod slider structure is formed.
- the second synchronous swing arm 92 is rotatably connected to the main shaft 1, slidably connected and rotatably connected to the second fixing frame 32, that is, a connecting rod slider structure is formed.
- the two intermeshing linkage slider structures can well control the synchronization and consistency of the rotation actions of the first housing 10 and the second housing 30.
- the rotating end 921 of the second synchronous swing arm 92 includes a second rotating body 9211, a second rotating shaft 9212, and a second gear 9213.
- the second rotating shaft 9212 is fixed to the second rotating On the front and/or back of the main body 9211, the second gear 9213 is fixed to the peripheral side of the second rotating main body 9211.
- the rotating end 921 of the second synchronous swing arm 92 can be installed in the movable space of the main shaft 1 (as shown in FIG. 14 ), and the second rotating shaft 9212 is installed in another recessed groove 133 of the M-shaped groove 132.
- the second rotating shaft 9212 is rotatably connected to the main shaft 1, and the second gear 9213 meshes with the first gear 9113.
- the rotating end 911 of the first synchronous swing arm 91 and the rotating end 921 of the second synchronous swing arm 92 directly mesh with the second gear 9213 through the first gear 9113, the first synchronous swing arm 91 and the second synchronous swing arm 91 directly mesh with the second gear 9213.
- the synchronous assembly formed by the two synchronous swing arms 92 has a simple structure, easy control of the movement process, and high accuracy.
- the movable end 922 of the second synchronous swing arm 92 includes a fourth rotating body 9222 and a fourth rotating shaft 9221, and the fourth rotating shaft 9221 is fixed to the front and/or back of the fourth rotating body 9222.
- the second fixing frame 32 further has a fourth sliding groove 326, and the groove wall of the fourth sliding groove 326 has a recessed guide space 3261.
- the guiding direction of the guiding space 3261 of the fourth sliding groove 326 is the same as the guiding direction of the guiding space 3221 of the first sliding groove 322.
- the second synchronous swing arm 92 is installed in the fourth sliding groove 326, and the fourth rotating shaft 9221 is installed in the guiding space 3261 of the fourth sliding groove 326.
- the movable end 922 of the second synchronous swing arm 92 can be guided in the sliding direction of the fourth sliding groove 326, so that the second synchronous swing arm 92
- the relative movement between the synchronous swing arm 92 and the second fixing frame 32 is easier to realize and the control accuracy is higher.
- the structure of the second synchronous swing arm 92 may be substantially the same as the structure of the first synchronous swing arm 91 to simplify the material types of the rotating mechanism 20 and reduce the design difficulty and cost of the rotating mechanism 20.
- the structural difference between the second synchronous swing arm 92 and the first synchronous swing arm 91 is that the first gear 9113 and the second gear 9213 are arranged at different angles to facilitate meshing with each other.
- the rotating mechanism 20 may further include a first adapter 93 and a second adapter 94.
- the first adapter 93 is slidably mounted on the first fixing frame 31
- the movable end 912 of the first synchronous swing arm 91 is rotatably connected to the first adapter 93
- the second adapter 94 is slidably mounted on the second fixing frame 32.
- the movable end 922 of the two synchronous swing arms 92 is rotatably connected to the second adapter 94.
- the structure of the second adapter 94 can be the same as the structure of the first adapter 93 to simplify the material types of the rotating mechanism 20 and reduce the design difficulty and cost of the rotating mechanism 20.
- the first fixing frame 31 is an integrally formed structural member, and includes a first connecting block 311, a second sliding groove 312 and a third sliding groove 316.
- the first fixing frame 31 may include a plurality of structural members, and the first connecting block 311, the second sliding groove 312, and the third sliding groove 316 are formed on different structural members, which is not described in this application. Strictly limit.
- the second fixing frame 32 is an integrally formed structural member, and includes a second connecting block 321, a first sliding groove 322 and a fourth sliding groove 326.
- the second fixing frame 32 may include a plurality of structural members, and the second connecting block 321, the first sliding groove 322, and the fourth sliding groove 326 are formed on different structural members, which is not described in this application. Strictly limit.
- the first fixing frame 31 has a plurality of fastening holes 317, and the rotating mechanism 20 can fix the first fixing frame 31 to the first housing 10 by a plurality of fasteners.
- the second fixing frame 32 has a plurality of fastening holes 327, and the rotating mechanism 20 can fix the second fixing frame 32 to the second housing 30 through a plurality of fasteners.
- FIG. 21 is a schematic structural diagram of the middle connecting assembly 20b shown in FIG. 10 at another angle
- FIG. 22 is an exploded structural diagram of the middle connecting assembly 20b shown in FIG. 21.
- the rotating mechanism 20 further includes a third fixing frame 33, a fourth fixing frame 34, a third transmission arm 40, a fourth transmission arm 50 and a gear transmission assembly 60.
- the third fixing frame 33 is fixed to the first housing 10
- the fourth fixing frame 34 is fixed to the second housing 30.
- the third transmission arm 40 includes a sliding end 401 and a rotation end 402.
- the sliding end 401 of the third transmission arm 40 is slidably connected to the first fixing frame 31, and the rotation end 402 of the third transmission arm 40 is rotatably connected to the main shaft 1.
- the fourth transmission arm 50 includes a sliding end 501 and a rotating end 502.
- the sliding end 501 of the fourth transmission arm 50 is slidably connected to the second fixing frame 32, and the rotation end 502 of the fourth transmission arm 50 is rotatably connected to the main shaft 1.
- the rotating end 502 of the fourth transmission arm 50 meshes with the rotating end 402 of the third transmission arm 40 through the gear transmission assembly 60.
- the rotation mechanism 20 is provided with a middle connecting component 20b to increase the interaction force between the rotation mechanism 20 and the first housing 10 and the second housing 30, making the folding device 100 easier to fold and unfold.
- the actions of the third transmission arm 40 and the fourth transmission arm 50 are related to each other, and the two form an interlocking structure, thereby limiting the degree of freedom of the mechanism and increasing the structural strength and reliability of the middle connecting assembly 20b. sex.
- the third fixing frame 33 has a fifth sliding groove 331, and the middle of the groove wall of the fifth sliding groove 331 is recessed to form a guiding space 3311 of the fifth sliding groove 331.
- the sliding end 401 of the third transmission arm 40 has a third flange 4011.
- the sliding end 401 of the third transmission arm 40 is installed in the fifth sliding groove 331, and the third flange 4011 is installed in the guiding space 3311 of the fifth sliding groove 331.
- the rotating end 402 of the third transmission arm 40 is arc-shaped and is installed in one of the arc-shaped slots 131 of the main shaft 1.
- the rotating end 402 of the third transmission arm 40 may be installed in the movable space of the main shaft 1 (refer to FIG. 17), and the third transmission arm 40 and the main shaft 1 are rotationally connected through a virtual shaft.
- the rotating end 402 of the third transmission arm 40 may further include a limiting protrusion 4021, and the limiting protrusion 4021 is formed at an end position of the rotating end 402.
- the limiting protrusion 4021 is used to cooperate with the limiting protrusion 144 of the main shaft 1 (refer to FIG. 17) to prevent the third transmission arm 40 from accidentally detaching from the main shaft 1.
- the rotating end 402 of the third transmission arm 40 may further include a limiting protrusion 4022, and the limiting protrusion 4022 forms an inner position and/or an outer position of the rotating end 402.
- the limiting protrusion 4022 is used to cooperate with the limiting groove 1431 and/or the limiting groove 1531 of the main shaft 1 (see FIG. 17), so that the third transmission arm 40 and the main shaft 1 realize the axial direction of the main shaft 1 Mutual limit.
- the fourth fixing frame 34 has a sixth sliding groove 341, and the middle of the groove wall of the sixth sliding groove 341 is recessed to form a guiding space 3411 of the sixth sliding groove 341.
- the sliding end 501 of the fourth transmission arm 50 has a fourth flange 5011.
- the sliding end 501 of the fourth transmission arm 50 is installed in the sixth sliding groove 341, and the fourth flange 5011 is installed in the guiding space 3411 of the sixth sliding groove 341.
- the rotating end 502 of the fourth transmission arm 50 is arc-shaped and is installed in one of the arc-shaped slots 131 of the main shaft 1.
- the rotating end 502 of the fourth transmission arm 50 may be installed in the movable space of the main shaft 1 (refer to FIG. 16), and the fourth transmission arm 50 and the main shaft 1 are rotationally connected through a virtual shaft.
- the rotating end 502 of the fourth transmission arm 50 may further include a limiting protrusion 5021, and the limiting protrusion 5021 is formed at an end position of the rotating end 502.
- the limiting protrusion 5021 is used to cooperate with the limiting protrusion 144 of the main shaft 1 (refer to FIG. 16) to prevent the fourth transmission arm 50 from accidentally detaching from the main shaft 1.
- the rotating end 502 of the fourth transmission arm 50 may further include a limiting protrusion 5022, and the limiting protrusion 5022 forms an inner position and/or an outer position of the rotating end 502.
- the limiting protrusion 5022 is used to cooperate with the limiting groove 1431 and/or the limiting groove 1531 of the main shaft 1 (see FIG.
- the structure of the fourth fixing frame 34 is the same as the structure of the third fixing frame 33
- the structure of the fourth transmission arm 50 is the same as the structure of the third transmission arm 40.
- the first transmission arm 4 rotates around the first rotation center 4C, that is, the first transmission arm 4 and the main shaft 1 rotate around the first rotation center 4C.
- the second transmission arm 6 rotates around the second rotation center 6C, that is, the second transmission arm 6 and the main shaft 1 rotate around the second rotation center 6C.
- the third transmission arm 40 rotates around the third rotation center 40C, that is, the third transmission arm 40 and the main shaft 1 rotate around the third rotation center 40C.
- the fourth transmission arm 50 rotates around the fourth rotation center 50C, that is, the fourth transmission arm 50 and the main shaft 1 rotate around the fourth rotation center 50C.
- the third rotation center 40C and the second rotation center 6C are collinear, and the fourth rotation center 50C and the first rotation center 4C are collinear. That is, the rotation center 40C of the third transmission arm 40 relative to the main shaft 1 and the rotation center 6C of the second transmission arm 6 relative to the main shaft 1 are collinear.
- the rotation center 50C of the fourth transmission arm 50 relative to the main shaft 1 and the rotation center 4C of the first transmission arm 4 relative to the main shaft 1 are collinear.
- the third transmission arm 40 is slidably connected to the third fixing frame 33, the fourth transmission arm 50 and the first transmission
- the rotation center of the arm 4 relative to the main shaft 1 is collinear
- the fourth transmission arm 50 is slidably connected to the fourth fixing frame 34, so the movement of the third transmission arm 40 can be synchronized with the movement of the second transmission arm 6, and the fourth transmission arm 50
- the movement can be synchronized with the movement of the first transmission arm 4, so the structural design and connection relationship of the rotating mechanism 20 can be simplified, and the reliability of the rotating structure can be improved.
- the rotating end 402 of the third transmission arm 40 includes a third gear 4023
- the rotating end 502 of the fourth transmission arm 50 includes a fourth gear 5023
- the gear transmission assembly 60 includes a first gear shaft 601 and a second gear shaft 602.
- the first gear shaft 601 includes a middle rotating shaft 6011 and two end gears (6012, 6013) fixed on both sides of the middle rotating shaft 6011, respectively.
- the gear shaft 602 includes a middle rotating shaft 6021 and two end gears (6022, 6023) fixed on both sides of the middle rotating shaft 6021, respectively.
- One end gear 6012 of the first gear shaft 601 meshes with the third gear 4023 of the third transmission arm 40.
- the two end gears (6012, 6013) of the second gear shaft 602 mesh with the two end gears (6022, 6023) of the first gear shaft 601, respectively.
- One end gear 6023 of the second gear shaft 602 meshes with the fourth gear 5023 of the fourth transmission arm 50.
- the middle rotation shaft 6011 of the first gear shaft 601 is rotatably connected to the main shaft 1
- the middle rotation shaft 6021 of the second gear shaft 602 is rotatably connected to the main shaft 1.
- the third transmission arm 40 is rotationally connected to the main shaft 1 through a virtual shaft
- the fourth transmission arm 50 is rotationally connected to the main shaft 1 through a virtual shaft.
- the rotation of the third transmission arm 40 is The end 402 and the rotating end 502 of the fourth transmission arm 50 mesh with each other through a gear transmission shaft.
- the third transmission arm 40 and the main shaft 1 may also be rotationally connected by a solid shaft
- the fourth transmission arm 50 and the main shaft 1 may be rotationally connected by a solid shaft.
- the rotating end 402 of the third transmission arm 40 Both have gears with the rotating end 502 of the fourth transmission arm 50, and the two directly mesh with each other.
- the present application does not strictly limit the structure of the third transmission arm 40 and the fourth transmission arm 50.
- FIG. 23 is a partial structural diagram of the rotating mechanism 20 shown in FIG. 7.
- the first supporting plate 21 is fixedly connected to the sliding end 61 of the second transmission arm 6, and the second supporting plate 22 is fixedly connected to the sliding end 41 of the first transmission arm 4.
- the first shielding plate 23 is located on the side of the second transmission arm 6 facing away from the first support plate 21 and is fixedly connected to the sliding end 61 of the second transmission arm 6.
- the second shielding plate 24 is located on the side of the first transmission arm 4 facing away from the second support plate 22 and is fixedly connected to the sliding end 41 of the first transmission arm 4.
- the first supporting plate 21 and the first shielding plate 23 are both fixed to the sliding end 61 of the second transmission arm 6 and are respectively located on both sides of the second transmission arm 6.
- the second supporting plate 22 and the second shielding plate 24 are both fixed to the sliding end 41 of the first transmission arm 4 and are respectively located on both sides of the first transmission arm 4.
- the first support plate 21, the first shielding plate 23 and the second transmission arm 6 are assembled into one part, and the second support plate 22, the second shielding plate 24 and the first transmission arm 4 are assembled into one part. Therefore, the second transmission arm 6 can directly control the movement trajectories of the first support plate 21 and the first shielding plate 23, and the first transmission arm 4 can directly control the movement trajectories of the second support plate 22 and the second shielding plate 24, so that the first The movement process of the supporting plate 21, the second supporting plate 22, the first shielding plate 23, and the second shielding plate 24 has high control accuracy and small backlash, so as to accurately achieve expansion and contraction during the rotation of the folding device 100 to meet flexibility
- the supporting requirements of the display screen 200 and the self-shielding requirements of the rotating mechanism 20 are required.
- the first supporting plate 21 and the first shielding plate 23 are fixed to the second transmission arms 6 of the two end connection assemblies 20a, and may also be fixed to the third transmission arms 40 of the middle connection assembly 20b;
- the supporting plate 22 and the second shielding plate 24 are both fixed to the first transmission arms 4 of the two end connection assemblies 20a, and can also be fixed to the fourth transmission arms 50 of the middle connection assembly 20b.
- multiple connecting components (20a, 20b) can jointly drive the first support plate 21, the first shielding plate 23, the second support plate 22 and the second shielding plate 24 to move, so as to reduce the difficulty of motion control and improve the accuracy of motion control. .
- the sliding ends of the plurality of transmission arms can be locked and fixed to the supporting plate and the shielding plate 16 by fasteners.
- Fasteners include but are not limited to screws, bolts, rivets, pins, etc.
- a concave-convex matching structure can also be provided between the sliding ends of the plurality of transmission arms, the supporting plate and the shielding plate 16 to improve assembly accuracy and reliability.
- FIG. 24 is a schematic diagram of the structure of the first supporting plate 21 shown in FIG. 8
- FIG. 25 is a schematic diagram of the structure of the first shielding plate 23 shown in FIG. 8.
- the first support plate 21 includes a plate body 211 and a plurality of first protrusions 212 and a plurality of second protrusions 213 fixed to the plate body 211, a plurality of first protrusions 212 and a plurality of second protrusions.
- the protrusions 213 are spaced apart from each other.
- the plurality of first protrusions 212 are used to respectively clamp the sliding end 61 of the second transmission arm 6 of the two end connecting assemblies 20a and the sliding end 401 of the third transmission arm 40 of the middle connecting assembly 20b.
- the plurality of second protrusions 213 are used for resisting the first shielding plate 23 to improve the support strength between the first support plate 21 and the first shielding plate 23.
- the first support plate 21 may be an integrally formed structural member.
- the first support plate 21 may further include a sliding member 214 fixed to the plate body 211, and the sliding member 214 is used for sliding connection with the first fixing frame 31 of the end connection assembly 20a, so that the first support plate 21 can better As the second transmission arm 6 slides relative to the first fixing frame 31, the mechanical reliability of the rotating mechanism 20 is improved.
- the number of the first sliding member 214 is two, and the two first sliding members 214 are slidably connected to the two first fixing frames 31 respectively.
- the first shielding plate 23 includes a first plate 231 and a second plate 232 that are stacked.
- the first plate 231 is a structural plate, including a main body 2311, a plurality of first protrusions 2312 and a plurality of second protrusions 2313 fixed to the main body 2311, a plurality of first protrusions 2312 and a plurality of second protrusions 2313 Set apart from each other.
- the plurality of first protrusions 2312 are used to respectively clamp the sliding end 61 of the second transmission arm 6 of the two end connection assemblies 20a and the sliding end 401 of the third transmission arm 40 of the middle connection assembly 20b.
- the plurality of second protrusions 2313 are used to respectively resist the plurality of second protrusions 213 of the first supporting plate 21 to improve the supporting strength between the first supporting plate 21 and the first shielding plate 23.
- the second plate 232 is an appearance plate, and the second plate 232 can shield the structure of the first plate 231, so that the appearance integrity of the first shielding plate 23 is better.
- the first plate 231 and the second plate 232 can be fixed to each other by bonding or the like.
- the first plate 231 of the first shielding plate 23 may further include a sliding member 2314 fixed to the main body 2311.
- the sliding member 2314 is used for sliding connection with the first fixing frame 31 of the end connecting assembly 20a, so that the first shielding plate 23 can better slide with the second transmission arm 6 relative to the first fixing frame 31, so as to improve the mechanical reliability of the rotating mechanism 20.
- the structure of the second support plate 22 can be the same as the structure of the first support plate 21, and the structure of the second shield plate 24 can be the same as the structure of the first shield plate 23 to simplify the material types of the rotating mechanism 20 , To reduce the design difficulty and cost of the rotating mechanism 20.
- the specific structures of the second supporting plate 22 and the second shielding plate 24 will not be repeated in the embodiment of the present application.
- FIG. 26 is a schematic diagram of a part of the structure of the folding device 100 shown in FIG. 2.
- the structure shown in FIG. 29 includes the first housing 10, the first fixing frame 31 of the two end connecting assemblies 20a, and the third fixing frame 33 of the middle connecting assembly 20b.
- the first housing 10 has a first fixing groove 102 on a side close to the rotating mechanism 20, and the first housing 10 includes a first positioning plate 103 located in the first fixing groove 102, the first positioning plate 103 and the second fixing groove 102.
- the bottom wall of a fixing groove 102 is spaced apart, and the first fixing frame 31 is located between the first positioning plate 103 and the bottom wall of the first fixing groove 102 and is fixedly connected to the first positioning plate 103.
- the first fixing frame 31 and the first housing 10 are fixed to each other, the first housing 10 and the first fixing frame 31 move synchronously.
- the constraint of the motion trajectory also forms a constraint on the motion trajectory of the first housing 10.
- the first housing 10 has a first supporting surface 101, and the first positioning plate 103 is sunk relative to the first supporting surface 101 to form a first receiving groove 104.
- the first accommodating groove 104 can provide a accommodating and moving space for the first supporting plate 21.
- the position of the first accommodating groove 104 is set so that the supporting surface of the first supporting plate 21 installed in the first accommodating groove 104 can be in contact with the first housing 10
- the first supporting surface 101 is flush with each other, so that the first supporting plate 21 can better support the flexible display screen 200.
- the depth of the first receiving groove 104 is very shallow, and the non-display side of the flexible display 200 is provided with a supporting back plate with higher hardness. Therefore, when the first supporting plate 21 partially extends out of the first receiving groove 104, The portion of the flexible display screen 200 facing the first receiving groove 104 will not be significantly deformed under the pressure of the user, which is also beneficial to ensure the reliability of the flexible display screen 200.
- the third fixing frame 33 is located between the first positioning plate 103 and the bottom wall of the first fixing groove 102 and is fixedly connected to the first positioning plate 103.
- a gap 105 is formed between the two first fixing frames 31 and the third fixing frame 33 and the bottom wall of the first fixing groove 102, and the gap 105 is used to provide the first shielding plate 23 with accommodation and movement space.
- the first positioning plate 103 may include a plurality of structures arranged at intervals, or may be a continuous structure, which is not strictly limited in this application.
- the first fixing frame 31 and the third fixing frame 33 can be locked to the first positioning plate 103 by fasteners, and the fasteners can be, but not limited to, screws, bolts, rivets and other structures.
- other connection structures may also be formed between the first fixing frame 31 and the third fixing frame 33 and the first housing 10, which is not strictly limited in this application.
- FIG. 27 is a schematic diagram of a partial structure of the folding device 100 shown in FIG. 2.
- the structure shown in FIG. 27 includes the second housing 30, the second fixing frame 32 of the two end connecting assemblies 20a, and the fourth fixing frame 34 of the middle connecting assembly 20b.
- the second housing 30 has a second fixing groove 302 on a side close to the rotating mechanism 20, and the second housing 30 includes a second positioning plate 303 located in the second fixing groove 302, the second positioning plate 303 and the second fixing groove 302
- the bottom walls of the two fixing grooves 302 are spaced apart, and the second fixing frame 32 is located between the second positioning plate 303 and the bottom wall of the second fixing groove 302 and is fixedly connected to the second positioning plate 303.
- the rotating mechanism 20 can control the movement trajectory of the second fixing frame 32. Control the movement trajectory of the second housing 30.
- the second housing 30 has a second supporting surface 301, and the second positioning plate 303 is sunk relative to the second supporting surface 301 to form a second receiving groove 304.
- the second accommodating groove 304 can provide accommodation and movement space for the second supporting plate 22.
- the position of the second accommodating groove 304 is set so that the supporting surface of the second supporting plate 22 installed in the second accommodating groove 304 can be in contact with the second housing 30.
- the second supporting surface 301 is flush, so that the second supporting plate 22 can better support the flexible display screen 200.
- the depth of the second accommodating groove 304 is very shallow, and the non-display side of the flexible display 200 is provided with a supporting back plate with higher hardness. Therefore, when the second supporting plate 22 partially extends out of the second accommodating groove 304, The portion of the flexible display screen 200 facing the second receiving groove 304 will not be significantly deformed under the pressure of the user, which is also beneficial to ensure the reliability of the flexible display screen 200.
- the fourth fixing frame 34 is located between the second positioning plate 303 and the bottom wall of the second fixing groove 302 and is fixedly connected to the second positioning plate 303.
- a gap 305 is formed between the two second fixing frames 32 and the fourth fixing frame 34 and the bottom wall of the second fixing groove 302, and the gap 305 is used to provide a receiving and moving space for the second shielding plate 24.
- the second positioning plate 303 may include a plurality of structures arranged at intervals, or may be a continuous structure, which is not strictly limited in this application.
- the second fixing frame 32 and the fourth fixing frame 34 can be locked with the second positioning plate 303 by fasteners, and the fasteners can be, but not limited to, screws, bolts, rivets and other structures.
- other connection structures may also be formed between the second fixing frame 32 and the fourth fixing frame 34 and the second housing 30, which is not strictly limited in this application.
- folding device 100 will be described with reference to multiple internal structural drawings when the folding device 100 is in a flat state, an intermediate state, and a closed state, respectively.
- FIG. 28 is a schematic cross-sectional structure diagram of the folding device 100 shown in FIG. 2 corresponding to the position of the first transmission arm 4, and FIG. 29 is the corresponding second transmission arm of the folding device 100 shown in FIG. 2 6 is a schematic cross-sectional structure diagram of the location of the folding device 100 shown in FIG. 4, and FIG. 31 is a schematic diagram of the second transmission arm 6 of the folding device 100 shown in FIG. 4 Fig. 32 is a schematic cross-sectional structure diagram of the folding device 100 shown in Fig. 6 corresponding to the position of the first transmission arm 4, and Fig. 33 is a schematic diagram of the folding device 100 shown in Fig. 6 corresponding to the position of the second transmission arm 6 Schematic diagram of the cross-sectional structure. Figures 28 to 33 illustrate the changes in the positions of the first transmission arm 4 and the second transmission arm 6 of the folding device 100 during the transition from the flat state to the closed state.
- the first transmission arm 4 is approximately parallel to the main shaft 1, and the rotating end 42 of the first transmission arm 4 is rotating relative to the main shaft 1.
- the sliding end 41 of the first transmission arm 4 is in the sliding out position relative to the second fixing frame 32, the first transmission arm 4 is far from the second fixing frame 32 and the second housing 30, the second fixing frame 32 and the second housing
- the body 20 is away from the main shaft 1; the first rotating arm 5 is linked with the first transmission arm 4, the first rotating arm 5 is in an extended position relative to the main shaft 1, and the first rotating arm 5 pushes the first fixing frame 31 and the first housing 10 1 from the main axis.
- the second transmission arm 6 is approximately parallel to the main shaft 1, and the rotating end 62 of the second transmission arm 6 is rotating relative to the main shaft 1.
- the sliding end 61 of the second transmission arm 6 is in the sliding out position relative to the first fixing frame 31, and the second transmission arm 6 is far away from the first fixing frame 31 and the first housing 10, the first fixing frame 31 and the first housing
- the body 10 is far away from the main shaft 1; the second rotating arm 7 is linked with the second transmission arm 6, and the second rotating arm 7 is in an extended position relative to the main shaft 1.
- the second rotating arm 7 pushes the second fixing frame 32 and the second housing 30 1 from the main axis.
- the first transmission arm 4 and the second transmission arm 6 are in the rotated position relative to the main shaft 1, and the first rotation arm 5 and the second rotation
- the arm 7 is in an extended position relative to the main shaft 1 and pushes the first housing 10 and the second housing 30 away from the main shaft 1.
- the first transmission arm 4 is inclined relative to the main shaft 1, and the rotating end 42 of the first transmission arm 4 is partially rotated out/partially relative to the main shaft 1.
- the sliding end 41 of the first transmission arm 4 is in a partially sliding in/partially sliding out position relative to the second fixing frame 32.
- the first transmission arm 4 gradually approaches the second fixing frame 32 and the second housing 30.
- the fixed frame 32 and the second housing 30 gradually approach the main shaft 1; the first rotating arm 5 is linked with the first transmission arm 4, the first rotating arm 5 is in a partially extended/partially extended position relative to the main shaft 1, and the first rotating arm 5
- the first fixing frame 31 and the first housing 10 are driven to gradually approach the main shaft 1.
- the second transmission arm 6 when the first housing 10 and the second housing 30 are in an intermediate state, the second transmission arm 6 is inclined relative to the main shaft 1, and the rotating end 62 of the second transmission arm 6 is partially rotated out/partially relative to the main shaft 1. In the turned-in position, the sliding end 61 of the second transmission arm 6 is in a partially sliding in/partially sliding out position relative to the first fixing frame 31, and the second transmission arm 6 gradually approaches the first fixing frame 31 and the first housing 10.
- the fixing frame 31 and the first housing 10 are gradually approaching the main shaft 1; the second rotating arm 7 is linked with the second transmission arm 6, and the second rotating arm 7 is in a partially extended/partially extended position relative to the main shaft 1, and the second rotating arm 7
- the second fixing frame 32 and the second housing 30 are driven to gradually approach the main shaft 1.
- the first transmission arm 4 and the second transmission arm 6 are in a partially rotated out/partially rotated position relative to the main shaft 1, and the first rotation arm 5 and the second transmission arm
- the two rotating arms 7 are in a partially extended position relative to the main shaft 1 and drive the first housing 10 and the second housing 30 to gradually approach the main shaft 1.
- the first transmission arm 4 is substantially perpendicular to the main shaft 1, and the rotating end 42 of the first transmission arm 4 is rotated out relative to the main shaft 1.
- the sliding end 41 of the first transmission arm 4 is in the sliding-in position relative to the second fixing frame 32, the first transmission arm 4 is close to the second fixing frame 32 and the second housing 30, the second fixing frame 32 and the second housing 30 is close to the main shaft 1; the first rotating arm 5 is in an extended position relative to the main shaft 1, and the first rotating arm 5 draws the first fixing frame 31 and the first housing 10 closer to the main shaft 1.
- the second transmission arm 6 is substantially perpendicular to the main shaft 1, and the rotating end 62 of the second transmission arm 6 is rotated out relative to the main shaft 1.
- the sliding end 61 of the second transmission arm 6 is in the sliding-in position relative to the first fixing frame 31, the second transmission arm 6 is close to the first fixing frame 31 and the first housing 10, the first fixing frame 31 and the first housing 10 is close to the main shaft 1; the second rotating arm 7 is in an extended position relative to the main shaft 1, and the second rotating arm 7 draws the second fixing frame 32 and the second housing 30 closer to the main shaft 1.
- the first transmission arm 4 and the second transmission arm 6 are in the rotated out position relative to the main shaft 1, and the first rotation arm 5 and the second rotation The arm 7 is in an extended position relative to the main shaft 1 and draws the first housing 10 and the second housing 30 closer to the main shaft 1.
- the rotating end 42 of the first transmission arm 4 is rotatably connected to the main shaft 1, and the sliding end 41 is slidably connected to the second fixing frame 32
- the second fixing frame 32 is fixed to the second fixing frame 32.
- the rotating end 62 of the second transmission arm 6 is rotatably connected to the main shaft 1, and the sliding end 61 is slidably connected to the first fixing frame 31.
- the first fixing frame 31 is fixed to the first housing 10.
- the first housing 10 drives the first fixing frame 31 to rotate relative to the main shaft 1
- the second transmission arm 6 rotates with the first fixing frame 31 relative to the main shaft 1
- the second transmission arm 6 Sliding relative to the first fixing frame 31
- the second housing 30 drives the second fixing frame 32 to rotate relative to the main shaft 1
- the first transmission arm 4 rotates with the second fixing frame 32 relative to the main shaft 1
- the first transmission arm 4 is fixed relative to the second
- the frame 32 slides, so the folding device 100 can freely switch between the flat state and the closed state, and the first housing 10 and the second housing 30 can be relatively expanded to the flat state, so that the flexible display screen 200 is in a flat state
- the first housing 10 and the second housing 30 can also be relatively folded to a closed state, so that the electronic device 1000 can be conveniently stored and carried.
- first housing 10 and the second housing 30 are relatively folded to the closed state by the rotating mechanism 20, they can be completely closed, with no gap or small gap between the two, so that the appearance of the folding device 100 is relatively complete and the appearance is realized. Self-shielding, the appearance of the electronic device 1000 using the folding device 100 is relatively complete, which is beneficial to improve the reliability of the product and the user experience.
- the first transmission arm 4 rotates around the first rotation center 4C.
- the first rotation center 4C is the center of the arc groove 131 of the main shaft 1 corresponding to the rotation end 42 of the first transmission arm 4.
- the first rotation center 4C where the first transmission arm 4 rotates relative to the main shaft 1 is close to the main inner shaft 15 and far from the main outer shaft 14, close to the second fixing frame 32 and far from the first fixing frame 31.
- the second transmission arm 6 rotates around the second rotation center 6C.
- the second rotation center 6C is the center of the arc groove 131 of the main shaft 1 corresponding to the rotation end 62 of the second transmission arm 6.
- the second rotation center 6C where the second transmission arm 6 rotates relative to the main shaft 1 is close to the main inner shaft 15 and far from the main outer shaft 14, close to the first fixing frame 31 and far from the second fixing frame 32.
- the rotation mechanism 20 can more easily realize the pulling movement and folding of the housing of the folding device 100 during the process of changing from the flat state to the closed state.
- the outer casing moves to realize the deformation movement with the flexible display screen 200 as the neutral surface.
- the first end 51 of the first rotating arm 5 is rotatably connected to the first fixing frame 31, and the second end 52 is rotatably connected to the rotating end 42 of the first transmission arm 4, the first housing 10 and the second During the relative rotation of the housing 30, the rotation end 42 of the first transmission arm 4 drives the second end 52 of the first rotation arm 5 to rotate around the first rotation center 4C to form a first-stage linkage movement.
- the first rotation The first end 51 of the arm 5 rotates around the second end 52 of the first rotating arm 5 to form a second-stage linkage movement, so the linkage movement of the first rotating arm 5 is equivalent to a two-link movement.
- the second end 52 of the first rotating arm 5 Since the second end 52 of the first rotating arm 5 is rotatably connected to the rotating end 42 of the first transmission arm 4, the second end 52 of the first rotating arm 5 and the rotating end 42 of the first transmission arm 4 rotate around a fixed point synchronously, so The rotation angle of the first-stage link movement of the first rotation arm 5 is equal to the rotation angle of the first transmission arm 4, and the direction is opposite. Therefore, the first rotating arm 5 and the first transmission arm 4 form an interlocking structure.
- the first rotating arm 5 and the first transmission arm 4 form a primary hinge between the first fixing frame 31 and the second fixing frame 32.
- the degree of freedom of movement of the rotating arm 5 is reduced to 1, so that during the movement of the rotating mechanism 20, the first rotating arm 5 and the first transmission arm 4 have no virtual positions and no movement, which improves the tensile resistance of the rotating mechanism 20 Strength and reliability.
- the first end 71 of the second rotating arm 7 is rotatably connected to the second fixing frame 32, and the second end is rotatably connected to the rotating end 62 of the second transmission arm 6, the first housing 10 and the second housing During the relative rotation of the body 30, the rotation end 62 of the second transmission arm 6 drives the second end 72 of the second rotation arm 7 to rotate around the second rotation center 6C to form a first-stage linkage movement.
- the second rotation arm The first end 71 of the second rotating arm 7 rotates around the second end 72 of the second rotating arm 7 to form a second-stage linkage movement. Therefore, the linkage movement of the second rotating arm 7 is equivalent to a two-link movement.
- the second rotating arm 7 and the second transmission arm 6 form an interlocking structure
- the second rotating arm 7 and the second transmission arm 6 form a primary hinge between the first fixing frame 31 and the second fixing frame 32
- the second The degree of freedom of movement of the rotating arm 7 is reduced to 1, so that the second rotating arm 7 and the second transmission arm 6 have no virtual position and no movement during the movement of the rotating mechanism 20, thereby improving the tensile resistance of the rotating mechanism 20 Strength and reliability.
- the first transmission arm 4 is rotated into the main shaft 1, so that the first rotating arm 5 extends out of the main shaft. 1.
- the first rotating arm 5 pushes the first housing 10 away from the main shaft 1 through the first fixing frame 31, and the second transmission arm 6 rotates into the main shaft 1, so that the second rotating arm 7 extends out of the main shaft 1, and the second rotating arm 7
- the second housing 30 is pushed away from the main shaft 1 by the second fixing frame 32.
- the first transmission arm 4 rotates out of the main shaft 1, so that the first rotating arm 5 extends into the main shaft 1, and the first rotating arm 5 passes through the first
- the fixing frame 31 draws the first housing 10 closer to the main shaft 1
- the second transmission arm 6 rotates out of the main shaft 1, so that the second rotating arm 7 extends into the main shaft 1, and the second rotating arm 7 connects the second housing through the second fixing frame 32
- the body 30 is pulled closer to the main shaft 1. Therefore, the rotating mechanism 20 can make the first fixing frame 31 drive the first housing 10 to move away from the main shaft 1 and the second fixing frame 32 during the relatively unfolding process of the first housing 10 and the second housing 30
- the second housing 30 moves away from the main shaft 1.
- the first fixing frame 31 drives the first housing 10 to move closer to the main shaft 1.
- the second fixing frame 32 drives the second housing 30 to move in a direction close to the main shaft 1. That is, the rotation mechanism 20 can realize the internal pulling movement of the housing of the folding device 100 during the process of changing from the flat state to the closed state, and the external pushing movement of the housing of the folding device 100 during the process of changing from the closed state to the flat state, so that In the process of unfolding or folding, the folding device 100 can realize the deformation movement with the flexible display screen 200 as the neutral surface, thereby reducing the risk of pulling or squeezing the flexible display screen 200, so that the flexible display screen 200 can maintain a constant length for protection
- the flexible display screen 200 improves the reliability of the flexible display screen 200, so that the flexible display screen 200 and the electronic device 1000 have a longer service life.
- the first support plate 21 is flush with the second support plate 22, and the first support plate 21 is laid on the first fixed Between the frame 31 and the main shaft 1, the second support plate 22 is set up between the second fixing frame 32 and the main shaft 1.
- the first support plate 21, the main shaft 1, and the second support plate 22 can jointly form a folding screen for the flexible display 200 The complete plane support of the bend 2002. As shown in FIG.
- the first support plate 21 is stacked on the side of the first fixing frame 31 away from the second fixing frame 32
- the second support The plate 22 is stacked on the side of the second fixing frame 32 away from the first fixing frame 31, and the first supporting plate 21 and the second supporting plate 22 can be slidably folded relative to the first housing 10 and the second housing 30, respectively, so that the spindle 1 It is exposed to form a complete support for the bent portion 2002 of the flexible display screen 200.
- the rotating mechanism 20 can fully support the bent portion 2002 of the flexible display screen 200, thereby helping to protect the flexible display screen 200 and improving the user experience.
- the folding device 100 can realize self-shielding, which is beneficial to improve the integrity of the appearance, and can also reduce the risk of external dust and debris entering the rotating mechanism 20 to ensure the reliability of the folding device 100.
- the first shielding plate 23 can be folded between the first fixing frame 31 and the first housing 10
- the second shielding plate 24 can be folded between the second fixing frame 32 and the second housing 30 to realize avoidance, so that the folding device 100 can be smoothly folded to the closed form, and the mechanism has high reliability.
- first support plate 21 and the first shielding plate 23 are fixed to the sliding end 41 of the first transmission arm 4, the first support plate 21 and the first shielding plate 23 follow the movement of the sliding end 41 of the first transmission arm 4.
- the two supporting plates 22 and the second shielding plate 24 are fixed to the sliding end 61 of the second transmission arm 6.
- the second supporting plate 22 and the second shielding plate 24 follow the sliding end 61 of the second transmission arm 6 to move, so the folding device 100 During the transition from the closed state to the flat state, and during the transition from the flat state to the closed state, the first support plate 21 and the second support plate 22 are gradually approaching the main shaft 1 or away from the main shaft 1, thereby being folded
- the device 100 can completely support the flexible display screen 200 in various forms, which improves the reliability and service life of the flexible display screen 200 and the electronic device 1000.
- the folding device 100 can perform self-shielding according to the shape of the rotating mechanism 20 in various forms, and the reliability of the mechanism is high.
- the first supporting plate 21 and the first shielding plate 23 are both fixed to the sliding end 41 of the first transmission arm 4, the second supporting plate 22 and the second shielding plate 24 are both fixed to the sliding end 61 of the second transmission arm 6 Therefore, the first transmission arm 4 and the second transmission arm 6 realize the control of the first supporting plate 21, the first shielding plate 23, and the first supporting plate 21, the first shielding plate 23, and the The expansion and contraction actions of the two supporting plates 22 and the second shielding plate 24 are controlled, so the rotation mechanism 20 has a high degree of integration, a simple overall connection relationship, and a high reliability of the mechanism.
- FIG. 34 is a schematic cross-sectional structure diagram of the position of the first synchronous swing arm 91 and the second synchronous swing arm 92 of the folding device 100 shown in FIG.
- the cross-sectional structure diagram of the device 100 corresponding to the location of the first synchronous swing arm 91 and the second synchronous swing arm 92.
- FIG. 36 is the location of the first synchronous swing arm 91 and the second synchronous swing arm 92 of the folding device 100 shown in FIG. Schematic diagram of the cross-sectional structure of the location. 34 to 36 illustrate the position change of the first synchronous swing arm 91 and the second synchronous swing arm 92 during the transition of the folding device 100 from the flat state to the closed state.
- the first synchronous swing arm 91 and the second synchronous swing arm 92 are in a flat state, and the first synchronous swing arm 91 is opposite to each other.
- the first fixed frame 31 is in the extended position
- the first synchronous swing arm 91 is far away from the first fixed frame 31 and the first housing 10
- the second synchronous swing arm 92 is in the extended position relative to the second fixed frame 32
- the second synchronous swing arm The arm 92 is far away from the second fixing frame 32 and the second housing 30; as shown in FIG.
- the rotating end 911 of the first synchronous swing arm 91 and the rotating end 921 of the second synchronous swing arm 92 are meshed with each other, the rotating end 911 of the first synchronous swing arm 91 and the rotation of the second synchronous swing arm 92
- the ends 921 are rotatably connected to the main shaft 1
- the movable end 912 of the first synchronous swing arm 91 is movably connected to the first fixing frame 31
- the movable end 922 of the second synchronous swing arm 92 is movably connected to the second fixing frame 32, so that the 10 and the second housing 30 are relatively unfolded or relatively folded
- the first synchronous swing arm 91 and the second synchronous swing arm 92 can control the rotation angles of the first fixing frame 31 and the second fixing frame 32 relative to the main shaft 1 to be consistent
- the rotation actions of the first housing 10 and the second housing 30 are synchronized and consistent, and the folding and unfolding actions of the folding device 100 are more symmetrical, which is beneficial to improve the user experience.
- the first synchronous swing arm 91 is rotatably connected to the main shaft 1, slidably connected and rotatably connected to the first fixing frame 31, that is, a connecting rod slider structure is formed.
- the second synchronous swing arm 92 is rotatably connected to the main shaft 1, slidably connected and rotatably connected to the second fixing frame 32, that is, a connecting rod slider structure is formed.
- the two intermeshing linkage slider structures can well control the synchronization and consistency of the rotation actions of the first housing 10 and the second housing 30.
- the folding device 100 can realize the internal pulling movement of the housing during the process of changing from the flat state to the closed state, and realize the external pushing movement of the housing during the process of changing from the closed state to the flat state, so as to expand or fold.
- the flexible display screen 200 is used as the neutral surface to realize the deformation movement, so as to reduce the risk of pulling or squeezing the flexible display screen 200, protect the flexible display screen 200, and make the flexible display screen 200 more reliable.
- the screen 200 and the electronic device 1000 have a longer service life.
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Abstract
Description
Claims (14)
- 一种折叠装置,其特征在于,包括依次连接第一壳体、转动机构以及第二壳体,所述转动机构能够发生形变,以使所述第一壳体与所述第二壳体相对折叠或相对展开;所述转动机构包括主轴、第一固定架、第二固定架、第一传动臂、第一转动臂、第二传动臂以及第二转动臂;所述第一固定架固定于第一壳体,所述第二固定架固定于所述第二壳体;所述第一传动臂包括滑动端和转动端,所述第一传动臂的滑动端滑动连接所述第二固定架,所述第一传动臂的转动端转动连接所述主轴,所述第一转动臂的一端转动连接所述第一传动臂的转动端、另一端转动连接所述第一固定架;所述第二传动臂包括滑动端和转动端,所述第二传动臂的滑动端滑动连接所述第一固定架,所述第二传动臂的转动端转动连接所述主轴,所述第二转动臂的一端转动连接所述第二传动臂的转动端、另一端转动连接所述第二固定架。
- 根据权利要求1所述的折叠装置,其特征在于,所述主轴包括主内轴和固定于所述主内轴的主外轴,所述第一壳体与所述第二壳体相对折叠至闭合状态时,所述主内轴位于所述主外轴与所述第一固定架及所述第二固定架之间;所述第一传动臂绕第一转动中心转动,所述第一转动中心靠近所述主内轴且远离所述主外轴,所述第一转动中心靠近所述第二固定架且远离所述第一固定架;所述第二传动臂绕第二转动中心转动,所述第二转动中心靠近所述主内轴且远离所述主外轴,所述第二转动中心靠近所述第一固定架且远离所述第二固定架。
- 根据权利要求2所述的折叠装置,其特征在于,所述主内轴与所述主外轴共同围设出多个弧形槽,所述第一传动臂的转动端呈弧形且安装于其中一个所述弧形槽,所述第二传动臂的转动端呈弧形且安装于另一个所述弧形槽。
- 根据权利要求1至3中任一项所述的折叠装置,其特征在于,所述第二固定架具有第一滑槽、第一凹陷区以及第二凹陷区,所述第一凹陷区及所述第二凹陷区均连通所述第一滑槽,且所述第一凹陷区位于所述主轴与所述第二凹陷区之间;所述转动机构还包括第一限位件,所述第一限位件安装于所述第一传动臂的滑动端,所述第一传动臂的滑动端安装于所述第一滑槽;所述第一壳体与所述第二壳体相对展开至展平状态时,所述第一限位件部分卡入所述第一凹陷区,所述第一壳体所述第二壳体相对折叠至闭合状态时,所述第一限位件部分卡入所述第二凹陷区。
- 根据权利要求4所述的折叠装置,其特征在于,所述第一传动臂的滑动端具有第一安装槽,所述第一限位件安装于所述第一安装槽;所述第一限位件包括第一支架和第一弹性件,所述第一支架包括控制部和抵持部,所述第一弹性件的一端安装于所述第一支架的控制部,另一端抵持所述第一安装槽的槽壁,所述第一支架的抵持部卡接所述第二固定架。
- 根据权利要求1至5中任一项所述的折叠装置,其特征在于,所述转动机构还包括第一支撑板和第二支撑板,所述第一支撑板固定连接所述第二传动臂的滑动端,所述第二 支撑板固定连接所述第一传动臂的滑动端;所述第一壳体与所述第二壳体相对展开至展平状态时,所述第一支撑板与所述第二支撑板齐平,所述第一支撑板搭设在所述第一固定架与所述主轴之间,所述第二支撑板搭设在所述第二固定架与所述主轴之间;所述第一壳体与所述第二壳体相对折叠至闭合状态时,所述第一支撑板堆叠于所述第一固定架背离所述第二固定架的一侧,所述第二支撑板堆叠于所述第二固定架背离所述第一固定架的一侧。
- 根据权利要求6所述的折叠装置,其特征在于,所述主轴具有支撑面,所述第一壳体与所述第二壳体相对折叠至闭合状态时,所述主轴的支撑面相对所述第一支撑板及所述第二支撑板露出,所述主轴的支撑面呈弧形。
- 根据权利要求1至7中任一项所述的折叠装置,其特征在于,所述转动机构还包括第一遮蔽板和第二遮蔽板,所述第一遮蔽板固定连接所述第一传动臂的滑动端,所述第二遮蔽板固定连接所述第二传动臂的滑动端;所述第一壳体与所述第二壳体相对展开至展平状态时,所述第一遮蔽板与所述第二遮蔽板齐平,所述第一遮蔽板搭设在所述第一固定架与所述主轴之间,所述第二遮蔽板搭设在所述第二固定架与所述主轴之间;所述第一壳体与所述第二壳体相对折叠至闭合状态时,所述第一遮蔽板位于所述第一固定架与所述第一壳体之间,所述第二遮蔽板位于所述第二固定架与所述第二壳体之间。
- 根据权利要求1至8中任一项所述的折叠装置,其特征在于,所述转动机构还包括第一同步摆臂和第二同步摆臂;所述第一同步摆臂包括转动端和活动端,所述第一同步摆臂的转动端转动连接所述主轴,所述第一同步摆臂的活动端活动连接第一固定架,在所述第一壳体与所述第二壳体相对折叠或展开的过程中,所述第一同步摆臂的活动端相对所述第一固定架滑动且转动;所述第二同步摆臂包括转动端和活动端,所述第二同步摆臂的转动端转动连接所述主轴,所述第二同步摆臂的转动端啮合所述第一同步摆臂的转动端,所述第二同步摆臂的活动端活动连接第二固定架,所述第一壳体与所述第二壳体相对折叠或展开的过程中,所述第二同步摆臂的活动端相对所述第二固定架滑动且转动。
- 根据权利要求9所述的折叠装置,其特征在于,所述第一同步摆臂的转动端包括第一转动主体、第一转轴及第一齿轮,所述第一转轴固定于所述第一转动主体的正面和/或背面,所述第一齿轮固定于所述第一转动主体的周侧面,所述第一转轴转动连接所述主轴;所述第二同步摆臂的转动端包括第二转动主体、第二转轴及第二齿轮,所述第二转轴固定于所述第二转动主体的正面和/或背面,所述第二齿轮固定于所述第二转动主体的周侧面,所述第二转轴转动连接所述主轴,所述第二齿轮啮合所述第一齿轮。
- 根据权利要求9或10所述的折叠装置,其特征在于,所述转动机构还包括第一转接件和第二转接件,所述第一转接件滑动安装于所述第一固定架,所述第一同步摆臂的活动端转动连接所述第一转接件,所述第二转接件滑动安装于所述第二固定架,所述第二同步摆臂的活动端转动连接所述第二转接件。
- 根据权利要求1至11中任一项所述的折叠装置,其特征在于,所述转动机构还包 括第三固定架、第四固定架、第三传动臂、第四传动臂以及齿轮传动组件;所述第三固定架固定于所述第一壳体,所述第四固定架固定于所述第二壳体;所述第三传动臂包括滑动端和转动端,所述第三传动臂的滑动端滑动连接所述第一固定架,所述第三传动臂的转动端转动连接所述主轴;所述第四传动臂包括滑动端和转动端,所述第四传动臂的滑动端滑动连接所述第二固定架,所述第四传动臂的转动端转动连接所述主轴,所述第四传动臂的转动端通过所述齿轮传动组件与所述第三传动臂的转动端相互啮合。
- 根据权利要求12所述的折叠装置,其特征在于,所述第三传动臂与所述主轴相对转动的转动中心、和所述第二传动臂与所述主轴相对转动的转动中心共线;所述第四传动臂与所述主轴相对转动的转动中心、和所述第一传动臂与所述主轴相对转动的转动中心共线。
- 一种电子设备,其特征在于,包括柔性显示屏和权利要求1至13中任一项所述的折叠装置,所述柔性显示屏包括依次排列的第一非折弯部、折弯部以及第二非折弯部,所述第一非折弯部固定于所述第一壳体,所述第二非折弯部固定于所述第二壳体,在所述第一壳体与所述第二壳体相对折叠或相对展开的过程中,所述折弯部发生形变。
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