Rotating shaft device, electronic device and control method thereof

What is claimed is: 1 . A rotating shaft device, comprising a driving component and a rotating component, wherein the driving component is configured to receive a control signal, and adjust a torsion force of the rotating component based on the control signal. 2 . The rotating shaft device according to claim 1 , wherein the rotating component comprises: a first fixing member and a second fixing member sleeved on and connected to the first fixing member; and a third fixing member sleeved on and connected to the first fixing member and movably connected to the second fixing member. 3 . The rotating shaft device according to claim 2 , wherein a torsion force of the rotating component is adjusted via the driving component by adjusting a force acted between the second fixing member and the third fixing member. 4 . The rotating shaft device according to claim 3 , wherein the first fixing member comprises a first supporting rod and a first rotating shaft which is connected to the first supporting rod fixedly and perpendicularly, and the second fixing member and the third fixing member are sleeved on the first rotating shaft. 5 . The rotating shaft device according to claim 4 , wherein the second fixing member and the third fixing member are sleeved on the first rotating shaft in parallel with each other, the damping between the second fixing member and the third fixing member is adjusted via the driving component by adjusting a distance between the second fixing member and the third fixing member. 6 . The rotating shaft device according to claim 5 , wherein the third fixing member is provided with a disc spring at a side facing towards the second fixing member, and the damping between the second fixing member and the third fixing member is adjusted via the driving component by adjusting the compression of the disc spring. 7 . The rotating shaft device according to claim 4 , wherein a torsion force between the second fixing member and the third fixing member is adjusted via the driving component by adjusting the relative position between the second fixing member and the third fixing member. 8 . The rotating shaft device according to claim 7 , wherein the second fixing member comprises a position-limiting ring and a plurality of position-limiting grooves provided on an inner wall of the position-limiting ring; the third fixing member comprises a fixing shaft fixedly connected to the first fixing member, and a telescopic rod arranged on the fixing shaft; and in the case that the telescopic rod extends out of the fixing shaft, an extending end of the telescopic rod engages in one of the plurality of position-limiting grooves, and the telescopic rod and the position-limiting ring are immobilized with respect to each other; and in the case that the telescopic rod retracts into the fixing shaft, the extending end of the telescopic rod disengages from the position-limiting ring, and the telescopic rod separates from the position-limiting ring. 9 . The rotating shaft device according to claim 7 , wherein the second fixing member comprises a position-limiting ring, and a plurality of position-limiting grooves is provided on an inner wall of the position-limiting ring; the third fixing member comprises a fixing shaft fixedly connected to the first fixing member, and a telescopic rod arranged on the fixing shaft; and in the case that the telescopic rod extends out of the fixing shaft, multiple extending ends of the telescopic rod engage in corresponding position-limiting grooves, and the position-limiting ring is locked, and in the case that the telescopic rod retracts into the fixing shaft, the multiple extending ends of the telescopic rod disengage from the position-limiting ring, and the position-limiting ring is unlocked. 10 . The rotating shaft device according to claim 8 , wherein a torsion force between the second fixing member and the third fixing member is adjusted via the driving component by adjusting the relative position between the telescopic rod and the position-limiting ring. 11 . The rotating shaft device according to claim 9 , wherein a torsion force between the second fixing member and the third fixing member is adjusted via the driving component by adjusting the relative position between the telescopic rod and the position-limiting ring. 12 . The rotating shaft device according to claim 1 , wherein the driving component is an electromagnetic driving component or a stepping motor. 13 . An electronic device, comprising a first body, a second body and a controller, wherein the first body and the second body are connected in a rotatable manner via a rotating shaft device comprising a driving component and a rotating component, wherein the driving component is configured to receive a control signal, and adjust a torsion force of the rotating component based on the control signal, and the controller is configured to generate and send a first control instruction, the driving component is configured to adjust the rotating component in response to the first control instruction, such that a torsion force of the rotating component is switched to a second torsion force from a first torsion force, wherein the first torsion force is different from the second torsion force in magnitude. 14 . The electronic device according to claim 13 , wherein the electronic device further comprises a sensing component, and the sensing component is configured to detect sensing information, and send the sensing information to the controller, and the controller generates a first control instruction based on the sensing information. 15 . The electronic device according to claim 14 , wherein the sensing component is configured to detect an angle between the first body and the second body, and generate corresponding sensing information based on the angle between the first body and the second body. 16 . The electronic device according to claim 14 , wherein the sensing component is configured to detect user operation information received by the electronic device and generate corresponding sensing information based on the received user operation information. 17 . The electronic device according to claim 16 , wherein the sensing component comprises a touch region, and the sensing component detects touch information at the touch region to generate corresponding sensing information. 18 . The electronic device according to claim 16 , wherein the sensing component comprises a pressure sensor, and the sensing component detects pressure information at the pressure sensor to generate corresponding sensing information. 19 . The electronic device according to claim 14 , wherein the controller receives sensing information sent by the sensing component and determines whether the sensing information satisfies a preset condition, and generates and sends a first control instruction if the sensing information satisfies the preset condition. 20 . An electronic device control method, applied on an electronic device comprising a first body, a second body and a controller, wherein the first body and the second body are connected in a rotatable manner via a rotating shaft device comprising a driving component and a rotating component, wherein the driving component is configured to receive a control signal, and adjust a torsion force of the rotating component based on the control signal, and the controller is configured to generate and send a first control instruction, the driving component is configured to adjust the rotating component in response t