An electronic device and a control method are provided. The electronic device includes a display unit, a touch sensing unit, an adjustment unit and a controller. At least a first portion of the display unit is deformable, and the first portion deformed has a deformation distance with respect to a fi
An electronic device and a control method are provided. The electronic device includes a display unit, a touch sensing unit, an adjustment unit and a controller. At least a first portion of the display unit is deformable, and the first portion deformed has a deformation distance with respect to a first side or a second side of a plane where the display unit is located. The adjustment unit triggers deformation of the first portion of the display unit. The controller determines a control button in display content and a display position of the control button on the first portion of the display unit, and controls the display unit to be deformed at the display position according to a predetermined deformation rule by means of the adjustment unit. The touch sensing unit detects contact information generated by touching the control button by a user.
대표청구항▼
1. An electronic device, comprising a display unit, a touch sensing unit, an adjustment unit and a controller, wherein at least a first portion of the display unit is deformable, and the first portion deformed has a deformation distance with respect to a first side or a second side of a plane where
1. An electronic device, comprising a display unit, a touch sensing unit, an adjustment unit and a controller, wherein at least a first portion of the display unit is deformable, and the first portion deformed has a deformation distance with respect to a first side or a second side of a plane where the display unit is located;the adjustment unit is configured to trigger deformation of the first portion of the display unit;the controller is configured to determine a control button comprised in display content currently output by the display unit and a display position of the control button on the first portion of the display unit according to the display content, and to control the display unit to be deformed at the display position of the control button on the first portion of the display unit according to a predetermined deformation rule by means of the adjustment unit; andthe touch sensing unit is configured to detect contact information generated by touching the control button by a user;wherein the controller being configured to control the display unit to be deformed at the display position of the control button on the first portion of the display unit according to a predetermined deformation rule by means of the adjustment unit comprises: the controller being configured to determine a type of the display content and a predetermined deformation rule corresponding to the type of the display content, and control the display unit to be deformed at the display position of the control button on the first portion of the display unit according to the predetermined deformation rule by means of the adjustment unit; andthe controller being configured to, in response to a plurality of control buttons being detected in the display content currently output by the display unit, control the display unit to be deformed at display positions of the plurality of control buttons with respect to said plane,wherein deformation distances of the display unit at the display positions of the plurality of control buttons with respect to said plane comprise at least: a first deformation distance at a first display position of a first control button; anda second deformation distance at a second display position of a second control button, andwherein the first control button and the second control button have opposite functions, and the first deformation distance is different from the second deformation distance. 2. The electronic device according to claim 1, wherein the controller being configured to control the display unit to be deformed at the display position of the control button on the first portion of the display unit according to a predetermined deformation rule by means of the adjustment unit comprises: the controller being configured to control the display unit to be continuously changed at the display position between a first deformation state and a second deformation state by means of the adjustment unit, wherein the first deformation state is different from the second deformation state. 3. The electronic device according to claim 2, wherein the controller being configured to control the display unit to be continuously changed at the display position between a first deformation state and a second deformation state by means of the adjustment unit comprises: the controller being configured to determine a first change period during which the display unit changes from the first deformation state to the second deformation state and a second change period during which the display unit changes from the second deformation state to the first deformation state; andto control the display unit to be continuously changed at the display position between the first deformation state and the second deformation state by means of the adjustment unit, according to the first change period and the second change period. 4. The electronic device according to claim 3, wherein the controller being configured to determine the change period during which the display unit changes from the first deformation state to the second deformation state comprises: the controller being configured to determine the first change period during which the display unit changes from the first deformation state to the second deformation state and the second change period during which the display unit changes from the second deformation state to the first deformation state, according to the display content currently displayed by the display unit. 5. The electronic device according to claim 3, wherein the first deformation state is a state that the display unit has a third deformation distance at the display position with respect to the plane where the display unit is located, the second deformation state is a state that the display unit has a fourth deformation distance at the display position with respect to the plane where the display unit is located, and the third deformation distance is different from the fourth deformation distance. 6. The electronic device according to claim 4, wherein the first deformation state is a state that the display unit has a third deformation distance at the display position with respect to the plane where the display unit is located, the second deformation state is a state that the display unit has a fourth deformation distance at the display position with respect to the plane where the display unit is located, and the third deformation distance is different from the fourth deformation distance. 7. The electronic device according to claim 3, wherein the first deformation state is a state that the display unit has a first cross sectional area at the display position, the second deformation state is a state that the display unit has a second cross sectional area at the display position, and the first cross sectional area is different from the second cross sectional area. 8. The electronic device according to claim 1, wherein the controller being configured to control the display unit to be deformed at the display position of the control button on the first portion of the display unit according to a predetermined deformation rule by means of the adjustment unit comprises: the controller being configured to control, by means of the adjustment unit, the display unit to be changed at the display position of the control button on the first portion of the display unit from the plane where the display unit is located to a plane which has a fifth deformation distance or a sixth deformation distance with respect to the plane where the display unit is located, wherein the fifth deformation distance is a deformation distance of the display unit with respect to the first side of the plane where the display unit is located and the sixth deformation distance is a deformation distance of the display unit with respect to the second side of the plane where the display unit is located. 9. The electronic device according to claim 1, wherein the adjustment unit comprises a filling module and a deformation control module provided with control regions of different shapes, wherein the deformation control module is located between the touch sensing unit and the display unit, and different cavities are formed at locations corresponding to the different control regions;the filling module is connected to the deformation control module, for filling the cavities corresponding to the different control regions with filler, to trigger deformation of the display unit at the locations corresponding to the different control regions; andwherein the controller being configured to determine a display position of the control button on the display unit and control the display unit to be deformed at the display position according to a predetermined deformation rule by means of the adjustment unit comprises:the controller being configured to determine the display position of the control button on the display unit and the control region corresponding to the display position, control the filling module to fill the cavity corresponding to the control region with the filler or control the filling module to draw the filler out of the cavity corresponding to the control region according to the predetermined deformation rule, to trigger deformation of the display unit at the locations corresponding to the different control regions. 10. The electronic device according to claim 1, wherein the deformation distances of the display unit at the display positions of the plurality of control buttons with respect to said plane comprise at least three deformation distances different from each other. 11. A control method, which is applied to an electronic device, the electronic device comprising a display unit, a touch sensing unit and an adjustment unit, at least a first portion of the display unit being deformable and the first portion deformed having a deformation distance with respect to a first side or a second side of a plane where the display unit is located, wherein the method comprises: determining a control button comprised in display content currently output by the display unit and a display position of the control button on the first portion of the display unit according to the display content; andcontrolling the display unit to be deformed at the display position of the control button on the first portion of the display unit according to a predetermined deformation rule by means of the adjustment unit;wherein the controlling the display unit to be deformed at the display position of the control button on the first portion of the display unit according to a predetermined deformation rule by means of the adjustment unit comprises: determining a type of the display content and a predetermined deformation rule corresponding to the type of the display content;controlling the display unit to be deformed at the display position of the control button on the first portion of the display unit according to the predetermined deformation rule by means of the adjustment unit; andin response to a plurality of control buttons being detected in the display content currently output by the display unit, controlling the display unit to be deformed at display positions of the plurality of control buttons with respect to said plane,wherein deformation distances of the display unit at the display positions of the plurality of control buttons with respect to said plane comprise at least: a first deformation distance at a first display position of a first control button; anda second deformation distance at a second display position of a second control button, andwherein the first control button and the second control button have opposite functions and the first deformation distance is different from the second deformation distance. 12. The method according to claim 11, wherein the controlling the display unit to be deformed at the display position of the control button on the first portion of the display unit according to a predetermined deformation rule by means of the adjustment unit comprises: controlling the display unit to be continuously changed at the display position between a first deformation state and a second deformation state by means of the adjustment unit, wherein the first deformation state is different from the second deformation state. 13. The method according to claim 12, wherein the controlling the display unit to be continuously changed at the display position between a first deformation state and a second deformation state by means of the adjustment unit comprises: determining a first change period during which the display unit changes from the first deformation state to the second deformation state and a second change period during which the display unit changes from the second deformation state to the first deformation state; andcontrolling the display unit to be continuously changed at the display position between the first deformation state and the second deformation state by means of the adjustment unit, according to the first change period and the second change period. 14. The method according to claim 11, wherein the controlling the display unit to be deformed at the display position of the control button on the first portion of the display unit according to a predetermined deformation rule by means of the adjustment unit comprises: controlling, by means of the adjustment unit, the display unit to be changed at the display position of the control button on the first portion of the display unit from the plane where the display unit is located to a plane which has a fifth deformation distance or a sixth deformation distance with respect to the plane where the display unit is located, wherein the fifth deformation distance is a deformation distance of the display unit with respect to the first side of the plane where the display unit is located and the sixth deformation distance is a deformation distance of the display unit with respect to the second side of the plane where the display unit is located. 15. The method according to claim 11, wherein the deformation distances of the display unit at the display positions of the plurality of control buttons with respect to said plane comprise at least three deformation distances different from each other.
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이 특허에 인용된 특허 (9)
Strittmatter, Patrick Clement, Breathable sealed dome switch assembly.
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