CN105094220A - Portable electronic device - Google Patents

Abstract

The invention provides a portable electronic device which comprises a first component and a second component. The first component includes an input interface and a first sensor. The second component is pivoted with the first component and pivots relative to the first component around the pivot, the second component comprises a display interface and a dormancy adjusting unit, the dormancy adjusting unit is suitable for switching between a first mode and a second mode, when the dormancy adjusting unit is in the first mode, the dormancy adjusting unit starts the first sensor under the condition that the second component is located in a first dormancy position, the portable electronic device enters the dormancy, when the dormancy adjusting unit is in the second mode, the dormancy adjusting unit starts the first sensor under the condition that the second component is located in a second dormancy position, the portable electronic device enters the dormancy, and the first dormancy position is different from the second dormancy position. The invention can greatly improve the convenience of the user in operation and also improve the universality and flexibility of the portable electronic device in application.

Description

Portable electron device

Technical field

The present invention has about a kind of portable electron device, is particularly to a kind of portable electron device with sleep mode.

Background technology

Notebook computer dormancy principle is by making magnet near hall effect sensor (Hallsensor), the change of hall effect sensor induction external magnetic field, and is converted to the difference of output voltage, and then makes notebook computer carry out dormancy.In the prior art, the dormancy angle of notebook computer is fixing, has only when the upper cover screen pass of notebook computer is incorporated into special angle, notebook computer just can be made to enter dormancy.But, user is when using notebook computer, may by notebook computer externally connected with display screen curtain, use notebook computer to be used as host computer, under this using forestland, the upper cover screen of notebook computer only needs in closing state or crack state, and now the auto sleep function of notebook computer causes the puzzlement of user on the contrary.

Summary of the invention

The problem to be solved in the present invention is, a kind of portable electron device provided, solve in prior art portable electron device (notebook computer) is used as host computer use time, the auto sleep function of notebook computer causes awkward problem.

In one embodiment of the present of invention, a kind of portable electron device is provided to comprise a first component and a second component.First component comprises an inputting interface and a first sensor.This first component of second component pivot joint, and around a pivot this first component pivotable relatively, wherein, this second component comprises a display interface and a dormancy adjustment unit, this dormancy adjustment unit is suitable for switching between a first mode and a second mode, when this dormancy adjustment unit is in this first mode, this dormancy adjustment unit starts this first sensor when this second component is positioned at one first dormancy orientation, this portable electron device is made to enter dormancy, when this dormancy adjustment unit is in this second mode, this dormancy adjustment unit starts this first sensor when this second component is positioned at one second dormancy orientation, this portable electron device is made to enter dormancy, this the second dormancy orientation different, this first dormancy orientation.

In another embodiment of the present invention, provide a kind of portable electron device, this device comprises: a first component, comprises an inputting interface and a dormancy adjustment unit; One second component, this first component of pivot joint, and around a pivot this first component pivotable relatively.This second component comprises a display interface and a first sensor, wherein, this dormancy adjustment unit is suitable for switching between a first mode and a second mode, when this dormancy adjustment unit is in this first mode, this dormancy adjustment unit starts this first sensor when this second component is positioned at one first dormancy orientation, this portable electron device is made to enter dormancy, when this dormancy adjustment unit is in this second mode, this dormancy adjustment unit starts this first sensor when this second component is positioned at one second dormancy orientation, this portable electron device is made to enter dormancy, this the second dormancy orientation different, this first dormancy orientation.

The portable electron device of the application embodiment of the present invention, user directly can promote to be arranged at the push button of apparatus surface and adjust dormancy angle.Particularly, when user is by notebook computer externally connected with display screen curtain, notebook computer to be used as the situation that host computer uses.Therefore significantly can promote user's convenience operationally, also improve portable electron device (notebook computer) application on popularity and degree of flexibility.

Accompanying drawing explanation

Fig. 1 shows the portable electron device of first embodiment of the invention.

Fig. 2 A shows the situation that dormancy adjustment unit is in first mode.

Fig. 2 B shows the situation that dormancy adjustment unit is in second mode.

Fig. 2 C shows the situation that dormancy adjustment unit is in the 3rd mode.

When Fig. 3 A display dormancy adjustment unit is in first mode, with the corresponding situation of first sensor.

When Fig. 3 B display dormancy adjustment unit is in second mode, with the corresponding situation of first sensor.

When Fig. 3 C display dormancy adjustment unit is in the 3rd mode, with the corresponding situation of first sensor.

Fig. 4 A shows portable electron device and presents a dull and stereotyped kenel.

Fig. 4 B, 4C show portable electron device when presenting dull and stereotyped kenel, the corresponding situation of dormancy adjustment unit and the second sensor.

Fig. 5 shows the portable electron device of second embodiment of the invention.

Reference numeral illustrates:

1,1 ' ~ portable electron device

10 ~ first component

11 ~ inputting interface

12 ~ circuit board

13 ~ first sensor

14 ~ the second sensors

15 ~ first surface

16 ~ second surface

20 ~ second component

21 ~ display interface

100 ~ dormancy adjustment unit

110 ~ magnetic element

111 ~ lead angle inclined-plane

120 ~ push button

130 ~ gear train

131 ~ the first rank

132 ~ second-order

133 ~ the first inclined-planes

134 ~ the second inclined-planes

140 ~ flexible member

X ~ first direction

Y ~ second direction

A ~ pivot

θ 1, θ 2 ~ angle

Embodiment

With reference to Fig. 1, the portable electron device 1 of its display first embodiment of the invention, comprises first component 10 and a second component 20.First component 10 comprises inputting interface 11, circuit board (12, with reference to Fig. 3 A) and a first sensor 13.First sensor 13 is located at circuit board 12.This first component 10 of second component 20 pivot joint, and around a pivot A this first component 10 pivotable relatively, wherein, this second component 20 comprises display interface 21 and a dormancy adjustment unit 100, and this dormancy adjustment unit 100 is suitable for switching between a first mode and a second mode.When this dormancy adjustment unit 100 is in this first mode, this dormancy adjustment unit starts this first sensor 13 when this second component 20 is positioned at one first dormancy orientation, makes this portable electron device 1 enter dormancy.When this dormancy adjustment unit 100 is in this second mode, this dormancy adjustment unit starts this first sensor 13 when this second component 20 is positioned at one second dormancy orientation, this portable electron device 1 is made to enter dormancy, this second dormancy orientation different, this first dormancy orientation.

With reference to Fig. 2 A and Fig. 2 B, this dormancy adjustment unit 100 comprises a magnetic element 110, and when this dormancy adjustment unit 100 is in this first mode (Fig. 2 A), this magnetic element 110 is positioned at a primary importance.When this dormancy adjustment unit 100 is in this second mode (Fig. 2 B), this magnetic element 110 is positioned at a second place, and this primary importance is between this second place and this pivot.In Fig. 2 A ~ 2C, the position before " 0 ° " representative does not adjust, " NO " represents magnetic element 110 and staggers completely with first sensor 13 and can not produce the position of contact action.

In an embodiment of the present invention, by the relative position between adjustment magnetic element 110 and sensor, adjusted the angle starting dormancy.With reference to Fig. 3 A, this second component 20 forms one first angle theta 1 between this first dormancy orientation and this first component 10, and now magnetic element 110 is just to first sensor 13, and provides sufficient magnetic induction and start dormancy.With reference to Fig. 3 B, this second component 20 forms one second angle theta 2 between this second dormancy orientation and this first component 10, and now magnetic element 110 is just to first sensor 13, and provides sufficient magnetic induction and start dormancy.This first angle theta 1 is greater than this second angle theta 2.In one embodiment, this first angle theta 1 can be 40 degree, and this second angle theta 2 can be 20 degree.This first sensor 13 is Hall element, and this first sensor 13 is embedded among this first component 10.

With reference to Fig. 3 C, in one embodiment, this dormancy adjustment unit 100 is suitable for being adjusted to one the 3rd mode, when this dormancy adjustment unit 100 is in the 3rd mode, even if the angle between this second component 20 and this first component 10 is 0 degree, also dormancy can not be started, because magnetic element 110 is not just to first sensor 13.

Refer again to Fig. 2 A and Fig. 2 B, this dormancy adjustment unit 100 also comprises a push button 120, and this push button 120 promotes this magnetic element 110 and moves to this second place from this primary importance, and this push button 120 is located at the surface of this second component 20.This dormancy adjustment unit 100 also comprises a gear train 130, this push button 120 connects this gear train 130, this gear train 130 abuts this magnetic element 110, when this push button 120 push away make this gear train 130 towards a first direction X translation time, this gear train 130 pushes away and makes this magnetic element 110 towards a second direction Y translation, and this first direction X is perpendicular to this second direction Y.

Refer again to Fig. 2 A ~ 2C, this gear train 130 is stepped, and this gear train 130 comprises one first rank 131 and a second-order 132.With reference to Fig. 2 A, when this magnetic element 110 is positioned at this primary importance, this magnetic element 110 is not yet transmitted mechanism 130 and promotes.With reference to Fig. 2 A, 2B, this gear train 130 comprises one first inclined-plane 133, be located at this front end, the first rank 131, this magnetic element 110 comprises a lead angle inclined-plane 111, when this dormancy adjustment unit 100 is adjusted to this second mode from this first mode, this gear train 130 is towards this first direction X translation, and this first inclined-plane 133 abuts this lead angle inclined-plane 111, and makes this magnetic element 110 be moved into this second place from this primary importance.When this magnetic element 110 is positioned at this second place, this magnetic element abuts this first rank 131.

With reference to Fig. 2 B, Fig. 2 C, user can further by this gear train 130 towards this first direction X translation, make one second inclined-plane 134 of this gear train 130 abut this lead angle inclined-plane 111, and push away and make this magnetic element 110 be moved into one the 3rd position from this second place.When this dormancy adjustment unit is in the 3rd mode (Fig. 2 C), this magnetic element 110 is positioned at the 3rd position, and now this magnetic element 110 abuts this second-order 132.

Refer again to Fig. 2 A ~ 2C, this dormancy adjustment unit 100 also comprises a flexible member 140, make this gear train 130 towards during in contrast to the direction (-X) translation of this first direction when this push button 120 pushes away, this flexible member 140 provides restoring force to be retracted towards the direction (-Y) in contrast to this second direction by this magnetic element 110.

With reference to Fig. 4 A, in one embodiment, portable electron device 1 also can present a dull and stereotyped kenel.In this embodiment, this second component 20 can pivot three-sixth turn and abut the back side of this first component 10.With reference to Fig. 4 B, in this embodiment, this first component 10 also comprises one second sensor 14, this circuit board 12 comprises first surface 15 and a second surface 16, this second surface 16 is in contrast to this first surface 15, this first sensor 13 is located at this first surface 15, and this second surface 16 is located at by this second sensor 14.Adjusted the position of this magnetic element 110 by this push button 120, this second sensor 14 can be made to be activated, and make this portable electron device 1 enter dormancy immediately.In one embodiment, this second sensor 14 is corresponding with this first sensor 13, when this push button 120 moves to this primary importance (Fig. 4 C) from the 3rd position (Fig. 4 B) towards the direction (-X) in contrast to this first direction, this portable electron device 1 enters dormancy immediately.The position of this second sensor 14 can appropriateness adjust, such as, the position of this second sensor 14 also can be adjusted to, and when this push button 120 moves to the 3rd position from this primary importance towards this first direction (X), this portable electron device 1 enters the design of dormancy immediately.

With reference to Fig. 5, the portable electron device 1 ' of its display second embodiment of the invention, in this embodiment, the position of dormancy adjustment unit and sensor is exchanged, a first component 10, comprises inputting interface 11 and a dormancy adjustment unit 100.This first component 10 of second component 20 pivot joint, and around a pivot A this first component 10 pivotable relatively, this second component 20 comprises display interface 21 and a first sensor 13.The manner of execution of the portable electron device 1 ' of second embodiment of the invention, with the first embodiment, does not therefore repeat separately.

The portable electron device of the application embodiment of the present invention, user directly can promote to be arranged at the push button of apparatus surface and adjust dormancy angle.Particularly, when user is by notebook computer externally connected with display screen curtain, notebook computer to be used as the situation that host computer uses.Therefore significantly can promote user's convenience operationally, also improve the extensive and degree of flexibility of portable electron device (notebook computer) in application.

Although the present invention discloses as above with concrete preferred embodiment; so itself and be not used to limit the present invention, any those skilled in the art, without departing from the spirit and scope of the present invention; still can do a little change and retouching, therefore protection scope of the present invention is as the criterion with claims.

Claims (13)

1. a portable electron device, is characterized in that, this device comprises:

One first component, comprises an inputting interface and a first sensor; And

One second component, this first component of pivot joint, and around a pivot this first component pivotable relatively, wherein, this second component comprises a display interface and a dormancy adjustment unit, this dormancy adjustment unit is suitable for switching between a first mode and a second mode, when this dormancy adjustment unit is in this first mode, this dormancy adjustment unit starts this first sensor when this second component is positioned at one first dormancy orientation, this portable electron device is made to enter dormancy, when this dormancy adjustment unit is in this second mode, this dormancy adjustment unit starts this first sensor when this second component is positioned at one second dormancy orientation, this portable electron device is made to enter dormancy, this the first dormancy orientation is different from this second dormancy orientation.

2. portable electron device as claimed in claim 1, it is characterized in that, this first sensor is Hall element, and this first sensor is embedded among this first component.

3. portable electron device as claimed in claim 2, it is characterized in that, this dormancy adjustment unit comprises a magnetic element, when this dormancy adjustment unit is in this first mode, this magnetic element is positioned at a primary importance, when this dormancy adjustment unit is in this second mode, this magnetic element is positioned at a second place, and this primary importance is between this second place and this pivot.

4. portable electron device as claimed in claim 3, it is characterized in that, this second component forms one first angle when this first dormancy orientation and between this first component, this second component forms one second angle when this second dormancy orientation and between this first component, and this first angle is greater than this second angle.

5. portable electron device as claimed in claim 3, it is characterized in that, this dormancy adjustment unit also comprises a push button, and this push button promotes this magnetic element and moves to this second place from this primary importance, and this push button is located at the surface of this second component.

6. portable electron device as claimed in claim 5, it is characterized in that, this dormancy adjustment unit also comprises a gear train, this push button connects this gear train, this gear train abuts this magnetic element, when this push button push away make this gear train towards a first direction translation time, this gear train pushes away and makes this magnetic element towards a second direction translation, and this first direction is perpendicular to this second direction.

7. portable electron device as claimed in claim 6, it is characterized in that, this gear train is stepped, and this gear train comprises one first rank, and when this magnetic element is positioned at this second place, this magnetic element abuts this first rank.

8. portable electron device as claimed in claim 6, it is characterized in that, this gear train comprises one first inclined-plane, be located at this front end, the first rank, this magnetic element comprises a lead angle inclined-plane, and when this dormancy adjustment unit is adjusted to this second mode from this first mode, this gear train is towards this first direction translation, this first inclined-plane abuts this lead angle inclined-plane, and makes this magnetic element be moved into this second place from this primary importance.

9. portable electron device as claimed in claim 7, it is characterized in that, this gear train comprises a second-order, this dormancy adjustment unit is suitable for being adjusted to one the 3rd mode, when this dormancy adjustment unit is in the 3rd mode, this magnetic element is positioned at one the 3rd position, and when this magnetic element is positioned at the 3rd position, this magnetic element abuts this second-order.

10. portable electron device as claimed in claim 6, it is characterized in that, this dormancy adjustment unit also comprises a flexible member, make this gear train towards during in contrast to the direction translation of this first direction when this push button pushes away, this flexible member provides restoring force to be retracted towards the direction in contrast to this second direction by this magnetic element.

11. portable electron devices as claimed in claim 1, it is characterized in that, this first component also comprises a circuit board and one second sensor, this circuit board comprises a first surface and a second surface, this second surface is in contrast to this first surface, this first sensor is located at this first surface, and this second surface is located at by this second sensor.

12. portable electron devices as claimed in claim 11, it is characterized in that, this second sensor is corresponding with this first sensor.

13. 1 kinds of portable electron devices, is characterized in that, this device comprises:

One first component, comprises an inputting interface and a dormancy adjustment unit; And

One second component, this first component of pivot joint, and around a pivot this first component pivotable relatively, this second component comprises a display interface and a first sensor, wherein, this dormancy adjustment unit is suitable for switching between a first mode and a second mode, when this dormancy adjustment unit is in this first mode, this dormancy adjustment unit starts this first sensor when this second component is positioned at one first dormancy orientation, this portable electron device is made to enter dormancy, when this dormancy adjustment unit is in this second mode, this dormancy adjustment unit starts this first sensor when this second component is positioned at one second dormancy orientation, this portable electron device is made to enter dormancy, this the second dormancy orientation different, this first dormancy orientation.