CN203812138U - Notebook computer - Google Patents

Abstract

The utility model discloses a notebook computer, comprising a base, a touch display screen, a magnetic piece and a magnetic induction piece, wherein the base comprises an input part and a first pivoting part, the touch display screen comprises a display part and a second pivoting part, the second pivoting part is pivoted with the first pivoting part, the magnetic piece is arranged at the second pivoting part, and the magnetic induction piece is arranged at the first pivoting part. When the distance between the magnetic piece and the magnetic induction piece is smaller than or equal to the induction distance, the magnetic induction piece sends a closing signal so as to close the input function of the input part.

Description

Notebook computer

Technical field

The utility model relates to a kind of notebook computer, particularly relates to the notebook computer that possesses touch-control display screen.

Background technology

More and more flourishing with person's touch technology, the display screen of increasing electronic installation is also along with the above function of touch-control of arranging in pairs or groups.Yet; when user operates the touch control screen of notebook computer at present; often can, because false touch keyboard or Trackpad cause user cannot control accurately the object on touch control screen, reduce on the contrary the convenience of the notebook computer operation of tool touch-control display screen.

Utility model content

The purpose of this utility model is to provide a kind of notebook computer, to solve the problem of prior art.

For reaching above-mentioned purpose, the utility model proposes a kind of notebook computer, comprise base, touch-control display screen, at least one magnetic part and magnetic induction part.Base comprises input part and the first articulated section, and the first articulated section is positioned at a side of input part.Touch-control display screen comprises display part and the second articulated section, and the second articulated section is positioned at a side and pivot joint first articulated section of display part.At least one magnetic part is arranged at the second articulated section.Magnetic induction part is arranged at the first articulated section, and the distance between magnetic part and magnetic induction part is less than or equal to distance of reaction, and magnetic induction part sends shutdown signal, to close the input function of input part.

This touch-control display screen is relatively opened entire angle between 0 degree and a predetermined angular between this base, this threshold angle is less than this predetermined angular, and when the angle between relative this base of this touch-control display screen is more than or equal to a threshold angle, the distance between this magnetic part and this magnetic induction part is less than or equal to this distance of reaction.

When this touch-control display screen is relatively opened this magnetic part between this threshold angle and this predetermined angular time of entire angle and this magnetic induction part toward each other between this base.

This notebook computer comprises at least two these magnetic parts, one of them this magnetic part when the angle between relative this base of this touch-control display screen equals this threshold angle and the distance between this magnetic induction part are less than or equal to this distance of reaction, and this magnetic part of another one when the angle between relative this base of this touch-control display screen equals this predetermined angular and the distance between this magnetic induction part are less than or equal to this distance of reaction.

This magnetic part is arc.

When the angle between relative this base of this touch-control display screen equals this threshold angle, distance between one end of this magnetic part and this magnetic induction part equals this distance of reaction, and the relative other end of this magnetic part when the angle between relative this base of this touch-control display screen equals this predetermined angular and the distance between this magnetic induction part equal this distance of reaction.

This threshold angle is 185 degree, and this predetermined angular is 300 degree.

This notebook computer also comprises a pivot, this first articulated section has one first pivot joint face and protrudes from this input part, this second articulated section has one second pivot joint face and protrudes from this display part, this first pivot joint face faces one another with this second pivot joint face, and this first pivot joint face of this pivot pivot joint and this second pivot joint face, this magnetic induction part is arranged at this first pivot joint face back to the inner side of this second pivot joint face, and this magnetic part is arranged at this second pivot joint face back to the inner side of this first pivot joint face.

This notebook computer also comprises a circuit board, have a surface in the face of this magnetic part, and this magnetic induction part is arranged at this surface.

This magnetic induction part is hall sensor.

The utility model has the advantage of, can magnetic part and magnetic induction part be set in the pivot joint side of bottom and the mutual pivot joint of touch-control display screen, for when touch-control display screen turns to a threshold angle, make the distance between magnetic part and magnetic induction part be less than or equal to distance of reaction, and send shutdown signal to close the input function of input part.Thus, when touch-control display screen rotates over threshold angle, user can rely on the touch controllable function of touch-control display screen completely, and needn't worry that the input part of base can affect the use of touch controllable function, promotes the convenience of notebook computer operation and reaches the effect of power saving.

Accompanying drawing explanation

For allowing the utility model and advantage thereof become apparent, appended the description of the drawings is with reference to as follows:

Fig. 1 is the stereographic map that illustrates the notebook computer of the utility model one embodiment;

Fig. 2 is the fragmentary, perspective view that illustrates the notebook computer of Fig. 1;

Fig. 3 to Fig. 6 is a plurality of different expanded angles of touch-control display screen that illustrate Fig. 1;

Fig. 7 is the fragmentary, perspective view that illustrates the notebook computer of another embodiment of the utility model.

Symbol description

10,20: notebook computer

100: base

101: input part

102: the first articulated sections

103: the first pivot joint faces

110: touch-control display screen

111: display part

112: the second articulated sections

113: the second pivot joint faces

120,121,122: magnetic part

130: magnetic induction part

140: pivot

150: circuit board

151: surface

D: distance of reaction

A: predetermined angular

T: threshold angle

Embodiment

Below will disclose a plurality of embodiment of the present utility model with accompanying drawing, as clearly stated, the details that many realities are stated will be explained in the following description.Yet, should be appreciated that, the details in these practices does not apply to limit the utility model.That is to say, in part embodiment of the present utility model, the details in these practices is non-essential.In addition,, for the purpose of simplifying accompanying drawing, some existing habitual structures and element illustrate it by the mode simply to illustrate in the accompanying drawings.

Please also refer to Fig. 1 and Fig. 2, Fig. 1 is the stereographic map that illustrates the notebook computer of the utility model one embodiment, and Fig. 2 is the fragmentary, perspective view that illustrates the notebook computer of Fig. 1.As shown in the figure, notebook computer 10 comprises base 100, touch-control display screen 110, at least one magnetic part 120 and magnetic induction part 130.

Base 100 comprises input part 101 and the first articulated section 102, the input part 101 of the present embodiment can have keyboard or Trackpad etc., user can be operated by 101 pairs of notebook computers 10 of input part, such as the object to shown on touch-control display screen 110 move, the action such as convergent-divergent or editor.In addition, base 100 inside can also comprise the electronic components such as processor, battery or hard disk, in order to the instruction for user's input, respond and export and be shown on touch-control display screen 110.

Touch-control display screen 110 is articulated on base 100, make touch-control display screen 110 relatively base 100 open the action of entire (closing).More specifically, touch-control display screen 110 comprises a side and pivot joint the first articulated section 102 that display part 111 and 112, the second articulated sections 112, the second articulated section are positioned at display part 111.In the present embodiment, the first articulated section 102 has the first pivot joint face 103 (being illustrated in Fig. 2), and the first pivot joint face 103 protrudes from input part 101.The second articulated section 112 has the second pivot joint face 113, and the second pivot joint face 113 protrudes from display part 111.The first pivot joint face 103 and the second pivot joint face 113 face one another, and notebook computer 10 can also comprise pivot 140 and be articulated between the first pivot joint face 103 and the second pivot joint face 113.Thus, by the rotation of pivot 140, the second pivot joint face 113 can rotate relative to the first pivot joint face 103, make touch-control display screen 110 relatively base 100 from the make-position of 0 degree, turn between a predetermined angular.

More specifically, please refer to the touch-control display screen 110 of a plurality of different expanded angles that Fig. 3 to Fig. 6 illustrates.In Fig. 3, the entire angle of opening of touch-control display screen 110 relative bases 100 is 0 degree, that is touch-control display screen 110 belongs to closed state.Then,, in Fig. 4, the relative base 100 of touch-control display screen 110 is approximately expanded to the position of 90 degree.Now, user is mainly by shown object on the input part 101 operation touch-control display screens 110 of base 100.

Then, please refer to Fig. 5, the relative base 100 of touch-control display screen 110 is approximately expanded to the position of 185 degree.Now, the input function of the input part 101 of base 100 will be closed, and make user can pass through the shown object of touch controllable function operation touch-control display screen 110 of touch-control display screen 110 completely.

Then, please refer to Fig. 6, the relative base 100 of touch-control display screen 110 is approximately expanded to the position of 300 degree.Now, the input part 101 of base 100 is back to touch-control display screen 110.User can be completely by the shown object of the touch controllable function operation touch-control display screen 110 of touch-control display screen 110, and because the input part 101 of base 100 has just been closed input function when touch-control display screen 110 rotations of Fig. 5 are spent to 185, so when product practical application, the input part 101 of base 100 can directly be carried on other objects, user can directly be operated being flipped to the touch-control display screen 110 of 300 degree, and needn't worry that input part 101 can be affected by object contact that it carried or user's false touch the precision of touch-control display screen 110 operations.

From Fig. 3 to Fig. 6, the entire angle of opening between the relative base 100 of touch-control display screen 110 can be between 0 degree and maximum between a predetermined angular A, and as long as when the angle between the relative base 100 of touch-control display screen 110 is more than or equal to a threshold angle T, the input function of the input part 101 of base 100 can be closed, make user to rely on the touch controllable function of touch-control display screen 110 completely and avoid user's false touch, and reaching the effect of power saving.This predetermined angular A can be roughly illustrated 300 degree of Fig. 6, and threshold angle T can be roughly illustrated 185 degree of Fig. 5, but not as limit.Then, below by detailed, introduce in above-described embodiment the angle induction structure of notebook computer 10.

Please refer to Fig. 2, in the second articulated section 112, be provided with magnetic part 120.Meanwhile, in the first articulated section 102, be provided with magnetic induction part 130.Magnetic part 120 can be alnico magnets, but not as limit.Magnetic induction part 130 can be hall sensor, but not as limit.

In the present embodiment, magnetic induction part 130 is arranged at the first pivot joint face 103 back to the inner side of the second pivot joint face 113.Further, in the first articulated section 102, can there is accommodation space to hold magnetic induction part 130, and the inner side of the first pivot joint face 103 refers to the accommodation space that is positioned at the first articulated section 102.Similarly, magnetic part 120 is arranged at the second pivot joint face 113 back to the inner side of the first pivot joint face 103.Further it, can have accommodation space in the second articulated section 112 and refer to hold the inner side of magnetic part 120, the second pivot joint faces 113 accommodation space that is positioned at the second articulated section 112.

In part embodiment, notebook computer 10 can also comprise circuit board 150, has the surface 151 in the face of magnetic part 120, and magnetic induction part 130 is arranged on surface 151.On circuit board 150, can there is slot or metallic contact, in order to be electrically connected to magnetic induction part 130.

Please also refer to Fig. 2 to Fig. 6, in the present embodiment, magnetic part 120 can be covered on the inside surface of the second articulated section 112, but not as limit.In other embodiment of the present utility model, magnetic part 120 can be arranged on pivot 140.Thus, because the magnetic part of the present embodiment 120 is connected with the inside surface of the second articulated section 112, so magnetic part 120 can rotate together along with the second articulated section 112, make the distance between magnetic part 120 and magnetic induction part 130 have far and near variation.

In the present embodiment, because the distance between magnetic part 120 and magnetic induction part 130 has far and near variation, when the distance between magnetic part 120 and magnetic induction part 130 is less than or equal to a distance of reaction D, magnetic induction part 130 sends out a shutdown signal, and the input function of input part 101 is closed.Particularly, in base 100, can have the processing unit of processing this shutdown signal, this processing unit can be closed keyboard on input part 101 or the input function of Trackpad according to this shutdown signal.

It should be noted that, " distance of reaction D " herein refers to the distance that magnetic field intensity that 130 pairs of magnetic parts 120 of magnetic induction part produce responds.Please refer to the arrow in Fig. 2, in the present embodiment, " distance of reaction D " is roughly magnetic part 120 rotation to the distance of being separated by toward each other time with magnetic induction part 130.In detail, take Fig. 3 and Fig. 4 as example, when opening entire angle and be less than the threshold angle T shown in Fig. 5 between the relative base 100 of touch-control display screen 110, dislocation each other between magnetic induction part 130 and magnetic part 120.That is magnetic induction part 130 does not have overlapping with magnetic part 120 in the orthogonal projection of the first pivot joint face 103.Now, the distance between magnetic induction part 130 and magnetic part 120 is greater than " distance of reaction D ", so magnetic induction part 130 can not send shutdown signal the input function of input part 101 is closed.In a specific embodiment, " distance of reaction D " Ye Keyou manufacturer or user's definition, when the magnetic field intensity producing when 130 pairs of magnetic parts 120 of magnetic induction part is greater than a preset value, the distance now defining between magnetic induction part 130 and magnetic part 120 is " distance of reaction D ".

Then, take Fig. 5 and Fig. 6 as example, when opening entire angle between the threshold angle T of Fig. 5 and the predetermined angular A of Fig. 6 time between the relative base 100 of touch-control display screen 110, between magnetic induction part 130 and magnetic part 120 toward each other.That is magnetic induction part 130 is overlapping at least partly in the orthogonal projection of the first pivot joint face 103 with magnetic part 120.Now, the distance between magnetic induction part 130 and magnetic part 120 is equal to or less than " distance of reaction D ", so magnetic induction part 130 can sense the magnetic field intensity of magnetic part 120 and send shutdown signal the input function of input part 101 is closed.In a specific embodiment, " distance of reaction D " is different and different for selected magnetic induction part 130 and magnetic part 120, for example, in the present embodiment, if select the larger magnetic part 120 of magnetic, " distance of reaction D " can be longer, react in embodiment, although magnetic induction part 130 and magnetic part 120 do not have overlappingly in the orthogonal projection of the first pivot joint face 103, but still be less than " distance of reaction D " and send shutdown signal.Preferably, can select one group of magnetic induction part 130 and magnetic part 120 to make its orthogonal projection in the first pivot joint face 103 at least part of when overlapping, its distance to each other begins to be less than or equal to " distance of reaction D ", and then sends shutdown signal.

In the present embodiment, magnetic part 120 can be arc, and when touch-control display screen 110 relative base 100 pivotable, magnetic part 120 also be take pivot 140 as axle center rotation.To rotate the visual angle to Fig. 6 from Fig. 3, magnetic part 120 is to rotate around pivot 140 clockwise, and when the angle between the relative base 100 of touch-control display screen 110 equals the threshold angle T of Fig. 5, distance between one end of magnetic part 120 and magnetic induction part 130 equals distance of reaction D, and when the angle between the relative base 100 of touch-control display screen 110 equals the predetermined angular A of Fig. 6, the relative other end of magnetic part 120 and the distance between magnetic induction part 130 equal distance of reaction D.

It is worth mentioning that, the present embodiment can pass through the arc length of the magnetic part 120 of arc, adjusts the size of threshold angle T.For example, in Fig. 5, when threshold angle T is roughly 185, one end of magnetic part 120 starts to face mutually with one end of magnetic induction part 130.Hence one can see that, if adjust the arc length size of magnetic part 120, can change the size of threshold angle T.For example, in part embodiment, if the arc length of magnetic part 120 is shorter than the long length of the fox of the embodiment of Fig. 5, threshold angle T will be greater than 185 degree.Otherwise if the arc length of magnetic part 120 is also longer than the arc length length of the embodiment of Fig. 5, threshold angle T will be less than 185 degree.

In a specific embodiment, magnetic part 120 can exchange mutually with the setting position of magnetic induction part 130; Or fixed magnetic part 120 and magnetic induction part 130 is together rotated with touch-control display screen 110.

Then, please refer to the fragmentary, perspective view of the notebook computer of another embodiment shown in Fig. 7.Different being of embodiment of the notebook computer 20 of the present embodiment and Fig. 2, the notebook computer 20 of the present embodiment comprises two magnetic parts 121,122.The position at these two magnetic part 121,122 places is equivalent to the position at two ends of arc magnetic part 120 of the embodiment of Fig. 2.When the angle between the relative base 100 of touch-control display screen 110 is substantially equal to the threshold angle T as Fig. 5, the distance between magnetic part 121 and magnetic induction part 130 is substantially equal to distance of reaction D.Similarly, when the angle between the relative base 100 of touch-control display screen 110 is substantially equal to the predetermined angular A of Fig. 6, the distance between another magnetic part 122 and magnetic induction part 130 is substantially equal to distance of reaction D.

Please refer to Fig. 7, in part embodiment, because magnetic part 121,122 not the second articulated section 112 interior continuitys distribute, so when touch-control display screen 110 turns to threshold angle T and predetermined angular A, distance between magnetic part 121,122 and magnetic induction part 130 can be less than distance of reaction D, while making touch-control display screen 110 rotate between threshold angle T and predetermined angular A, magnetic induction part 130 also can sense the magnetic field of magnetic part 120.

In sum, in above-described embodiment disclosed in the utility model, in bottom and a side of the mutual pivot joint of touch-control display screen magnetic part and magnetic induction part are set respectively, and magnetic part can together rotate along with touch-control display screen, and then make can produce change of distance between magnetic part and magnetic induction part.When touch-control display screen rotates to a threshold angle, the distance of magnetic part and magnetic induction part be less than or equal to magnetic induction part can sensing distance of reaction, just produce shutdown signal and close the input function of the input part of base, so that user can rely on the touch controllable function of touch-control display screen completely, avoid the function of false touch input part, the effect of power saving is provided, and control accurately the object on touch control screen, and needn't worry that the input part of base can affect the use of touch controllable function, promote the convenience of notebook computer operation.

Claims (10)

1. a notebook computer, is characterized in that, this notebook computer comprises:

Base, comprises input part and the first articulated section, and this first articulated section is positioned at a side of this input part;

Touch-control display screen, comprises display part and the second articulated section, and this second articulated section is positioned at a side and this first articulated section of pivot joint of this display part;

At least one magnetic part, is arranged at this second articulated section; And

Magnetic induction part, is arranged at this first articulated section, and the distance between this magnetic part and this magnetic induction part is less than or equal to a distance of reaction, and this magnetic induction part sends a shutdown signal to close the input function of this input part.

2. notebook computer as claimed in claim 1, it is characterized in that, this touch-control display screen is relatively opened entire angle between 0 degree and a predetermined angular between this base, one threshold angle is less than this predetermined angular, and is less than or equal to this distance of reaction when this magnetic part when relatively the angle between this base is more than or equal to this threshold angle of this touch-control display screen and the distance between this magnetic induction part.

3. notebook computer as claimed in claim 2, is characterized in that, at this touch-control display screen, relatively between this base, opens this magnetic part between this threshold angle and this predetermined angular time of entire angle and this magnetic induction part toward each other.

4. notebook computer as claimed in claim 2, it is characterized in that, this notebook computer comprises at least two these magnetic parts, one of them this magnetic part when the angle between relative this base of this touch-control display screen equals this threshold angle and the distance between this magnetic induction part are less than or equal to this distance of reaction, and this magnetic part of another one when the angle between relative this base of this touch-control display screen equals this predetermined angular and the distance between this magnetic induction part are less than or equal to this distance of reaction.

5. notebook computer as claimed in claim 2, is characterized in that, this magnetic part is arc.

6. notebook computer as claimed in claim 5, it is characterized in that, one end of this magnetic part when the angle between relative this base of this touch-control display screen equals this threshold angle and the distance between this magnetic induction part equal this distance of reaction, and the relative other end of this magnetic part when angle between relative this base of this touch-control display screen equals this predetermined angular and the distance between this magnetic induction part equal this distance of reaction.

7. notebook computer as claimed in claim 2, is characterized in that, this threshold angle is 185 degree, and this predetermined angular is 300 degree.

8. notebook computer as claimed in claim 1, it is characterized in that, this notebook computer also comprises a pivot, this first articulated section has one first pivot joint face and protrudes from this input part, this second articulated section has one second pivot joint face and protrudes from this display part, this first pivot joint face faces one another with this second pivot joint face, and this first pivot joint face of this pivot pivot joint and this second pivot joint face, this magnetic induction part is arranged at this first pivot joint face back to the inner side of this second pivot joint face, and this magnetic part is arranged at this second pivot joint face back to the inner side of this first pivot joint face.

9. notebook computer as claimed in claim 1, is characterized in that, this notebook computer also comprises a circuit board, have a surface in the face of this magnetic part, and this magnetic induction part is arranged at this surface.

10. notebook computer as claimed in claim 1, is characterized in that, this magnetic induction part is hall sensor.