CN102654162A - Hinge device and electronic device comprising same - Google Patents

Abstract

The invention provides a hinge device and an electronic device comprising the same. The electronic device comprises a first body, a second body and a hinge device, wherein the hinge device is connected with the first body and the second body and comprises a first hinge, a second hinge and a connecting body, wherein the first hinge comprises a first hinge shaft sleeve provided with a first opening part and a first hinge axle center arranged in the first hinge shaft sleeve and connected to the first body; the second hinge comprises a second hinge shaft sleeve provided with a second opening part and a second hinge axle center arranged in the second hinge shaft sleeve and connected to the second body; and the connecting body is used for connecting the first hinge shaft sleeve with the second hinge shaft sleeve, and the first opening part of the first hinge shaft sleeve and the second opening part of the second hinge shaft sleeve are respectively arranged on two opposite sides of the connecting body. The hinge device can provide different torque forces in a 360-DEG rotating process.

Description

Hinge means and the electronic equipment that comprises it

Technical field

The electronic equipment that the present invention relates to a kind of hinge means and comprise this hinge means more more specifically, relates to and a kind of the hinge means of 360 degree rotations and the electronic equipment that comprises this hinge means can be provided.

Background technique

The portable consumer electronic product, for example notebook, mobile phone, vidicon camera etc. are the closely bound up product categories of daily life.The Consumer also very pays close attention to it and moves and the convenience that uses and the aesthetic feeling of outward appearance when paying attention to the performance of this electronic product.

With the notebook is example, and this electronic product can comprise first body with keyboard for example usually, have second body of display screen for example and rotatably connect first body and the hinge means of second body.Usually, hinge means can provide the rotation that relative to each other is no more than 180 degree between first body and second body.

In addition, along with the development of miniaturization technology and to moving the needs of convenience, tablet computer more and more receives liking of Consumer.

Summary of the invention

Yet for conventional electrical equipment, its hinge axis is difficult to provide the rotation of 360 degree.Therefore, for example conventional notebook and mobile phone can only be realized clamshell style (clamshell) use pattern.

One object of the present invention is to provide a kind of hinge means that is used for electronic equipment, and it can realize the rotation of 360 degree.Therefore, for example notebook and mobile phone etc. can also be realized the use pattern of flat computer formula to electronic equipment.

Another object of the present invention is to provide a kind of hinge means, this hinge means can provide different torsion in the rotary course of 360 degree.

Another purpose of the present invention is to provide a kind of electronic equipment, and it comprises one of above-mentioned hinge means.

According to an aspect of the present invention, a kind of electronic equipment can comprise: first body; Second body; And hinge means, connecting this first body and this second body, this hinge means can comprise: first hinge comprises: first hinge shaft sleeve has first open part; And the first hinge axle center, be installed in this first hinge shaft sleeve and be connected to this first body; Second hinge comprises: second hinge shaft sleeve has second open part; And the second hinge axle center, be installed in this second hinge shaft sleeve and be connected to this second body; And connecting body, connect this first hinge shaft sleeve and this second hinge shaft sleeve, wherein second open part of first open part of this first hinge shaft sleeve and this second hinge shaft sleeve can lay respectively at the two opposite sides of this connecting body.

In the present invention's one exemplary embodiment, this first hinge shaft sleeve, this connecting body and this second hinge shaft sleeve can form the serpentine structure.

In the present invention's one exemplary embodiment; When this first body and this second body are relative to each other closed; This first body can be positioned at first open part, one side of this hinge means, and this second body can be positioned at a side opposite with this second open part of this hinge means.

In the present invention's one exemplary embodiment; When this first body and this second body are relative to each other closed; This first body can be positioned at a side opposite with this first open part of this hinge means, and this second body can be positioned at second open part, one side of this hinge means.

In the present invention's one exemplary embodiment, this first physical efficiency revolved three-sixth turn through this hinge means with respect to this second body.From zero to the rotary course of first angle, this first hinge axle center can be rotated with respect to this first hinge shaft sleeve, and this second hinge axle center can be static with respect to this second hinge shaft sleeve.From the rotary course of this first angle to 360 degree, this first hinge axle center can be static with respect to this first hinge shaft sleeve, and this second hinge axle center can be rotated with respect to this second hinge shaft sleeve.

In the present invention's one exemplary embodiment; When with respect to this this first body of second body closure; Spending to the rotary course of this first angle from 360; This first hinge axle center can be static with respect to this first hinge shaft sleeve, and this second hinge axle center can be rotated with respect to this second hinge shaft sleeve; From the rotary course of this first angle to zero degree, this first hinge axle center can be rotated with respect to this first hinge shaft sleeve, and this second hinge axle center can be static with respect to this second hinge shaft sleeve.

In the present invention's one exemplary embodiment, this first physical efficiency revolved three-sixth turn through this hinge means with respect to this second body.From zero to the rotary course of first angle, this first hinge axle center can be static with respect to this first hinge shaft sleeve, and this second hinge axle center can be rotated with respect to this second hinge shaft sleeve.From the rotary course of first angle to 360 degree, this first hinge axle center can be rotated with respect to this first hinge shaft sleeve, and this second hinge axle center can be static with respect to this first hinge shaft sleeve.

In the present invention's one exemplary embodiment; When with respect to this this first body of second body closure; Spending to the rotary course of this first angle from 360; This first hinge axle center can be rotated with respect to this first hinge shaft sleeve, and this second hinge axle center can be static with respect to this second hinge shaft sleeve.From the rotary course of this first angle to zero degree, this first hinge axle center can be static with respect to this first hinge shaft sleeve, and this second hinge axle center can be rotated with respect to this second hinge shaft sleeve.

In the present invention's one exemplary embodiment, this first angle can be greater than 90 degree and less than 330 degree.

In the present invention's one exemplary embodiment, this first hinge shaft sleeve can be formed by the material with predetermined elasticity with this second hinge shaft sleeve.

In the present invention's one exemplary embodiment, this electronic equipment can be a notebook, and this first body can comprise display unit, and this second body can comprise input block.

According to a further aspect in the invention, a kind of electronic equipment can comprise: first body; Second body; And hinge means, connecting this first body and this second body, this hinge means comprises: first hinge comprises: first hinge shaft sleeve; And the first hinge axle center, be installed in this first hinge shaft sleeve and be connected to this first body; Second hinge comprises: second hinge shaft sleeve; And the second hinge axle center, be installed in this second hinge shaft sleeve and be connected to this second body; And connecting body; Connect this first hinge shaft sleeve and this second hinge shaft sleeve; Wherein when this first body with respect to this second body when first direction rotates, compare with state of rest, it is big that the gap between this first hinge axle center and this first hinge shaft sleeve becomes; And the gap smaller between this second hinge axle center and this second hinge shaft sleeve, thereby the torsion of this first hinge is less than the torsion of this second hinge.

In the present invention's one exemplary embodiment; When this first body second direction opposite with said first direction with respect to this second body edge rotated; Compare with state of rest; Gap smaller between this first hinge axle center and this first hinge shaft sleeve, and the change of the gap between this second hinge axle center and this second hinge shaft sleeve is big, thus the torsion of this first hinge is greater than the torsion of this second hinge.

In the present invention's one exemplary embodiment; This first hinge shaft sleeve can have first open part; This second hinge shaft sleeve can have second open part, and second open part of first open part of this first hinge shaft sleeve and this second hinge shaft sleeve can lay respectively at the two opposite sides of this connecting body.

In the present invention's one exemplary embodiment, this first hinge shaft sleeve, this second hinge shaft sleeve and this connecting body form the serpentine shape together.

According to another aspect of the invention, a kind ofly be used to connect first body of electronic equipment and the hinge means of second body can comprise: first hinge comprises: first hinge shaft sleeve has first open part; And the first hinge axle center, be installed in this first hinge shaft sleeve and be connected to this first body; Second hinge comprises: second hinge shaft sleeve has second open part; And the second hinge axle center, be installed in this second hinge shaft sleeve and be connected to this second body; And connecting body, connect this first hinge shaft sleeve and this second hinge shaft sleeve, wherein second open part of first open part of this first hinge shaft sleeve and this second hinge shaft sleeve lays respectively at the two opposite sides of this connecting body.

In the present invention's one exemplary embodiment, this first hinge shaft sleeve, this connecting body and this second hinge shaft sleeve can form the serpentine structure.

In the present invention's one exemplary embodiment, this first hinge shaft sleeve can be formed by the material with predetermined elasticity with this second hinge shaft sleeve.

Description of drawings

Through with reference under the advantages in the face of the description of exemplary embodiment, of the present inventionly abovely will become more obvious with other feature and advantage, in the accompanying drawing:

Fig. 1 schematically shows the electronic equipment that comprises hinge means of one exemplary embodiment according to the present invention;

Fig. 2 A and 2B illustrate the operation of the hinge means of one exemplary embodiment according to the present invention;

Fig. 3 A-3L illustrates the open and close operating process of the electronic equipment that comprises hinge means of one exemplary embodiment according to the present invention;

Fig. 4 schematically shows the electronic equipment that comprises hinge means of the another exemplary embodiment according to the present invention.

Embodiment

To describe exemplary embodiment of the present invention more fully with reference to accompanying drawing now, accompanying drawing is not drawn in proportion.Though be that example is described exemplary embodiment in detail below with the notebook, it should be understood that the present invention also can be implemented in other electronic equipments such as mobile phone etc., and is not limited to notebook described herein.

Describe various elements, parts, zone or part though should be understood that first, second grade that can use a technical term here, these elements, parts, zone or part should not receive these term restrictions.These terms only are used for an element, parts, zone or part and another element, parts, zone or part are differentiated.Therefore, first element of discussing below, parts, zone or part also can be described as second element, parts, zone or part and do not depart from thought of the present invention and scope.

Possibly describe in detail device about the diagram specific orientation of device below should also be understood that, yet the associated description language is interpreted as containing the situation of device in other orientations.For example, if device is squeezed, the element that is described as under another element will be oriented on another element.Again for example, the element that illustrates or be described as " S shape " then can have the shape of " anti-S shape " when on the direction outside perpendicular to paper, observing.

Fig. 1 schematically shows the electronic equipment 100 of one example embodiment according to the present invention, and Fig. 2 A and 2B illustrate the operation of the hinge means 30 that electronic equipment 100 comprises.As shown in Figure 1, electronic equipment 100 can comprise first body 10, second body 20 and the hinge means 30 that rotatably connects first body 10 and second body 20.

Electronic equipment 100 can be for example notebook or mobile phone etc., but is not limited thereto.For the convenience of describing, be that example is described electronic equipment 100 below with the notebook.But, it will be understood by those skilled in the art that the present invention can also be applied to except notebook and other equipment and device the mobile phone.

First body 10 can comprise input device for example keyboard, touch pad etc.Alternatively, first body 10 can also comprise memory device for example storage card, hard disk drive, CD drive etc., and data processing equipment is central processing unit (CPU), GPU etc. for example, and heat dissipation element for example radiating fin, fan etc.First body 10 can comprise that also various interface is to be connected to external equipment such as printer, projector etc.Alternatively, first body 10 also can comprise for example audio amplifier etc. of output unit.

Second body 20 can be provided with to such an extent that be connected to first body 10 in the face of first body 10 and through hinge means 30, thereby second body 20 can revolve three-sixth turn with respect to first body 10 through hinge means 30.Will be discussed in more detail below hinge means 30.

Second body 20 can comprise for example display screen of output unit.Display screen can be a liquid crystal display panel for example commonly used, but is not limited thereto, and also can use the panel display screen of other types.Thereby display screen can through for example flexible cable be connected to first body 10 with the data display of first body 10 output on display screen.Display screen can also for example be connected to first body 10 between first body 10 and second body 20, to transmit data through bluetooth through wireless mode.

With reference to Fig. 1, Fig. 2 A and Fig. 2 B, hinge means 30 can comprise first hinge, second hinge and connect first hinge and the connecting body 32 of second hinge.Particularly, as shown in the figure, first hinge can comprise first hinge shaft sleeve 31 and be rotatably mounted in the first hinge axle center 34 in first hinge shaft sleeve 31.The first hinge axle center 34 can be connected to first body 10.Second hinge can comprise second hinge shaft sleeve 33 and be rotatably mounted in the second hinge axle center 35 in second hinge shaft sleeve 33.The second hinge axle center 35 can be connected to second body 20.Connecting body 32 is connected to first hinge shaft sleeve 31 of first hinge second hinge shaft sleeve 33 of second hinge.

In the example embodiment shown in Fig. 1, Fig. 2 A and Fig. 2 B; Thereby first hinge shaft sleeve 31 can have first open part forms nonocclusive annular; Thereby second hinge shaft sleeve 33 can have second open part also forms nonocclusive annular, and second open part of first open part of first hinge shaft sleeve 31 and second hinge shaft sleeve 33 lays respectively at the two opposite sides of connecting body 32.

In a preferred embodiment, first hinge shaft sleeve 31, connecting body 32 and second hinge shaft sleeve 33 can form, and can form for example serpentine shape.First hinge shaft sleeve 31, connecting body 32 and second hinge shaft sleeve 33 can be processed by the material with predetermined elasticity, for example, and such as stainless metal, or nonmetal such as rigid plastics.

Fig. 2 A and Fig. 2 B illustrate the operation of hinge means 30.Particularly, the operation of hinge means 30 when Fig. 2 A illustrates electronic equipment shown in Figure 1 100 and opens, Fig. 2 B illustrates the operation of electronic equipment 100 hinge means 30 when closed.

Shown in Fig. 1 and Fig. 2 A, when opening electronic equipment 100, first body 10 turns clockwise with respect to second body 20, and driving the first hinge axle center 34 has the trend that turns clockwise with respect to first hinge shaft sleeve 31.Shown in Fig. 2 A; When the first hinge axle center 34 turns clockwise with respect to first hinge shaft sleeve 31; Because the frictional force of 34 pairs first hinge shaft sleeves 31 in the first hinge axle center; First open part of the hinge shaft sleeve 31 of winning is opened along the direction shown in the arrow A, and big thereby the gap between first hinge shaft sleeve 31 and the first hinge axle center 34 becomes, the torsion of first hinge diminishes.On the other hand, when opening first body 10, connecting body 32 receives the roughly power of direction shown in arrow B.Because second open part of second hinge is positioned at a side opposite with first open part first hinge connecting body 32; So second open part of second hinge diminishes along the extruding of the direction shown in the arrow B; Thereby the gap smaller between second hinge shaft sleeve 33 and the second hinge axle center 35, the torsion of second hinge become big.Therefore, when opening first body 10, the torsion of first hinge is less than the torsion of second hinge, thus the rotation of first hinge, and second hinge does not rotate.

In addition; Shown in Fig. 1 and Fig. 2 B, when closed electronic equipment 100, first body 10 is rotated counterclockwise with respect to second body 20; Driving the first hinge axle center 34 has the trend that is rotated counterclockwise with respect to first hinge shaft sleeve 31, shown in the dotted arrow in the first hinge axle center 34.When the first hinge axle center 34 turns clockwise with respect to first hinge shaft sleeve 31; Because the frictional force of 34 pairs first hinge shaft sleeves 31 in the first hinge axle center; First open part of the hinge shaft sleeve 31 of winning is dwindled along the direction shown in the arrow C; Thereby the gap smaller between first hinge shaft sleeve 31 and the first hinge axle center 34, the torsion of first hinge become big.On the other hand; When closed first body 10; Connecting body 32 receives the roughly power of direction shown in arrow D; So second open part of second hinge further opens along the direction shown in the arrow B, big thereby the gap between second hinge shaft sleeve 33 and the second hinge axle center 35 becomes, the torsion of second hinge diminishes.Therefore, when closed first body 10, the torsion of first hinge is greater than the torsion of second hinge, so first hinge keeps not rotating and second hinge rotation.

Have the example embodiment that first and second open parts and first and second open parts are positioned at connecting body 32 two opposite sides respectively though described first and second hinge shaft sleeves above, it will be understood by those skilled in the art that to the invention is not restricted to this.Those skilled in the art also can adopt other to design the torsion that provides different to first and second hinges.For example; Can between the hinge axle center of first and second hinges and hinge shaft sleeve, the anisotropy friction plate be provided; Produce less frictional force when this anisotropy friction plate is rotated counterclockwise with respect to axle sleeve in the axle center, and produce bigger frictional force when turning clockwise with respect to axle sleeve in the axle center.Like this; When opening first body 10 with respect to second body 20; The first hinge axle center 31 turns clockwise with respect to first hinge shaft sleeve, and there is the trend that is rotated counterclockwise in the second hinge axle center 35 with respect to second hinge shaft sleeve 33, so the torsion of first hinge is less than the torsion of second hinge.On the contrary; When with respect to closed first body 10 of second body 20; The second hinge axle center 35 turns clockwise with respect to second hinge shaft sleeve, and there is the trend that is rotated counterclockwise in the first hinge axle center 34 with respect to first hinge shaft sleeve 31, so the torsion of second hinge is less than the torsion of first hinge.It will be understood by those skilled in the art that first and second hinges also can adopt other Machine Designs that different torsion is provided in the rotary course of open and close.

To describe the operating process of the open and close of electronic equipment 100 below with reference to Fig. 3 A-3L in detail.Should note; Here the embodiment who has first and second open parts respectively based on first and second hinge shaft sleeves describes the folding operating process of electronic equipment 100; But adopt other structures for other embodiments that different torsion are provided for hinge means; The embodiment of the employing anisotropy friction plate of giving an example for example, the operating process shown in its operating process and Fig. 3 A-3L can be similar basically.Fig. 3 A-3G illustrates first body 10 of electronic equipment 100 and the process that second body 20 is opened, and Fig. 3 G-3L illustrates first body 10 of electronic equipment 100 and the process of second body, 20 closures.In order to illustrate conveniently, omitted first body 10 and second body 20 of electronic equipment 100 among Fig. 3 A-3L, can combine Fig. 1 to understand Fig. 3 A-3L.

With reference to Fig. 1 and Fig. 3 A, first body 10 and second body 20 of electronic equipment 100 are in the first closure state.When the user need use electronic equipment 100, can raise first body 10.At this moment, the torsion of first hinge becomes less than the torsion of second hinge with reference to as described in Fig. 2 A as top, and therefore first body 10 drives the first hinge axle center 34 and turns clockwise, and second hinge keeps not rotating, shown in Fig. 3 B.

Next, rotation can be continued with respect to first hinge shaft sleeve 31 in the first hinge axle center 34, shown in Fig. 3 C, rotates to first angle, shown in Fig. 3 D always.For example, the first hinge axle center 34 can be with respect to first hinge shaft sleeve, 31 Rotate 180s °.At the first angle place, for some reason, for example because the back of the body edge of first body 10 arrives hinge means 30, so first hinge can not continue rotation again.

Though this sentences 180 ° and for example first angle has been described, it will be understood by those skilled in the art that to the invention is not restricted to this.According to the design of the edge and the hinge means 30 of first body 10 and second body 20, first angle can be in for example 90 ° to 330 ° scope.

At the first angle place, first hinge can not continue rotation again, and the torsion of second hinge so the user can increase the power of rotating first body 10 a little, thereby makes second hinge begin rotation greater than first hinge as previously mentioned.Shown in Fig. 3 E, the power that the user applies makes second hinge shaft sleeve 33 of second hinge turn clockwise around the second hinge axle center 35 that is connected to second body 20.In other words, the second hinge axle center 35 of second hinge is rotated counterclockwise with respect to second hinge shaft sleeve 33.Shown in Fig. 3 F, second hinge shaft sleeve 33 of second hinge is 35 half-twists around the second hinge axle center.Shown in Fig. 3 G, second hinge shaft sleeve 33 of second hinge continues rotation around the second hinge axle center 35 and reaches 180 °.Thereby first body 10 is accomplished 360 ° rotation with respect to second body 20.At this moment, notebook 100 can be realized the use pattern of similar flat computer.

As previously mentioned, though top exemplary illustration first angle of first hinge rotation be 180 °, the residue angle in 360 ° of second hinge rotations the invention is not restricted to this then.First angle can be in for example 90 ° to 330 ° scope, the residue angle during second hinge rotates 360 ° then.

Next the closing course of notebook 100 is described.When closed, the user applies external force makes first body 10 be rotated counterclockwise with respect to second body 20.At this moment, as top with reference to Fig. 2 B described, there is the trend that is rotated counterclockwise in the first hinge axle center 34 with respect to first hinge shaft sleeve 31, and first open part of the hinge shaft sleeve 31 of winning is diminished, thus the torsion of first hinge increases; On the contrary, there is the trend that turns clockwise in the second hinge axle center 35 with respect to second hinge shaft sleeve 33, make second open part of second hinge shaft sleeve 33 become big, thereby the torsion of second hinge reduces.In this case, the torsion of first hinge is greater than the torsion of second hinge, thus the rotation of second hinge, and first hinge does not rotate, that kind shown in Fig. 3 H.

Continuation is with reference to Fig. 3 I, and second hinge can rotate to the position of aforementioned first angle always, and this moment, the state and the state shown in Fig. 3 D of hinge means 30 were basic identical.At the first angle place, because for example hinge means 30 abuts to the upper edge of second body 20, so second hinge can not continue rotation again.At this moment, the user can apply bigger power a little, makes first hinge begin rotation.That is to say, make the first hinge axle center 34 begin to be rotated counterclockwise with respect to first hinge shaft sleeve.

Next, shown in Fig. 3 J, 3K and 3L, for example 180 ° of first hinge rotations, thus first body 10 and second body 20 are returned to initial closed state.

As stated, hinge means 100 can be realized 360 ° rotation.And, because different torsion between first hinge and second hinge in the rotary course, so that first hinge can rotate in different processes respectively with second hinge.Particularly, when opening, because the torsion of first hinge less than second hinge, so first hinge changes earlier, changes behind second hinge; When closed, on the contrary, because the torsion of second hinge less than first hinge, so second hinge changes earlier, changes behind first hinge.It is thus clear that the rotary course during open and close is symmetry basically.

The electronic equipment that Fig. 4 illustrates another example embodiment according to the present invention is notebook 200 for example.Notebook 200 shown in Figure 4 is basic identical with notebook 100 shown in Figure 1, except following aspect.Particularly, when notebook 100 shown in Figure 1 was in the first closure state, first body 10 and second body 20 were in first open part, one side of hinge means, just were positioned at a side opposite with second open part of hinge means.Yet when notebook 200 shown in Figure 4 was in the first closure state, first body 10 and second body 20 were positioned at a side opposite with first open part of hinge means, just were positioned at second open part, one side of hinge means.Like this, different with notebook 100, notebook 200 is when opening operation; Bigger with the torsion of first hinge of first body 10 ' be connected; And less with the torsion of second hinge of second body 20 ' be connected, so second hinge changes earlier, change behind first hinge.When notebook 200 closures, then the torsion of first hinge diminishes, and the torsion of second hinge increases, so first hinge changes earlier, changes behind second hinge.

As stated, through adopting hinge means of the present invention, electronic equipment can be realized 360 ° rotation, and different torsion is provided in rotary course.In addition, the symmetry basically of the rotary course during open and close.

Though be that example has been described some example embodiment of the present invention above with the notebook, it will be understood by those skilled in the art that the present invention also may be used on mobile phone and other electronic equipments.

Although illustrate and described the present invention particularly, it will be understood by those skilled in the art that and to carry out various variations in form and details and do not depart from thought of the present invention and scope with reference to preferred embodiment.Therefore, it only is illustrative rather than restrictive that the disclosed embodiments should be regarded as, and scope of the present invention is only by accompanying claims and equivalent definition thereof.

Claims (18)

1. electronic equipment comprises:

First body;

Second body; And

Hinge means connects this first body and this second body, and this hinge means comprises:

First hinge comprises:

First hinge shaft sleeve has first open part; And

The first hinge axle center is installed in this first hinge shaft sleeve and is connected to this first body;

Second hinge comprises:

Second hinge shaft sleeve has second open part; And

The second hinge axle center is installed in this second hinge shaft sleeve and is connected to this second body; And

Connecting body connects this first hinge shaft sleeve and this second hinge shaft sleeve,

Wherein second open part of first open part of this first hinge shaft sleeve and this second hinge shaft sleeve lays respectively at the two opposite sides of this connecting body.

2. electronic equipment as claimed in claim 1, wherein this first hinge shaft sleeve, this connecting body and this second hinge shaft sleeve form the serpentine structure.

3. electronic equipment as claimed in claim 1; Wherein when this first body and this second body are relative to each other closed; This first body is positioned at first open part, one side of this hinge means, and this second body is positioned at a side opposite with this second open part of this hinge means.

4. electronic equipment as claimed in claim 1; Wherein when this first body and this second body are relative to each other closed; This first body is positioned at a side opposite with this first open part of this hinge means, and this second body is positioned at second open part, one side of this hinge means.

5. electronic equipment as claimed in claim 3, wherein this first physical efficiency revolved three-sixth turn through this hinge means with respect to this second body,

Wherein from zero to the rotary course of first angle, rotate with respect to this first hinge shaft sleeve in this first hinge axle center, and this second hinge axle center is static with respect to this second hinge shaft sleeve, and

Wherein from the rotary course of this first angle to 360 degree, this first hinge axle center is static with respect to this first hinge shaft sleeve, and rotate with respect to this second hinge shaft sleeve in this second hinge axle center.

6. electronic equipment as claimed in claim 5; Wherein the time with respect to this this first body of second body closure; Spending to the rotary course of this first angle from 360; This first hinge axle center is static with respect to this first hinge shaft sleeve, and rotate with respect to this second hinge shaft sleeve in this second hinge axle center, and

From the rotary course of this first angle to zero degree, rotate with respect to this first hinge shaft sleeve in this first hinge axle center, and this second hinge axle center is static with respect to this second hinge shaft sleeve.

7. electronic equipment as claimed in claim 4, wherein this first physical efficiency revolved three-sixth turn through this hinge means with respect to this second body,

Wherein from zero to the rotary course of first angle, this first hinge axle center is static with respect to this first hinge shaft sleeve, and rotate with respect to this second hinge shaft sleeve in this second hinge axle center, and

Wherein from the rotary course of first angle to 360 degree, rotate with respect to this first hinge shaft sleeve in this first hinge axle center, and this second hinge axle center is static with respect to this first hinge shaft sleeve.

8. electronic equipment as claimed in claim 7; Wherein the time with respect to this this first body of second body closure; Spending to the rotary course of this first angle from 360; Rotate with respect to this first hinge shaft sleeve in this first hinge axle center, and this second hinge axle center is static with respect to this second hinge shaft sleeve, and

From the rotary course of this first angle to zero degree, this first hinge axle center is static with respect to this first hinge shaft sleeve, and rotate with respect to this second hinge shaft sleeve in this second hinge axle center.

9. like each the described electronic equipment among the claim 5-8, wherein this first angle is greater than 90 degree and less than 330 degree.

10. electronic equipment as claimed in claim 1, wherein this first hinge shaft sleeve is formed by the material with predetermined elasticity with this second hinge shaft sleeve.

11. electronic equipment as claimed in claim 1, wherein this electronic equipment is a notebook, and this first body comprises display unit, and this second body comprises input block.

12. an electronic equipment comprises:

First body;

Second body; And

Hinge means connects this first body and this second body, and this hinge means comprises:

First hinge comprises:

First hinge shaft sleeve; And

The first hinge axle center is installed in this first hinge shaft sleeve and is connected to this first body;

Second hinge comprises:

Second hinge shaft sleeve; And

The second hinge axle center is installed in this second hinge shaft sleeve and is connected to this second body; And

Connecting body connects this first hinge shaft sleeve and this second hinge shaft sleeve,

Wherein when this first body with respect to this second body when first direction rotates; It is big that gap between this first hinge axle center and this first hinge shaft sleeve becomes; And the gap smaller between this second hinge axle center and this second hinge shaft sleeve, thereby the torsion of this first hinge is less than the torsion of this second hinge.

13. electronic equipment as claimed in claim 12; Wherein when this first body second direction opposite with said first direction with respect to this second body edge rotated; Gap smaller between this first hinge axle center and this first hinge shaft sleeve; And it is big that the gap between this second hinge axle center and this second hinge shaft sleeve becomes, thereby the torsion of this first hinge is greater than the torsion of this second hinge.

14. electronic equipment as claimed in claim 12; Wherein this first hinge shaft sleeve has first open part; This second hinge shaft sleeve has second open part, and second open part of first open part of this first hinge shaft sleeve and this second hinge shaft sleeve lays respectively at the two opposite sides of this connecting body.

15. electronic equipment as claimed in claim 14, wherein this first hinge shaft sleeve, this second hinge shaft sleeve and this connecting body form the serpentine shape together.

16. a hinge means is used to connect first body and second body of an electronic equipment, comprising:

First hinge comprises:

First hinge shaft sleeve has first open part; And

The first hinge axle center is installed in this first hinge shaft sleeve and is connected to this first body;

Second hinge comprises:

Second hinge shaft sleeve has second open part; And

The second hinge axle center is installed in this second hinge shaft sleeve and is connected to this second body; And

Connecting body connects this first hinge shaft sleeve and this second hinge shaft sleeve,

Wherein second open part of first open part of this first hinge shaft sleeve and this second hinge shaft sleeve lays respectively at the two opposite sides of this connecting body.

17. hinge means as claimed in claim 16, wherein this first hinge shaft sleeve, this connecting body and this second hinge shaft sleeve form the serpentine structure.

18. hinge means as claimed in claim 16, wherein this first hinge shaft sleeve is formed by the material with predetermined elasticity with this second hinge shaft sleeve.

Images