CN100373290C - Electronic device and rotary structure - Google Patents

Abstract

The present invention relates to an electronic device which comprises a host machine, a display, a fixed element, a first rotating element and a second rotating element, wherein the fixed element is fixed on the host machine, and is provided with a first positioning part and a second positioning part; the first positioning part is spaced from the second positioning part at a predetermined angle; the first rotating element is connected to the fixed element in a rotating mode, and is provided with a clamping part; the clamping part moves between the first positioning part and the second positioning part along a circular arc path, so that the first rotating element rotates corresponding to fixed element at the predetermined angle; the second rotating element is fixed on the display and connected to the first rotating element, and rotates corresponding to the first rotating element.

Description

Electronic installation and rotational structure

Technical field

The invention relates to a kind of electronic installation, particularly have 360 electronic installations of spending spinfunctions relevant for a kind of main frame and display.

Background technology

In general, at present has relative function of revolving three-sixth turn between the main frame of some notebook computers and the display, for example Republic of China's patent announcement No. 496538, No. 446135 and United States Patent (USP) the 5th, prior art such as 845, No. 366 all discloses between its main frame and the display can revolve the notebook computer of three-sixth turn relatively.

Above-mentioned prior art is to adopt a rotational structure to be connected in main frame and display haply, so that can relatively rotate between main frame and the display, or a location device is set outside rotational structure again, come rotation and location between secondary master and the display.

And the objective of the invention is to provide a kind of electronic installation, it not only can reach the purpose of main frame and display 360 degree rotations, and have that volume is little, easy operating and location and manage advantages such as line is easy.

Summary of the invention

The present invention adopts as detailed below feature to reach above-mentioned purpose basically.That is to say, the present invention includes a main frame; One display; One retaining element is fixed on this main frame, and has one first location division and one second location division, and wherein, this first location division system is interval in this second location division with a predetermined angular; One first rotating element, be rotationally connected with this retaining element, and have a holding section, wherein, this holding section system is displaced between this first location division and this second location division with a circular arc path, and makes relative this retaining element of this first rotating element rotate this predetermined angular; And one second rotating element, be fixed on this display, and be connected in this first rotating element, and this first rotating element done relatively rotate.

Simultaneously, according to electronic installation of the present invention, it more comprises one first rotating shaft, is to be arranged among this retaining element and this first rotating element, and this first rotating element system does this retaining element by this first rotating shaft and relatively rotates.

Again in the present invention, this retaining element has more one first axis hole, and this first rotating element has more one second axis hole, and this second axis hole system is with respect to this first axis hole, and this first rotating shaft system is arranged among this first axis hole and this second axis hole.

Again in the present invention, this retaining element has more a circular arc camber, this first location division and this second location division system are connected to two opposite ends of this circular arc camber, and this holding section system is displaced between this first location division and this second location division, and is to slide on this circular arc camber.

Again in the present invention, this first location division and this second location division are groove, and this holding section is to fasten post.

Again in the present invention, this retaining element has more one first resilient clamp element and one second resilient clamp element, is to be arranged at respectively among this first location division and this second location division, and is in order to this holding section of clamping.

Again in the present invention, this first resilient clamp element and this second resilient clamp element are C shape clasp or folder spring.

Again in the present invention, this second rotating element has more one second rotating shaft, and this first rotating element has more a Triaxial hole, and this second rotating shaft system is arranged among this Triaxial hole, relatively rotates so that this second rotating element is done this first rotating element.

Again in the present invention, this rotational structure more comprises moment of torsion adjustment element, and this first rotating element has more a slotted eye, this slotted eye system is connected in this Triaxial hole, this moment of torsion is adjusted element system and is arranged on this second rotating shaft of this second rotating element, and is to be positioned among this Triaxial hole and this slotted eye.

Again in the present invention, this moment of torsion adjustment element is a pipe spring.

Again in the present invention, this retaining element has more one first fixed part, is in order to this retaining element is fixed on this main frame.

Again in the present invention, this first fixed part has more at least one first fixed orifice.

Again in the present invention, this second rotating element has more one second fixed part, is in order to this second rotating element is fixed on this display, and this main frame system relatively rotates this make displays by this rotational structure.

Again in the present invention, this second fixed part has more at least one second fixed orifice.

Again in the present invention, more comprising an elasticity rotating element, is to be arranged among this retaining element and this first rotating element, and this first rotating element system does this retaining element by this elasticity rotating element and relatively rotates.

Again in the present invention, this retaining element has more one first axis hole, and this first rotating element has more one second axis hole, and this elasticity rotating element system is arranged among this first axis hole and this second axis hole.

Again in the present invention, this retaining element has more one first connecting hole, system is connected in this first axis hole, and this first rotating element has more one second connecting hole, system is connected in this second axis hole, this elasticity rotating element system is arranged among this first axis hole and this second axis hole, and is to be sticked in this first connecting hole and this second connecting hole.

Again in the present invention, this elasticity rotating element is a spring.

Again in the present invention, this retaining element has more a plane, this first location division and this second location division system are positioned on this plane, and this holding section system is displaced between this first location division and this second location division, and is to slide on this plane with this circular arc path.

Again in the present invention, this first location division and this second location division are hole, and this holding section is to fasten post.

Description of drawings

For above-mentioned purpose, the feature and advantage that make the present invention can become apparent, preferred embodiment cited below particularly also cooperates appended graphic elaborating.

Figure 1A is the three-dimensional combination figure that shows the rotational structure of first embodiment of the present invention;

Figure 1B is the three-dimensional exploded view of demonstration according to Figure 1A;

Fig. 1 C system shows the side view according to Figure 1A;

Fig. 2 be show first embodiment of the present invention rotational structure practice synoptic diagram;

Fig. 3 A is the first user mode synoptic diagram of a notebook computer of display application rotational structure of the present invention;

Fig. 3 B is the second user mode synoptic diagram of a notebook computer of display application rotational structure of the present invention;

Fig. 3 C is the 3rd a user mode synoptic diagram of a notebook computer of display application rotational structure of the present invention;

Fig. 3 D is the 4th a user mode synoptic diagram of a notebook computer of display application rotational structure of the present invention;

Fig. 3 E is the 5th a user mode synoptic diagram of a notebook computer of display application rotational structure of the present invention;

Fig. 3 F is the 6th a user mode synoptic diagram of a notebook computer of display application rotational structure of the present invention;

Fig. 4 A system shows the three-dimensional combination figure of the rotational structure of second embodiment of the present invention;

Fig. 4 B system shows the three-dimensional exploded view according to Fig. 4 A; And

Fig. 5 be show second embodiment of the present invention rotational structure practice synoptic diagram.

Embodiment

Following conjunction with figs. illustrates preferred embodiment of the present invention.

First embodiment

See also Figure 1A, Figure 1B and Fig. 2, the rotational structure 100 of present embodiment can be applied among the notebook computer (electronic installation) 10, relatively rotates and can make a main frame (first electronic installation) 11 and one display (second electronic device) 12 of notebook computer 10 to do at any angle.

At first, shown in Figure 1A and Figure 1B, rotational structure 100 mainly includes a retaining element 110, one first rotating element 120, one second rotating element 130 and one first rotating shaft 140.

Shown in Figure 1B, retaining element 110 has one first location division 111, one second location division 112, one first axis hole 113, a circular arc camber 114, one first resilient clamp element 115, one second resilient clamp element 116 and one first fixed part 117.First location division 111 and second location division 112 are two opposite ends that are connected in circular arc camber 114 respectively, and therefore, for first axis hole 113, first location division 111 is to be interval in second location division 112 with a predetermined angle theta.It should be noted that among present embodiment first location division 111 and second location division 112 are all the structure of groove.The first resilient clamp element 115 and the second resilient clamp element 116 are to be arranged at respectively among first location division 111 and second location division 112, and it can be used to the holding force that provides suitable.In addition, the first resilient clamp element 115 and the second resilient clamp element 116 can be C shape clasp or folder spring, and among present embodiment, the first resilient clamp element 115 and the second resilient clamp element 116 are to adopt C shape clasp simultaneously.In addition, on first fixed part 117, also have two first fixed orifices 118.

Still shown in Figure 1B, first rotating element 120 has a holding section 121, one second axis hole 122, a Triaxial hole 123 and a slotted eye 124.Second axis hole 122 is first axis holes 113 with respect to retaining element 110, first rotating shaft 140 then is to be arranged among second axis hole 122 of first axis hole 113 of retaining element 110 and first rotating element 120, therefore, first rotating element 120 can be by first rotating shaft 140 be done retaining element 110 and is relatively rotated.In addition, the holding section 121 of present embodiment is the structure that post is fastened in employing one, do when relatively rotating when 120 pairs of retaining elements 110 of first rotating element, holding section 121 is to be displaced between first location division 111 and second location division 112 of retaining element 110 with a circular arc path.More detailed, holding section 121 is to be displaced between first location division 111 and second location division 112, and be to slide on the circular arc camber 114 of retaining element 110, simultaneously, owing to the restriction of keeping out of first location division 111 and second location division 112, first rotating element 120 only can rotate above-mentioned predetermined angle theta by relative fixed element 110.In addition, owing among first location division 111 and second location division 112, also be respectively arranged with the first resilient clamp element 115 and the second resilient clamp element 116, so when the holding section 121 of first rotating element 120 moves to the position of first location division 111 or second location division 112, holding section 121 can be sticked among the first resilient clamp element 115 or the second resilient clamp element 116, at this moment, the suitable holding force that is provided by the first resilient clamp element 115 or the second resilient clamp element 116, holding section 121 just can be properly positioned among first location division 111 or second location division 112, and then can correctly locate the rotational angle of first rotating element 120 with respect to retaining element 110.In addition, 124 of slotted eyes are to be connected in Triaxial hole 123.

Still shown in Figure 1B, second rotating element 130 mainly has one second rotating shaft 131 and one second fixed part 132.In addition, rotational structure 100 also includes a moment of torsion and adjusts element 150, and it is to be arranged on second rotating shaft 131 of second rotating element 130 that this moment of torsion is adjusted element 150.When second rotating element 130 and first rotating element 120 fit together, it is side by side to be arranged among the Triaxial hole 123 and slotted eye 124 of first rotating element 120, shown in Fig. 1 C that second rotating shaft 131 of second rotating element 130 and moment of torsion are adjusted element 150.At this moment, moment of torsion is adjusted element 150 and can be fixed among first rotating element 120 because of the structure restriction of Triaxial hole 123 and slotted eye 124, and second rotating shaft 131 of second rotating element 130 then can rotate among the Triaxial hole 123 and rotate in moment of torsion and adjust on the element 150.Specifically, moment of torsion being set, to adjust the fundamental purpose of element 150 be can adjust for the torque that second rotating element 130 is relatively rotated when first rotating element 120.Among present embodiment, adjust the setting of element 150 by moment of torsion, can make second rotating element 130 relatively rotate moment of torsion when first rotating element 120 moment of torsion when relatively rotating in retaining element 110 less than first rotating element 120.In addition, on second fixed part 132, also have two second fixed orifices 133, and moment of torsion adjustment element 150 can be to adopt a pipe spring.

In addition, among present embodiment, above-mentioned predetermined angle theta is to set 180 degree for.

Next the application mode of the rotational structure 100 of present embodiment will be described.

Please cooperate and consult Figure 1A and Fig. 2, present embodiment is to be the application mode that example illustrates rotational structure 100 with a notebook computer, at first the rotational structure 100 with two structure symmetries is assembled on the main frame (first electronic installation) 11 and display (second electronic device) 12 of notebook computer (electronic installation) 10 simultaneously, that is to say, first fixed part 117 of rotational structure 100 is fixed on the main frame 11, and passing first fixed orifice 118 by the screw (not shown) is locked in first fixed part 117 on the main frame 11, and on the other hand, second fixed part 132 of rotational structure 100 is fixed on the display 12, and also passes second fixed orifice 133 second fixed part 132 is locked on the display 12 by the screw (not shown).

Then, shown in Fig. 3 A and Figure 1B, when notebook computer 10 is in one first user mode (original state), the holding section 121 of first rotating element 120 of rotational structure 100 is to be positioned among first location division 111 of retaining element 110 (or being sticked among the first resilient clamp element 115), and the display screen 13 on display 12 is towards main frame 11.Then, display 12 can be turned to the position shown in Fig. 3 B, at this moment, cooperate and consult Figure 1B, notebook computer 10 is to be in one second user mode, because it is moment of torsion when relatively rotating in retaining element 110 less than first rotating element 120 that second rotating element 130 relatively rotates moment of torsion when first rotating element 120, so the holding section 121 of first rotating element 120 is still among first location division 111 that is positioned at retaining element 110, display 12 then by between second rotating element 130 and first rotating element 120 relatively rotate and with 11 one-tenth 1 angles of spending of main frame.Then, be rotated further display 12, can make display 12 turn to position shown in Fig. 3 C, at this moment, notebook computer 10 is to be in one the 3rd user mode.It should be noted that in the position of display 12 to be changed to the process of the 3rd user mode that notebook computer 10 can use as general computer purposes, and the user can also write or access data on display screen 13 from first user mode.

On the other hand, notebook computer 10 can also be changed to the 4th user mode shown in Fig. 3 D from first user mode, its method of operating is first rotating element 120 that directly rotates rotational structure 100, and the holding section 121 that makes the rotating element 120 of winning moves to along the circular arc camber 114 of retaining element 110 among second location division 112 (or being sticked among the second resilient clamp element 116).Then, display 12 can be rotated further to the position shown in Fig. 3 E, at this moment, notebook computer 10 is to be in one the 5th user mode, display 12 then by between second rotating element 130 and first rotating element 120 relatively rotate and with the angles of 11 one-tenth 1 degree of main frame.Specifically, when notebook computer 10 is when being in the 5th user mode, the user can contact the end of its main frame 11 and display 12 simultaneously with a plane (a for example desktop), and is available for users to write or access data on its display screen 13.Then, be rotated further display 12, can make display 12 turn to position shown in Fig. 3 F, at this moment, notebook computer 10 is to be in one the 6th user mode, and the display screen 13 on its display 12 is its main frames 11 dorsad, and at this moment, notebook computer 10 can be write or access data on its display screen 13 for the user as the purposes of a panel computer (tablet pc).

Second embodiment

Among present embodiment, all indicate with the first embodiment components identical, and for making the content of instructions can be more clear understandable, the components identical configuration instruction also will omit with identical symbol.

See also Fig. 4 A, Fig. 4 B and Fig. 5, the rotational structure 100 ' of present embodiment can also be applied among the notebook computer (electronic installation) 10, relatively rotates and can make a main frame (first electronic installation) 11 and one display (second electronic device) 12 of notebook computer 10 to do at any angle.

At first, shown in Fig. 4 A and Fig. 4 B, rotational structure 100 ' mainly includes a retaining element 110 ', one first rotating element 120 ', one second rotating element 130 and an elasticity rotating element 160.

Shown in Fig. 4 B, retaining element 110 ' has one first location division 111 ', one second location division 112 ', one first axis hole 113, a plane 114 ', one first connecting hole 119, one first fixed part 117 and an annular teat 113a.Annular teat 113a protrudes on the plane 114 ', and surrounds first axis hole 113.First location division 111 ' and second location division 112 ' are to be positioned on the plane 114 ', and in addition, for first axis hole 113, first location division 111 ' is to be interval in second location division 112 ' with a predetermined angle theta.It should be noted that among present embodiment first location division 111 ' and second location division 112 ' are all the structure of hole.In addition, first connecting hole 119 is to be connected in first axis hole 113, and also has two first fixed orifices 118 on first fixed part 117.

Still shown in Fig. 4 B, first rotating element 120 ' has a holding section 121, one second axis hole 122, a Triaxial hole 123, a slotted eye 124, one second connecting hole 125 and an annular groove (not shown).Second axis hole 122 is first axis holes 113 with respect to retaining element 110 ', and second connecting hole 125 is to be connected in second axis hole 122.Simultaneously, annular groove is to surround second axis hole 122, and the position of annular groove is the position corresponding to the annular teat 113a of retaining element 110 ', that is annular teat 113a is positioned among the annular groove.Elasticity rotating element 160 is to be arranged among first axis hole 113 and second axis hole 122, and its two ends are to be sticked in first connecting hole 119 of retaining element 110 ' and second connecting hole 125 of first rotating element 120 ' respectively.In addition, the holding section 121 of present embodiment is to adopt one to fasten the structure of post, and can be sticked among first location division 111 ' or second location division 112 ' of retaining element 110 '.When first rotating element, 120 ' desire is done when relatively rotating retaining element 110 ', utilize the elasticity of elasticity rotating element 160, can earlier first rotating element 120 ' be pulled away from retaining element 110 ' a little, so that holding section 121 breaks away from first location division 111 ' or second location division 112 ', then, holding section 121 promptly can a circular arc path be displaced on the plane 114 ' of retaining element 110 ' and between first location division 111 ' and second location division 112 ', that is to say, in the time of on holding section 121 rotations move to second location division 112 ' or first location division 111 ', it can be sticked among second location division 112 ' or first location division 111 ' immediately because of the elastic-restoring force of elasticity rotating element 160, and then reaches the rotation and the positioning function of rotational structure 100 '.It should be noted that owing to first location division 111 ' is to be interval in second location division 112 ' with a predetermined angle theta, so but first rotating element, 120 ' the relative fixed element 110 ' rotates above-mentioned predetermined angle theta.In addition, 124 of slotted eyes are to be connected in Triaxial hole 123.

Among present embodiment, elasticity rotating element 160 is to adopt a spring.

Similarly, rotational structure 100 ' also includes a moment of torsion and adjusts element 150, and it also is to be arranged on second rotating shaft 131 of second rotating element 130 that this moment of torsion is adjusted element 150.

Similarly, among present embodiment, above-mentioned predetermined angle theta is to set 180 degree for.

Other component constructions or feature as for present embodiment are all identical with first embodiment, so do not repeat them here.

Next the application mode of the rotational structure 100 ' of present embodiment will be described.

Please cooperate and consult Fig. 5, present embodiment is the application mode that example illustrates rotational structure 100 ' with a notebook computer, at first two identical rotational structures 100 ' of structure are assembled on the main frame (first electronic installation) 11 and display (second electronic device) 12 of notebook computer (electronic installation) 10 simultaneously, and on the other hand, second fixed part 132 of rotational structure 100 ' is fixed on the display 12, and above-mentioned fixed form is all identical with first embodiment.

Then, also shown in Fig. 3 A and Fig. 4 B, when notebook computer 10 is in one first user mode (original state), the holding section 121 of first rotating element 120 ' of rotational structure 100 ' is to be positioned among first location division 111 ' of (being sticked in) retaining element 110 ', and the display screen on the display 12 13 is towards main frame 11.Then, display 12 can be turned to the position shown in Fig. 3 B, and at this moment, notebook computer 10 is in one second user mode.Specifically, cooperate and consult Fig. 4 B, because the holding section 121 of first rotating element 120 ' is to be positioned among first location division 111 ' of retaining element 110 ', so when rotating display 12, first rotating element 120 ' can't be followed rotation together, therefore, display 12 can by between second rotating element 130 and first rotating element 120 ' relatively rotate and with the angles of 11 one-tenth 1 degree of main frame.Then, be rotated further display 12, can make display 12 turn to position shown in Fig. 3 C, at this moment, notebook computer 10 is to be in one the 3rd user mode.Similarly, be changed to the process of the 3rd user mode from first user mode in the position of display 12, notebook computer 10 can use as general computer purposes, and the user can also write or access data on display screen 13.

On the other hand, notebook computer 10 can also be changed to the 4th user mode shown in Fig. 3 D from first user mode, its method of operating is for being pulled away from retaining element 110 ' a little with two first rotating elements 120 ' simultaneously, so that its holding section 121 breaks away from first location division 111 ', then, rotate two first rotating elements 120 ' simultaneously, in the time of on its holding section 121 rotations move to second location division 112 ', holding section 121 can be sticked among second location division 112 ' immediately because of the elastic-restoring force of elasticity rotating element 160.Then, display 12 can be rotated further to the position shown in Fig. 3 E, at this moment, notebook computer 10 is to be in one the 5th user mode, display 12 then by between second rotating element 130 and first rotating element 120 ' relatively rotate and with the angles of 11 one-tenth 1 degree of main frame.Similarly, when notebook computer 10 is when being in the 5th user mode, the user can contact the end of its main frame 11 and display 12 simultaneously with a plane (a for example desktop), and is available for users to write or access data on its display screen 13.Then, be rotated further display 12, can make display 12 turn to position shown in Fig. 3 F, at this moment, notebook computer 10 is to be in one the 6th user mode, and the display screen 13 on its display 12 is its main frames 11 dorsad, and at this moment, notebook computer 10 can be write or access data on its display screen 13 for the user as the purposes of a panel computer (tablet pc).

In sum, rotational structure of the present invention not only can make the purpose of reaching 360 degree rotations between two electronic installations, and have that volume is little, easy operating and location and manage advantages such as line is easy.

Though the present invention is exposed in preferred embodiment; right its is not in order to limit the present invention; anyly be familiar with the person skilled in art; without departing from the spirit and scope of the present invention; when can doing a little change and retouching, so protection scope of the present invention is as the criterion when the scope according to claims define.

Claims (20)

1. rotational structure comprises:

One retaining element, have one first location division, one second location division and a circular arc camber, wherein, this first location division is interval in this second location division with a predetermined angular, and this first location division and this second location division are connected in two opposite ends of this circular arc camber respectively;

One first rotating element, be rotationally connected with this retaining element, and have a holding section, wherein, this holding section is displaced between this first location division and this second location division with a circular arc path, and makes relative this retaining element of this first rotating element rotate this predetermined angular; And

One second rotating element is connected in this first rotating element, and with this circular arc path this first rotating element is done and to be relatively rotated; And

One first rotating shaft is arranged among this retaining element and this first rotating element, and this first rotating element is done this retaining element by this first rotating shaft and relatively rotated.

2. rotational structure according to claim 1, it is characterized in that this retaining element has more one first axis hole, and this first rotating element has more one second axis hole, this second axis hole is with respect to this first axis hole, and this first rotating shaft is arranged among this first axis hole and this second axis hole.

3. rotational structure according to claim 1 is characterized in that, this first location division and this second location division are groove, and this holding section is to fasten post.

4. rotational structure according to claim 3, it is characterized in that, this retaining element has more one first resilient clamp element and one second resilient clamp element, is arranged at respectively among this first location division and this second location division, and in order to this holding section of clamping.

5. rotational structure according to claim 4 is characterized in that, this first resilient clamp element and this second resilient clamp element are C shape clasp or folder spring.

6. rotational structure according to claim 1, it is characterized in that, this second rotating element has more one second rotating shaft, and this first rotating element has more a Triaxial hole, this second rotating shaft is arranged among this Triaxial hole, relatively rotates so that this second rotating element is done this first rotating element.

7. rotational structure according to claim 6, it is characterized in that, this rotational structure more comprises moment of torsion adjustment element, and this first rotating element has more a slotted eye, this slotted eye is connected in this Triaxial hole, this moment of torsion is adjusted element and is arranged on this second rotating shaft of this second rotating element, and is positioned among this Triaxial hole and this slotted eye.

8. rotational structure according to claim 7 is characterized in that, it is a pipe spring that this moment of torsion is adjusted element.

9. rotational structure according to claim 1 is characterized in that, this retaining element has more one first fixed part, in order to this retaining element is fixed on one first electronic installation.

10. rotational structure according to claim 9 is characterized in that, this first fixed part has more at least one first fixed orifice.

11. rotational structure according to claim 9, it is characterized in that, this second rotating element has more one second fixed part, and in order to this second rotating element is fixed on the second electronic device, this first electronic installation is done this second electronic device by this rotational structure and relatively rotated.

12. rotational structure according to claim 11 is characterized in that, this second fixed part has more at least one second fixed orifice.

13. a rotational structure comprises:

One retaining element has one first location division and one second location division, and wherein, this first location division is interval in this second location division with a predetermined angular;

One first rotating element, be rotationally connected with this retaining element, and have a holding section, wherein, this holding section is displaced between this first location division and this second location division with a circular arc path, and makes relative this retaining element of this first rotating element rotate this predetermined angular;

One second rotating element is connected in this first rotating element, and with this circular arc path this first rotating element is done and to be relatively rotated; And

One elasticity rotating element is arranged among this retaining element and this first rotating element, and this first rotating element is done this retaining element by this elasticity rotating element and relatively rotated.

14. rotational structure according to claim 13 is characterized in that, this retaining element has more one first axis hole, and this first rotating element has more one second axis hole, and this elasticity rotating element is arranged among this first axis hole and this second axis hole.

15. rotational structure according to claim 14, it is characterized in that, this retaining element has more one first connecting hole, be connected in this first axis hole, and this first rotating element has more one second connecting hole, be connected in this second axis hole, this elasticity rotating element is arranged among this first axis hole and this second axis hole, and is sticked in this first connecting hole and this second connecting hole.

16. rotational structure according to claim 13 is characterized in that, this elasticity rotating element is a spring.

17. rotational structure according to claim 1, it is characterized in that, this retaining element has more a plane, this first location division and this second position point are on this plane, this holding section is displaced between this first location division and this second location division, and slides on this plane with this circular arc path.

18. rotational structure according to claim 17 is characterized in that, this first location division and this second location division are hole, and this holding section is to fasten post.

19. an electronic installation comprises:

One main frame;

One display;

One retaining element is fixed on this main frame, and has one first location division, one second location division and a circular arc camber, and wherein, this first location division is interval in this second location division with a predetermined angular;

One first rotating element, be rotationally connected with this retaining element, and have a holding section, wherein, this holding section is displaced between this first location division and this second location division with a circular arc path, and makes relative this retaining element of this first rotating element rotate this predetermined angular;

One second rotating element is fixed on this display, and is connected in this first rotating element, and with this circular arc path this first rotating element is done and to be relatively rotated; And

One first rotating shaft is arranged among this retaining element and this first rotating element, and this first rotating element is done this retaining element by this first rotating shaft and relatively rotated.

20. an electronic installation comprises:

One main frame;

One display;

One retaining element is fixed on this main frame, and has one first location division and one second location division, and wherein, this first location division is interval in this second location division with a predetermined angular;

One first rotating element, be rotationally connected with this retaining element, and have a holding section, wherein, this holding section is displaced between this first location division and this second location division with a circular arc path, and makes relative this retaining element of this first rotating element rotate this predetermined angular;

One second rotating element is fixed on this display, and is connected in this first rotating element, and with this circular arc path this first rotating element is done and to be relatively rotated; And

One elasticity rotating element is arranged among this retaining element and this first rotating element, and this first rotating element is done this retaining element by this elasticity rotating element and relatively rotated.

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