CN203176150U

CN203176150U - Insert-assembling type multi-section rotating shaft structure

Info

Publication number: CN203176150U
Application number: CN 201220730355
Authority: CN
Inventors: 徐安赐; 戴伟翰
Original assignee: First Dome Corp
Current assignee: First Dome Corp
Priority date: 2012-12-26
Filing date: 2012-12-26
Publication date: 2013-09-04
Anticipated expiration: 2022-12-26

Abstract

The utility model discloses an insert-assembling type multi-section rotating shaft structure, which includes driving joint groups and servo joint groups, wherein at least two relative joint sheets and a middle linkage sheet group connected between the relative joint sheets are arranged on each driving joint group; each servo joint group is arranged between the two relative joint sheets, and comprises at least two servo sheets used for presetting cohesion linkage of synchronous initiation parts, at the mutually relative inward ends; the inward ends of the relative joint sheets are aligned with the outward ends of the servo sheets, and the outward ends of the two joint sheets form an insertion end; the outward end of each middle linkage sheet of the middle linkage sheet group is aligned with the inward end of each servo sheet of the servo sheet group, and the various parts are combined with each other through shaft pins; and the driving joint groups and the servo joint groups are arranged in a combination manner and are connected in series with the shaft pins, so that each relative joint sheet of the driving joint groups can perform free rotation around multiple rotation centers, and a smooth rotating shaft structure with two opening and closing ends is formed.

Description

Socket assembling type more piece turning shaft structure

Technical field

The relevant a kind of socket assembling type more piece turning shaft structure of the utility model, You Zhike be for being combined in electronic equipment as the turning shaft structure in spinning movement axle center, can improve rotary freedom and the electronic equipment two ends more and suitablely be rotated carry out or closure.

Background technique

Class of electronic devices with notebook computer is example, usually by being formed jointly as the base of system end and the loam cake of demonstration usefulness, then use the pivot device to be connected between base and the loam cake, and to make loam cake can serve as that the use state is upwards raised in the action axle center with this pivot device, or can oppositely the loam cake closure be become closed state in base upper surface.The significance of this type of pivot device namely is outside the action axle center as electronic equipment own, must consider on the structural design when loam cake is raised arrival work angle (the loam cake display screen as notebook computer is raised about 135 ° usually) position, this body structure of pivot device can form enough support forces, for the loam cake display screen is positioned at this work angle position.

Generally comprise assembly parts and another assembly parts that contains relative axle sleeve that contains axle as this type of above-mentioned existing pivot device, make wherein that an assembly parts is installed in loam cake, and another assembly parts is installed in base, make the fit winding each other of axle and axle sleeve simultaneously.Consider supporting structure intensity and action smooth degree, the above-mentioned assembly parts that contains axle and relative axle sleeve normally is located at end limit two side positions of this class of electronic devices (as notebook computer) loam cake and base pivot-connecting position in the mode of two component cloth.

Because this type of existing pivot device is with a prescription formula setting, when the electronic equipment loam cake was raised, the harmony of the default axle of the pivot device in two the same action of non-genus axle center when rotating was more undesirable; Simultaneously, two pivot device rotary freedoms that are arranged near same center line also are restricted, make whole electric equipment no matter raise or closed rotation process action smooth degree obviously not enough.

Moreover, when general rotating shaft part and electronic equipment combination, demand for aesthetic appearance, usually need to carry out the complicated sealed operation of unlatching at body and just can reach, increased the complicated property of assembly processing, and reject ratio also improves relatively, therefore, if can suitably improve this, so that processing is more simplified, must promote the competitive ability of integral product.

The model utility content

The utility model main purpose is providing a kind of socket assembling type more piece turning shaft structure, can significantly improve the rotary freedom of this type of rotating shaft when being installed in electronic equipment.

The another purpose of the utility model is providing a kind of socket assembling type more piece turning shaft structure, can make the electronic equipment of installing carry out carrying out and closed action between both-end more smoothly.

For reaching above purpose, the utility model provides a kind of socket assembling type more piece turning shaft structure, You Zhike is for being combined in the turning shaft structure that electronic equipment is done the rotary movement axle center, and described turning shaft structure is common and close and arrange the pivot roped party and become by at least one active joint set and servo-actuated joint set; Wherein

Described active joint set is provided with two relative articular sclerites of first articular sclerite and second joint sheet at least, and double-action plate group in the middle of, at least one of them is provided with the synchronous dynamical inducing part towards the inner to above-mentioned two relative articular sclerites, one of two ends at least of double-action plate group are in to dynamical inducing part place synchronously in the middle of described, be provided with the connection dynamical inducing part that can be connected synchronously, and being set as towards the outer end of one of them at least of this first articular sclerite and second joint sheet one inserted the fixed end head;

Described servo-actuated joint set be hubbed at above-mentioned two relative articular sclerites towards between the inner, described servo-actuated joint set comprise at least two toward each other towards the inter-sync interlock first with moving plate and second with moving plate, and the corresponding pivot towards the inner of above-mentioned two relative articular sclerites tie described first with moving plate and second with moving plate towards the outer end; In the middle of described the corresponding pivot in the two ends of double-action plate group tie described first with moving plate and second with moving plate towards the inner.

Described socket assembling type more piece turning shaft structure, wherein, initiatively joint set and servo-actuated joint set are common and close arrangement by majority for described turning shaft structure, and cooperate most pivot pin institute pivot string to form.

Described socket assembling type more piece turning shaft structure, wherein, two relative articular sclerites be equipped with synchronous dynamical inducing part towards the inner, and the two ends of middle double-action plate group are respectively equipped with the corresponding connection dynamical inducing part that is connected.

Described socket assembling type more piece turning shaft structure, wherein, insert group has an implements locking member on the described two relative articular sclerites slotting fixed end head outwardly, and be provided with towards the inner relative to the inter-sync dynamical inducing part; In the middle of above-mentioned the double-action plate group be provided with axis hole near end positions, and be provided with at the two ends of this centre double-action plate group and can be connected dynamical inducing part outwardly with above-mentioned two articular sclerites synchronous dynamical inducing part inwardly overlaps; Described two with moving plate be respectively equipped with two separate towards outer shaft hole and axis hole inwardly; The axis hole inwardly of above-mentioned two relative articular sclerites aim at respectively pivot tie in this two with moving plate towards outer shaft hole; The double-action plate group is provided with axis hole and aims at pivot respectively and tie in described two axis holes inwardly with moving plate in the middle of described.

Described socket assembling type more piece turning shaft structure, wherein, the axis hole inwardly of described articular sclerite and middle double-action plate group axis hole and with moving plate inwardly axis hole be provided with flange for the combination of described pivot pin packing serial connection interior week.

Described socket assembling type more piece turning shaft structure, wherein, the relative alcove space that described implements locking member lock places an electronic equipment to be provided with.

Described socket assembling type more piece turning shaft structure, wherein, middle double-action plate group is formed by connecting by at least two middle double-action plates that are connected synchronously, and the end that connects of double-action plate is connected mutually with synchronous dynamical inducing part in the middle of each; Described servo-actuated joint set first synchronously is connected at least one centre with moving plate with second between with moving plate with moving plate at this, and the corresponding pivot of end that connects of this centre double-action plate is tied in this centre with the two ends of moving plate.

Described socket assembling type more piece turning shaft structure, wherein, dynamical inducing part and connection dynamical inducing part are made of the tooth portion that can mesh relatively synchronously.

Described socket assembling type more piece turning shaft structure, wherein, dynamical inducing part and connection dynamical inducing part are made of two relative friction parts synchronously.

Described socket assembling type more piece turning shaft structure, wherein, dynamical inducing part and connection dynamical inducing part are made of intersection sync pulling element synchronously.

In sum, more being set to towards the outer end of of the present utility model two relative articular sclerites inserted the fixed end head, to be suitable for simple and easy insert group implements locking member; Moreover described active joint set and servo-actuated joint set are also closed arrangement, make relative articular sclerite, middle double-action plate and pass through described pivot pin with moving plate to be connected in series, and form a multi-fold type turning shaft structure jointly; Arbitrary relative articular sclerite according to above-mentioned active joint set can rotate freely with a plurality of rotating centers.

Described two relative articular sclerites be respectively equipped with near end positions outwardly slotting fixed end head and axis hole inwardly, and be respectively equipped with relative to the inter-sync dynamical inducing part in inner opposite end; The double-action plate group is respectively equipped with axis hole in the middle of above-mentioned near near two ends, and is provided with the dynamical inducing part of connection outwardly that can overlap with the synchronous dynamical inducing part inwardly of above-mentioned two relative articular sclerites at these two ends; Described servo-actuated joint set be provided with two separate towards outer shaft hole; The axis hole inwardly of above-mentioned two relative articular sclerites aim at respectively this servo-actuated joint set towards outer shaft hole, and with the combination of first pivot pin and second pivot pin; Each middle double-action plate of double-action plate group is provided with towards outer shaft hole in the middle of described, aims at described axis hole inwardly with moving plate respectively, again with the 3rd pivot pin and the combination of the 4th pivot pin.

The axis hole inwardly of described each relative articular sclerite and each middle double-action plate axis hole and each form positioning clamping power with default flange of the interior week of the axis hole of moving plate for the combination of described pivot pin packing serial connection.

The set slotting fixed end head towards the outer end of described two relative articular sclerites is suitable for simply insert group and has in one and insert the implements locking member of decide groove, is beneficial to accurately and simply be assemblied on the applied implements, with the yield of lifting product efficiency and product.

The beneficial effects of the utility model are: can significantly improve the rotary freedom of this type of rotating shaft when being installed in electronic equipment; And can make the electronic equipment of installing carry out carrying out and closed action between both-end more smoothly.

Description of drawings

Fig. 1 shows the utility model one preferred embodiment stereogram;

Fig. 2 is the three-dimensional exploded view that shows the element of Fig. 1;

Fig. 3 is the wherein one group of articular sclerite amplification stereogram that shows Fig. 1;

Fig. 4 is the main articular sclerite part drawing that shows Fig. 1;

Fig. 5 is the preliminary rotation phase diagram that shows as Fig. 3;

Fig. 6 is the further rotation phase diagram that shows Fig. 5;

Fig. 7 is the turning angular range schematic representation that shows Fig. 1 embodiment;

Fig. 8 shows the utility model is applied to the electronic equipment schematic representation;

Fig. 9 is the local amplification decomposition figure that shows Fig. 8;

Figure 10 shows another possible embodiments stereogram of the utility model;

Figure 11 is the three-dimensional exploded view that shows Figure 10.

Description of reference numerals: 10-is joint set initiatively; 20-first articular sclerite; 30-second joint sheet; 21,31-inserts the fixed end head; 23, the synchronous dynamical inducing part of 33-; Double-action plate group in the middle of the 40-; 401, double-action plate in the middle of the 402-; 4011, the 4021-end that connects; 22,32,41,42-axis hole; 43,44-connects dynamical inducing part; 50-first is with moving plate; 60-second is with moving plate; 51,52,61,62-axis hole; 53, the synchronous dynamical inducing part of 63-; 71～74-pivot pin; The 80-electronic equipment; The 81-base; The 82-loam cake; 83,84-alcove space; The servo-actuated joint set of 90-; 91-is middle with moving plate; A-implements locking member; A1-inserts and decides groove; The C-center line; The F-flange.

Embodiment

The utility model novelty and other characteristics will be tending towards clear in cooperating the following drawings preferred embodiment to describe in detail.

As shown in Figure 1 to Figure 3, the utility model is by majority active joint set 10 and servo-actuated joint set 90(ginseng Fig. 3) also the most pivot pins of merging cooperation form a multi-fold type turning shaft structure jointly.

Interelement contact relation in following related description, among the center line C as shown in Figure 2, towards being illustrated as " inwardly " direction near center line C, will be illustrated as " outwardly " direction away from center line C for convenience of description.

Described active joint set 10 comprise at least two relative first articular sclerites 20, and second joint sheet 30 and one in the middle of relative first articular sclerite 20 of double-action plate group 40, above-mentioned two, and second joint sheet 30, near its other end positions; Be respectively equipped with the slotting fixed

end

21,31 of " outwardly " and the

axis hole

22,32 of " inwardly ", and be provided with synchronous dynamical inducing

part

23,33 at one of them " inwardly " end at least of this two relative articular sclerite; 40 of double-action plate groups are arranged between two relative first articular sclerites 20 and second joint sheet 30 in the middle of above-mentioned, by at least more than one middle double-action plate institute synchronously an interlock form in this centre double-action plate group 40 and be respectively equipped with axis hole 41 near end positions, 42, and these two ends at least one of them be provided with can with " inwardly " of above-mentioned first articular sclerite 20 or second joint sheet 30 dynamical inducing part 23 synchronously, 33 " outwardly " that are connected in correspondence with each other connect dynamical inducing

part

43,44, make described first articular sclerite 20 or second joint sheet 30 at least one of them, can produce each other with this centre double-action plate group 40 and be connected synchronously.

Described servo-actuated joint set 90 is located between two articular sclerites of this active joint set 10, these a plurality of servo-actuated joint set 90 comprise at least two each other relative towards the inner, with default synchronous dynamical inducing part 53,63 be connected interlocks first with moving plate 50 and second with moving plate 60, described first is respectively equipped with two " outwardly " axis hole 51,61 that separates and " inwardly " axis holes 52,62 with moving plate 50 and second with moving plate 60.

If with above-mentioned most servo-actuated joint set 90 and most initiatively joint set 10 and after closing arrangement, thereby can make two relative first articular sclerites 20 and " inwardly "

axis hole

22,32 of second joint sheet 30 aim at first respectively with moving plate 50 and second " outwardly " axis hole 51,61 with moving plate 60, and be combined into one with the pivot string mode with first pivot pin 71 and second pivot pin 72; The

axis hole

41,42 at double-action plate group 40 two ends aims at first respectively with moving plate 50 and second " inwardly " axis hole 52,62 with moving plate 60 in the middle of making then, again with the

3rd pivot pin

73 and 74 combinations of the 4th pivot pin; Simultaneously, these a plurality of slotting fixed

ends

21,31 can be used for default insert of insert group on an implements locking member A and decide (to ask for an interview Fig. 9) among the groove A1.In the diagram possible embodiments, respectively these a plurality of pivot pins 71～74 contain a side bellend, make shank pass relative axis hole after, opposite side then can be buckled with clasp etc. and order the element integrated positioning in default recessed neck, but this is only with for conveniently illustrating, and is not in a limitative way.

If will and close arrangement in majority active joint set 10 and servo-actuated joint set 90 again, make most relative first articular sclerites of organizing 20 and second joint sheet 30 and middle double-action plate group 40 and first be connected in series combination and form a multi-fold type turning shaft structure jointly with described pivot pin 71～74 with moving plate 60 with moving plate 50 and second.

As shown in Figure 4, in preferred embodiment, the axis hole 41, interior week of 42 that comprises " inwardly "

axis hole

22,32 of two relative first articular sclerites 20 and second joint sheet 30 and middle double-action plate group 40 be predeterminable flange F all, simultaneously, comprise that first also can arrange these a plurality of flange F with moving plate 50 and second " inwardly " axis hole 52,62 with moving plate 60; These flange F arrange can pivot pin 71～74 pass in conjunction with the time produce the urgent effect that overlays, to form required positioning clamping strength.

In illustrated embodiment, above-mentioned first with moving plate 50 and second " outwardly " end with moving plate 60, though inessentially on kenel establish the have synchronous dynamical inducing part identical with this centre double-action plate group 40, but with whole first and second with moving

plate

50,60 be made as with each of middle double-action plate group 40 in the middle of double-action plate 401,402 with the shape structure, then be conducive to the volume production manufacturing process in the factory.

Fig. 5 show the utility model according to above-described embodiment when a wherein relative articular sclerite (i.e. first articular sclerite 20 or the second joint sheet 30) rotary oscillation of active joint set 10, " inwardly " synchronously dynamical inducing

part

23 or 33 will be because of be connected dynamical inducing

part

43 or 44 combination that overlaps with middle double-action plate group 40 " outwardly ", and then will order about first middle double-action plate 401 of holding in the mouth mutually of middle double-action plate group 40,402 produce relative to reverse rotating, and synchronously this servo-actuated joint set 90 of interlock first with moving plate 50, the whole multi-fold type turning shaft structure that makes gradually in succession forms synchronous rotation status; That is to say that when the stressed rotation of a relative articular sclerite (first articular sclerite 20 or second joint sheet 30) wherein, another relative articular sclerite will be acted on and rotation synchronously.In Fig. 6 or embodiment illustrated in fig. 7 in, if first articular sclerite 20 " outwardly " end is (the stressed preparation of Fig. 6 state rotates into the process of Fig. 5 state) during stressed rotation in a clockwise direction, this first articular sclerite 20 " inwardly " end will be relatively the periphery of " outwardly " end of middle double-action plate group 40 produce the displacement that turns clockwise (please consult simultaneously Fig. 2,3 and Fig. 5), and interlock traction first " outwardly " end with moving plate 50 wherein produces equidirectional displacement and make first also to turn clockwise with moving plate 50 " inwardly " end; Since this first with moving plate 50 and second with between the moving plate 60, be connected interlock with default synchronous dynamical inducing part 53,63, feasible second " inwardly " end with moving plate 60 that is connected mutually namely rotates counterclockwise synchronously, this second " outwardly " end thereby generation rotation counterclockwise relatively with moving plate 60.Two first articular sclerites 20 that relatively arrange and second joint sheet 30 can thereby be that benchmark produces that the synchronous common formation of reverse rotation is carried out relatively or closed action with center line C, or at least by a relative articular sclerite wherein towards another relative articular sclerite rotation near (closure) or away from (unlatching), and shown in the 7th figure, relative rotation angle between this two relative articular sclerite (20,30) can be by 0 degree to 360 degree, and the adaptation angular range of application is very broad.

Fig. 8 and Fig. 9 demonstration are installed in the utility model above-described embodiment as notebook computer, folding display, handheld game device, accompanied electronic secretary, mobile phone, e-book, electronics implements overcoat ... Deng similar electronic equipment 80 on, described electronic equipment 80 comprises a base 81 and loam cake 82.In this embodiment, implements locking member A can directly lock the

relative alcove space

83,84 of establishing tool respectively on the base 81 that places this electronic equipment 80 and the loam cake 82 as the aforementioned, and in addition simple and easy locking combination.

Figure 10 and Figure 11 are shown, are middle double-action plate group 40 wherein to be established by middle the double-action plate 401 that is connected synchronously more than two, 402 be formed by connecting double-action plate 401 in the middle of each, 402 connect and hold 4011,4021 to be connected mutually with synchronous dynamical inducing part; In addition this 90 of servo-actuated joint set be first with moving plate 50 and second with moving plate 60 between, be connected synchronously and at least one centre arranged with moving plate 91, with synchronous interaction first with moving plate 50 and second operation with 60 of moving plates, and middle double-action plate 401,402 connect

end

4011,4021 also corresponding pivot tie in the middle of each two ends with moving plate 91; Take off the rotating shaft action that the multi-fold type connection is turned and put before so also producing.

The utility model is because the multi-fold type structure has most spinning movement centers, the rotary freedom of whole rotating shaft can significantly promote, simultaneously because the synchronous rotation in two ends is carried out or closure, be installed in and variously have two and carry out relatively and closed rotating hinge function of separating the electronic equipment of major-minor body more becomes smooth and easy, show on the overall space kenel to belong to innovation and the gain that has on the effect.

Above embodiment is only with for conveniently illustrating the utility model, be not in a limitative way, for example, aforementioned each synchronous dynamical inducing part and connection dynamical inducing part in order to synchronous linking, at least can have on the implementation the tooth portion that is meshed, relatively rub part, intersect sync pulling element or other equivalent priming elements and can constitute for using, and this all for have the knack of this skill personage according to this embodiment various simple and easy distortion and the modification that can do, all must include in following claim.

Claims

1. a socket assembling type more piece turning shaft structure is characterized in that, is combined in electronic equipment and makes rotary movement, and described turning shaft structure is common and close and arrange the pivot roped party and become by at least one active joint set and servo-actuated joint set; Wherein

2. socket assembling type more piece turning shaft structure as claimed in claim 1 is characterized in that, initiatively joint set and servo-actuated joint set are common and close arrangement by majority for described turning shaft structure, and cooperates most pivot pin institute pivot string to form.

3. socket assembling type more piece turning shaft structure as claimed in claim 1 or 2 is characterized in that, two relative articular sclerites be equipped with synchronous dynamical inducing part towards the inner, and the two ends of middle double-action plate group are respectively equipped with the corresponding connection dynamical inducing part that is connected.

4. socket assembling type more piece turning shaft structure as claimed in claim 3 is characterized in that, insert group has an implements locking member on the described two relative articular sclerites slotting fixed end head outwardly, and be provided with towards the inner relative to the inter-sync dynamical inducing part; In the middle of above-mentioned the double-action plate group be provided with axis hole near end positions, and be provided with at the two ends of this centre double-action plate group and can be connected dynamical inducing part outwardly with above-mentioned two articular sclerites synchronous dynamical inducing part inwardly overlaps; Described two with moving plate be respectively equipped with two separate towards outer shaft hole and axis hole inwardly; The axis hole inwardly of above-mentioned two relative articular sclerites aim at respectively pivot tie in this two with moving plate towards outer shaft hole; The double-action plate group is provided with axis hole and aims at pivot respectively and tie in described two axis holes inwardly with moving plate in the middle of described.

5. socket assembling type more piece turning shaft structure as claimed in claim 4 is characterized in that, the axis hole inwardly of described articular sclerite and middle double-action plate group axis hole and with moving plate inwardly axis hole be provided with flange for the combination of described pivot pin packing serial connection interior week.

6. socket assembling type more piece turning shaft structure as claimed in claim 4 is characterized in that, the relative alcove space that described implements locking member lock places an electronic equipment to be provided with.

7. socket assembling type more piece turning shaft structure as claimed in claim 5 is characterized in that, the relative alcove space that described implements locking member lock places an electronic equipment to be provided with.

8. socket assembling type more piece turning shaft structure as claimed in claim 1 or 2 is characterized in that, middle double-action plate group is formed by connecting by at least two middle double-action plates that are connected synchronously, and the end that connects of double-action plate is connected mutually with synchronous dynamical inducing part in the middle of each; Described servo-actuated joint set first synchronously is connected at least one centre with moving plate with second between with moving plate with moving plate at this, and the corresponding pivot of end that connects of this centre double-action plate is tied in this centre with the two ends of moving plate.

9. socket assembling type more piece turning shaft structure as claimed in claim 3 is characterized in that, middle double-action plate group is formed by connecting by at least two middle double-action plates that are connected synchronously, and the end that connects of double-action plate is connected mutually with synchronous dynamical inducing part in the middle of each; Described servo-actuated joint set first synchronously is connected at least one centre with moving plate with second between with moving plate with moving plate at this, and the corresponding pivot of end that connects of this centre double-action plate is tied in this centre with the two ends of moving plate.

10. socket assembling type more piece turning shaft structure as claimed in claim 1 or 2 is characterized in that, dynamical inducing part and connection dynamical inducing part are made of the tooth portion that can mesh relatively synchronously.

11. socket assembling type more piece turning shaft structure as claimed in claim 3 is characterized in that, dynamical inducing part and connection dynamical inducing part are made of the tooth portion that can mesh relatively synchronously.

12. socket assembling type more piece turning shaft structure as claimed in claim 1 or 2 is characterized in that, dynamical inducing part and connection dynamical inducing part are made of two relative friction parts synchronously.

13. socket assembling type more piece turning shaft structure as claimed in claim 3 is characterized in that, dynamical inducing part and connection dynamical inducing part are made of two relative friction parts synchronously.

14. socket assembling type more piece turning shaft structure as claimed in claim 1 or 2 is characterized in that, dynamical inducing part and connection dynamical inducing part are made of intersection sync pulling element synchronously.

15. socket assembling type more piece turning shaft structure as claimed in claim 3 is characterized in that, dynamical inducing part and connection dynamical inducing part are made of intersection sync pulling element synchronously.