CN104100629B - Synchronous movement device for double rotating shafts - Google Patents
Synchronous movement device for double rotating shafts Download PDFInfo
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- CN104100629B CN104100629B CN201310129990.4A CN201310129990A CN104100629B CN 104100629 B CN104100629 B CN 104100629B CN 201310129990 A CN201310129990 A CN 201310129990A CN 104100629 B CN104100629 B CN 104100629B
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- rotor
- axle
- rotating shafts
- synchronous movement
- double rotating
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Abstract
The present invention is a kind of synchronous movement device for double rotating shafts, is under conditions of a requirement is simplified, and making double rotating shaft (including the first axle and the second axle) possess has the effect being synchronized with the movement.This synchronous movement device include synchronous interaction in the first rotor of the first axle and synchronous interaction at the second rotor of the second axle;And, a tractive unit configuration connects the first rotor and the second rotor.Substantially, when the first axle drives the first rotor to rotate, tractive unit pulls the second rotor to rotate towards the direction that contrary the first rotor moves, and makes first and second axle produce synchronous axial system form.
Description
Technical field
The present invention relates to a kind of synchronous movement device for double rotating shafts;Particularly relate to a kind of pivot application rotor
With the combination of tractive unit, in the operation that operation coordinates, first and second axle is made relatively to produce synchronous axial system effect
Inventor.
Background technology
Apply the pivot or rotating shaft reciprocally rotated freely because of external force, be fitted on electronic ware, such as, move
Mobile phone, notebook computer, PDA, numerical digit camera, e-book etc. so that it is lid, display screen or sight
Scape window is rotatable and has open and close effect, has been existing skill.Such as, TaiWan, China the 97222022nd
" pivot structure ", No. 96217011 " pivot align member " and No. 98207366 " pivot structure "
Deng Patent Case, it is provided that typical embodiment.
Display module (such as, screen) and/or body module in order to make electronic ware have in use
Having more operator scheme and range of application, existing skill also has revealed that a kind of at display module and body mould
Double rotating shaft is set between block, makes display module and/or body module can produce different operation modes or angle of rotation
The structure of degree.Such as, TaiWan, China the 96148572nd " super-wide-angle structure with double rotating shafts ", the 99211350th
Number " double pivot hinge device " Patent Case etc., it is provided that feasible embodiment.
One about above-described embodiment in operation, motion and the problem of structure design aspect is, this kind of pivot or
Rotating assembly is commonly used a plurality of has the groups such as through hole, the pad of concavo-convex location division, friction plate, spring
It is combined in rotating shaft;Rotating shaft two ends are fixed with clasp or fixture respectively.And, coordinate the energy accumulation of spring
And release, reach rotating shaft or pintle assembly rotates and the effect of location.
Existing skill also has revealed that a kind of double turning gear.It is at two rotating shafts (the first axle, the second axle)
On be respectively provided with cam, with first and second axle rotate;It is provided with one between two cams movably to fasten with a bolt or latch.When first
When axle rotates, the cam of the first axle can promote door bolt to block the cam of the second axle, makes the second axle not rotate.The
After one axle rotates 180 °, allow that operation the second axle rotates, make cam promote above-mentioned door bolt to block the convex of the first axle
Wheel.
Just as those people being familiar with this skill are known, the structure design of above-described embodiment cannot make double rotating shaft obtain
Obtain the effect of synchronous axial system;Can only allow that user operates the first axle respectively and turns to location, the could be operated
Two axles rotate.Further, when promoting door bolt to block another cam when cam rotation, noise can be produced.And,
First and second axle rotates when arriving location, is pressed against a location of turning gear by a block of cam
In portion;Therefore in operation, can produce in position location a kind of collision or suddenly the portion of being positioned block and pause
Sensation, and this situation to be not us desired.
For representational, these reference materials show and are using in relevant rotating shaft or its relevant coupling unit
Situation with structure design aspect.If overline design considers this rotating shaft and associated component structure, and above-mentioned
Application scenarios so that it is be different from those existing, will can change its use form, and be different from old law;Real
In matter, also can increase the simplicity in terms of its range of application and assembling.
According to above-mentioned, following problem from the standpoint of structure design and operating technology:
1. a kind of synchronous movement device is provided, is fitted between display module and body module;Allow that operator is only
When rotating display module 0 °~180 °, make body module also relative synchronization rotate 0 °~180 °, and make to show
Show that the rotational angle summation of module and body module reaches 360 °;More kinds of operation is had making electronic ware possess
Under conditions of pattern (or range of application), it is thus achieved that effect easy and simple to handle.
2. the synchronous movement device described in considering, on structure designs, should be removed the application of existing skill and a plurality of have
The combination such as through hole, the pad of concavo-convex location division, friction plate, spring is in the form of rotating shaft;And, coordinate bullet
The energy accumulation of spring and release, reach rotating assembly and rotate and positioning action.
And these problems are not the most specifically taught or are disclosed in above-mentioned reference material.
Summary of the invention
Whence is that the main object of the present invention is i.e. to provide a kind of synchronous movement device for double rotating shafts, is
Under conditions of a requirement is simplified, make double rotating shaft (including the first axle and the second axle) possess and be synchronized with the movement
Effect.
For achieving the above object, the technical solution used in the present invention is:
A kind of synchronous movement device for double rotating shafts, it is characterised in that including:
With the first rotor of one first axle synchronous interaction and with the second rotor of one second axle synchronous interaction;First
Rotor and the second rotor are respectively provided with a cylindrical body;And
One tractive unit, configuration connects the first rotor and the second rotor, and makes the first rotor and the second rotor synchronize
Motion.
The described synchronous movement device for double rotating shafts, wherein: this first rotor on-line equipment in this first
Axle;This second rotor on-line equipment is in this second axle;And
First axle and the second axle are respectively provided with fixing end and a pivot end;First axle drives the first rotor to rotate
Time, tractive unit pulls the second rotor to rotate towards the direction that contrary the first rotor moves, and makes first and second axle produce
Synchronous axial system form.
The described synchronous movement device for double rotating shafts, wherein: this first rotor and the second rotor are one turn
The form of wheel, including the principal part that can be mutually combined and pair portion.
The described synchronous movement device for double rotating shafts, wherein: the body become combined by this principal part and pair portion
It is respectively equipped with shoulder and is installed on the first axle and the axis hole of the second axle.
The described synchronous movement device for double rotating shafts, wherein: the width of this body is less than the width of shoulder.
The described synchronous movement device for double rotating shafts, wherein: the profile of this axis hole be same as the first axle and
The section configuration of the second axle pivot end.
The described synchronous movement device for double rotating shafts, wherein: this first axle and the second axle pivot end and axle
The shape in hole is the form of a rectangular cross section.
The described synchronous movement device for double rotating shafts, wherein: this principal part and pair portion are respectively equipped with a groove,
In major and minor portion, combination forms the first rotor and the second rotor, and jointly defines an alcove, houses fixing being somebody's turn to do
Tractive unit.
The described synchronous movement device for double rotating shafts, wherein: this principal part is provided with bolt;Corresponding principal part
Bolt, pair portion is configured with hole, detains bolt;The combination of major and minor portion is made to form the first rotor and bitrochanteric shape
State.
The described synchronous movement device for double rotating shafts, wherein: this principal part is provided with hole;Corresponding principal part
Hole, pair portion is configured with bolt;The combination of major and minor portion is made to form the first rotor and bitrochanteric form.
The described synchronous movement device for double rotating shafts, wherein: this tractive unit is a flexible cable form,
There is the first end and the second end;Tractive unit the first end winding is fixed on the body of the first rotor;And, second
End winding is fixed on bitrochanteric body.
The described synchronous movement device for double rotating shafts, wherein: first and second end of this tractive unit sets respectively
There is a canned paragraph;The straight form of canned paragraph shape, is received recess defining recessed being fixed on major and minor portion
Inside room, make the form that tractive unit first and second end is separately fixed on the first rotor and the second rotor.
The described synchronous movement device for double rotating shafts, wherein: this tractive unit is arranged in first and second rotor
On form formed one " 8 " word form.
The described synchronous movement device for double rotating shafts, wherein: the winding on the right of the first rotor of this tractive unit
Form to the second rotor left side;And, make tractive unit rap around to the first rotor left side on the right of the second rotor
The form in direction.
The described synchronous movement device for double rotating shafts, wherein: the length of this tractive unit is at the first rotor
After rotating 180 °, still keep the length that tractive unit is wound on the first rotor at least equal to the first rotor circumference
1/2.
The described synchronous movement device for double rotating shafts, wherein: this first axle, the second axle combination are arranged on
In one housing.
The described synchronous movement device for double rotating shafts, wherein: the fixing end of this first and second axle coordinates solid
Reservation, makes first and second axle be separately fixed at display module and the body module of an electronic ware.
The described synchronous movement device for double rotating shafts, wherein: this first and second rotor and tractive unit coordinate
One fixation kit combines on the first axle and the second axle.
The described synchronous movement device for double rotating shafts, wherein: this first axle makes the first rotor rotate, and leads
The direction that the portion of drawing makes the second rotor move with contrary the first rotor rotates.
The described synchronous movement device for double rotating shafts, wherein: this first axle rotates 0 °~the model of 180 °
Enclose, rotate 0 °~the scope of 180 ° in the opposite direction relative to making the second axle synchronize.
The described synchronous movement device for double rotating shafts, wherein: this display module make the first axle rotate 0 °~
The scope of 180 °, rotates 0 °~the model of 180 ° in the opposite direction relative to making the second axle and body module synchronization
Enclose.
Compared with prior art, the invention have the advantages that:
1. this rotating shaft (including the first axle and the second axle) and associated component structural grouping constitute a synchronization locomotory mechanism,
Considered by overline design;And differ markedly from existing skill and apply multiple pads, friction plate to coordinate spring etc.
The energy accumulation of assembly and the configuration of release.
2. this first and second rotor engagement tractive unit is tightly around the drive mechanism arranged, to provide one to be synchronized with the movement dress
Put, be fitted between display module and body module;Allow that operator Operation display module rotates 0 °~180
° time, body module also relative synchronization rotates 0 °~180 °, and makes display module and the rotation of body module
Angle summation reaches the scope of 360 °.It is to say, described synchronous movement device is by user operation display
Module rotates an angle or scope, can obtain two times of strokes of this rotational angle or scope.Make electronic ware
Possess under conditions of having more kinds of operator scheme (or range of application), it is thus achieved that effect easy and simple to handle.
Further, as existing skill can only allow that user operates the first axle respectively and turns to location, could operate
Second axle rotates, or the situation that during operation, generation noise, assembly collide and pause, and also obtains and significantly improves.
Accompanying drawing explanation
Fig. 1 is the structural representation of the present invention and shell combination;Show first and second axle, first and second turn
Son and the combination situations of tractive unit;
Fig. 2 is the STRUCTURE DECOMPOSITION schematic diagram of the present invention;
Fig. 3 is the present invention first and second rotor and the structural representation of tractive unit combination;
Fig. 4 is the STRUCTURE DECOMPOSITION schematic diagram of Fig. 3;Figure also illustrates tractive unit the first end and the second end around
If situation;
Fig. 5 is the structure cross-sectional schematic of Fig. 3;In figure, imaginary line part depicts display module and body mould
The position of block;
Fig. 6 is an operation embodiment floor map of the present invention;Depict display module and body module turns
Dynamic 90 °, the cooperation situation of first and second axle and first and second rotor;
Fig. 7 is another operation embodiment floor map of the present invention;Depict display module and body module
Rotate 180 °, the cooperation situation of first and second axle and first and second rotor.
Description of reference numerals: 10-the first axle;20-the second axle;The fixing end of 10a, 20a-;10b, 20b-pivot joint
End;11-the first rotor;22-the second rotor;13,23-principal part;14,24-pair portion;40-tractive unit;41-
First end;42-the second end;43,44-canned paragraph;50-fixation kit;90-electronic ware;91-display module;
92-body module;A-body;B-shoulder;C-axis hole;D-groove;E-bolt;F-hole.
Detailed description of the invention
Referring to Fig. 1, Fig. 2 and Fig. 3, the synchronous movement device for double rotating shafts of the present invention includes the first axle
With the second axle;Generally represent with Ref. No. 10,20 respectively.The combination of this first axle 10, second axle 20 sets
Put in a housing 30;First and second axle 10,20 is respectively provided with fixing end 10a, 20a and a pivot end
10b、20b.Fixing end 10a, 20a coordinate fixing seat (figure does not shows), make first and second axle 10,20
Be separately fixed at electronic ware 90(such as, mobile phone, computer ... etc.) display module 91 and body mould
Block 92(numbering is indicated in Fig. 5).
Fig. 1, Fig. 2 and Fig. 3 also show the pivot end 10b synchronous interaction of the first axle 10 the first rotor 11
(can on-line equipment on pivot end 10b, or indirectly priming this pivot end 10b);The pivot end of the second axle 20
20b synchronous interaction have the second rotor 22(can on-line equipment on pivot end 20b, or indirectly this pivot joint of priming
End 20b).It is configured with tractive unit 40 between first and second 4 rotors 11,22;And, described first and second
Rotor 11,22 and tractive unit 40 coordinate fixation kit 50 to combine on the first axle 10 and the second axle 20.
Refer to Fig. 3, Fig. 4, in the embodiment adopted, this first and second rotor 11,22 is a runner
Form, including the principal part 13,23 that can be mutually combined and pair portion 14,24.Principal part 13,23 and pair portion 14,
24 have cylindrical body a and connect the shoulder b being formed on body a.Further, body a width (or
Diameter) less than the width (or diameter) of shoulder b.
Figure depicts principal part 13,23 and pair portion 14,24 also includes axis hole c;The profile of axis hole c is identical
Section configuration in first and second axle pivot end 10b, 20b.Such as, figure shows first and second axle pivot joint
The shape of end 10b, 20b(or axis hole c) is the form of a rectangular cross section;Make axis hole c pivot joint first and second axle
10, pivot end 10b, 20b of 20.Further, the first rotor 11 is made to rotate together with the first axle 10;Second
Rotor 22 rotates together with the second axle 20.Principal part 13,23 and pair portion 14,24 are respectively equipped with a grooves d,
When the combination of major and minor portion 13,23,14,24 forms the first rotor 11 and the second rotor 22, jointly define
Go out an alcove, fix this tractive unit 40 in order to house.
Fig. 4 specifically depict in this embodiment, and this principal part 13,23 is provided with bolt e;Corresponding principal part 13,
The bolt e of 23, pair portion 14,24 is configured with hole f, detains bolt e.Make major and minor portion 13,23,14,24
Combination forms the first rotor 11 and the form of the second rotor 22.Apprehensible, the bolt of this principal part 13,23
E and pair portion 14,24 arrange the form of hole f, are to change or revise.
Refer again to Fig. 3, Fig. 4, tractive unit 40 is one (flexible) cable form, has the first end 41 He
Second end 42.Tractive unit the first end 41 winding is fixed on the body a of the first rotor 11;Second end 42 winding
It is fixed on the body a of the second rotor 22.
In the embodiment adopted, first and second end 41,42 of tractive unit 40 be respectively equipped with a canned paragraph 43,
44;Canned paragraph 43, the 44 straight form of shape, be received the above-mentioned major and minor portion 13 of being fixed on, 23,14,
Inside the alcove that the grooves d of 24 defines, make tractive unit 40(or first and second end 41,42) it is fixed on first
Form on rotor 11 and the second rotor 22.
Referring to Fig. 3, Fig. 4 and Fig. 5, tractive unit 40 is arranged in the form on first and second rotor 11,22
Form the form of one similar " 8 ".Such as, figure shows tractive unit 40(or the first end 41) from first
In rotor 11(figure) the right around the direction being set to second rotor 22 left side;Then, make tractive unit 40(or
Second end 42) on the right of the second rotor 22, rap around to the form of the first rotor 22 left direction.Described joins
Putting form can make the first axle 10 and the second axle 20 produce the form that different directions rotates.
Refer to Fig. 5, it is assumed that display module 91 closes in body module 92;Its angle angle is defined as 0
°.When operator opens display module 91, the first axle 10 is made to drive the first rotor 11 towards the most square in figure
In time rotating, tractive unit 40 pulls the second rotor 22 to force the second axle 20 towards on the contrary (i.e., clockwise)
The direction of the first rotor 11 motion rotates, and makes first and second axle 10,20 produce synchronous axial system form.
Therefore, Fig. 6 shows and makes the first axle 10 rotate counterclockwise to figure when operator opens display module 91
In the position of 90 ° time, first and second rotor 11,22 coordinates the transmission of tractive unit 40, also makes the second axle 20
Synchronize to be rotated clockwise to the position of 90 ° with body module 92;That is, display module 91 and body module 92
Have rotated the scope of 180 ° altogether.Fig. 7 specifically depict Operation display module 91 and rotates counterclockwise in figure 180
° position time, body module 92 synchronizes to be rotated clockwise to the position of 180 °;That is, display module 91 He
Body module 92 have rotated the scope of 360 ° altogether.
It is to say, described synchronous movement device rotates an angle or model by user Operation display module 91
Enclose, two times of strokes of this rotational angle or scope can be obtained;And possessed effect swift to operate.
In a preferred embodiment, it is with first at the first rotor 11 that the length of this tractive unit 40 considers
After axle 10 rotates 180 °, still keep tractive unit 40(or the first end 41) it is wound on the first rotor 11
Length is at least equal to or greater than (the first rotor 11 circumference) 1/2 circle;Or keep tractive unit the second end volume 42
The length being wound on the second rotor 22 is at least equal to or greater than (the second rotor 22 circumference) 1/2 circle.
Must be illustrated, tractive unit 40 is joined tightly around the transmission being arranged on this first and second rotor 11,22
Close structure, produce rotate torsion change situation, be minimized as far as possible, make first and second axle 10,
20 rotate obtains the effect that a motion smoothes out.Further, when the rotating operation power of personnel disappears, i.e. stop
Rotate, form positioning action.
For representational, this has operation to rotate and location is made for the synchronous movement device of double rotating shafts possessing
Under conditions of with, for old law, there is following consideration condition and advantage:
1. this rotating shaft (including the first axle 10 and the second axle 20) and associated component structure (such as, the first rotor
11 and second rotor 22 coordinate the combination in major and minor portion 13,14,23,24, and grooves d is set, altogether
With defining alcove, detain the canned paragraph 43,44 of tractive unit 40;Make first and second rotor 11,22 around
If the cooperation form etc. in fixed traction portion 40) combination composition one synchronization locomotory mechanism, considered by overline design;
And differ markedly from existing skill and apply multiple pads, friction plate coordinate the energy accumulation of the assemblies such as spring and release
The configuration put.
2. this first and second rotor 11,22 cooperation tractive unit 40 is tightly around the drive mechanism arranged, to provide a kind of
Synchronous movement device, is fitted between display module 91 and body module 92;Allow that operator only operates aobvious
Showing when module 91 rotates 0 °~180 °, body module 92 also relative synchronization rotates 0 °~180 °, and makes
The rotational angle summation of display module 91 and body module 92 reaches the scope of 360 °.It is to say, it is described
Synchronous movement device rotate an angle or scope by user Operation display module 91, this angle of rotation can be obtained
Degree or two times of strokes of scope.More kinds of operator scheme (or range of application) is had making electronic ware 90 possess
Under conditions of, it is thus achieved that effect easy and simple to handle.
Further, as existing skill can only allow that user operates the first axle respectively and turns to location, could operate
Second axle rotates, or the situation that during operation, generation noise, assembly collide and pause, and also obtains and significantly improves.
Described above it is merely exemplary for the purpose of the present invention, and nonrestrictive, ordinary skill people
Member understand, in the case of the spirit and scope limited without departing from claim, can many modifications may be made,
Change or equivalence, but within falling within protection scope of the present invention.
Claims (25)
1. the synchronous movement device for double rotating shafts, it is characterised in that including:
With the first rotor of one first axle synchronous interaction and with the second rotor of one second axle synchronous interaction;First
Rotor and the second rotor are respectively provided with a cylindrical body;And
One tractive unit, configuration connects the first rotor and the second rotor, and makes the first rotor and the second rotor synchronize
Motion;
Wherein: this first rotor and the second rotor are the forms of a runner, including the principal part that can be mutually combined
With pair portion;This principal part and pair portion are respectively equipped with a groove, and in major and minor portion, combination forms the first rotor and second
Rotor, and jointly define an alcove, house and fix this tractive unit;First and second end of this tractive unit is respectively
It is provided with a canned paragraph;Canned paragraph shape straight form, is received the recess defining being fixed on major and minor portion
Inside alcove, tractive unit first and second end is made to be separately fixed on the first rotor and the second rotor.
Synchronous movement device for double rotating shafts the most according to claim 1, it is characterised in that: this is first years old
Rotor on-line equipment is in this first axle;This second rotor on-line equipment is in this second axle;And
First axle and the second axle are respectively provided with fixing end and a pivot end;First axle drives the first rotor to rotate
Time, tractive unit pulls the second rotor to rotate towards the direction that contrary the first rotor moves, and makes first and second axle produce
Synchronous axial system form.
Synchronous movement device for double rotating shafts the most according to claim 1, it is characterised in that: this principal part
With pair portion combined by the body that becomes be respectively equipped with shoulder and be installed on the first axle and the axis hole of the second axle.
Synchronous movement device for double rotating shafts the most according to claim 3, it is characterised in that: this body
Width less than the width of shoulder.
Synchronous movement device for double rotating shafts the most according to claim 3, it is characterised in that: this axis hole
Profile be same as the first axle and the section configuration of the second axle pivot end respectively.
Synchronous movement device for double rotating shafts the most according to claim 5, it is characterised in that: this is first years old
The shape of axle and the second axle pivot end and axis hole is the form of a rectangular cross section.
Synchronous movement device for double rotating shafts the most according to claim 1, it is characterised in that: this principal part
It is provided with bolt;The bolt of corresponding principal part, pair portion is configured with hole, detains bolt;Make major and minor portion combination formation the
One rotor and bitrochanteric form.
Synchronous movement device for double rotating shafts the most according to claim 1, it is characterised in that: this principal part
It is provided with hole;The hole of corresponding principal part, pair portion is configured with bolt;The combination of major and minor portion is made to form the first rotor and the
Bitrochanteric form.
Synchronous movement device for double rotating shafts the most according to claim 1, it is characterised in that: this traction
Portion is a flexible cable form, has the first end and the second end;
Tractive unit the first end winding is fixed on the body of the first rotor;And
Second end winding is fixed on bitrochanteric body.
Synchronous movement device for double rotating shafts the most according to claim 2, it is characterised in that: this leads
The portion of drawing is a flexible cable form, has the first end and the second end;
Tractive unit the first end winding is fixed on the body of the first rotor;And
Second end winding is fixed on bitrochanteric body.
11. synchronous movement devices for double rotating shafts according to claim 3, it is characterised in that: this leads
The portion of drawing is a flexible cable form, has the first end and the second end;
Tractive unit the first end winding is fixed on the body of the first rotor;And
Second end winding is fixed on bitrochanteric body.
12. synchronous movement devices for double rotating shafts according to claim 4, it is characterised in that: this leads
The portion of drawing is a flexible cable form, has the first end and the second end;
Tractive unit the first end winding is fixed on the body of the first rotor;And
Second end winding is fixed on bitrochanteric body.
13. synchronous movement devices for double rotating shafts according to claim 1, it is characterised in that: this leads
The form that the portion of drawing is arranged on first and second rotor forms the form of one " 8 " word.
14. synchronous movement devices for double rotating shafts according to claim 2, it is characterised in that: this leads
The form that the portion of drawing is arranged on first and second rotor forms the form of one " 8 " word.
15. synchronous movement devices for double rotating shafts according to claim 1, it is characterised in that: this leads
Portion of drawing on the right of the first rotor around the form being set to the second rotor left side;And, make tractive unit from the second rotor
The right raps around to the form of the first rotor left direction.
16. synchronous movement devices for double rotating shafts according to claim 2, it is characterised in that: this leads
Portion of drawing on the right of the first rotor around the form being set to the second rotor left side;And, make tractive unit from the second rotor
The right raps around to the form of the first rotor left direction.
17. synchronous movement devices for double rotating shafts according to claim 1 and 2, it is characterised in that:
The length of this tractive unit is after the first rotor rotates 180 °, still keeps tractive unit to be wound on the first rotor
Length is at least equal to the 1/2 of the first rotor circumference.
18. synchronous movement devices for double rotating shafts according to claim 1, it is characterised in that: this leads
The length drawing portion is after the second rotor rotates 180 °, still keeps the length that tractive unit is wound on the second rotor
At least equal to the second rotor circumference 1/2.
19. synchronous movement devices for double rotating shafts according to claim 1 and 2, it is characterised in that:
This first axle, the second axle combination are arranged in a housing.
20. synchronous movement devices for double rotating shafts according to claim 2, it is characterised in that: this is years old
One, the fixing end of two axles coordinates fixing seat, makes first and second axle be separately fixed at the display mould of an electronic ware
Block and body module.
21. synchronous movement devices for double rotating shafts according to claim 1 and 2, it is characterised in that:
This first and second rotor and tractive unit coordinate a fixation kit to combine on the first axle and the second axle.
22. synchronous movement devices for double rotating shafts according to claim 1, it is characterised in that: this is years old
One axle makes the first rotor rotate, and the direction that tractive unit makes the second rotor move with contrary the first rotor rotates.
23. synchronous movement devices for double rotating shafts according to claim 1 and 2, it is characterised in that:
This first axle rotates 0 °~the scope of 180 °, rotates 0 °~180 in the opposite direction relative to making the second axle synchronize
° scope.
24. synchronous movement devices for double rotating shafts according to claim 19, it is characterised in that: one shows
Show that module makes the first axle rotate 0 °~the scope of 180 °, relatively make the second axle and a body module synchronization towards phase
Opposite direction rotates 0 °~the scope of 180 °.
25. synchronous movement devices for double rotating shafts according to claim 20, it is characterised in that: this shows
Show that module makes the first axle rotate 0 °~the scope of 180 °, relatively make the second axle and body module synchronization towards on the contrary
Direction rotates 0 °~the scope of 180 °.
Priority Applications (1)
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CN201310129990.4A CN104100629B (en) | 2013-04-15 | 2013-04-15 | Synchronous movement device for double rotating shafts |
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CN201310129990.4A CN104100629B (en) | 2013-04-15 | 2013-04-15 | Synchronous movement device for double rotating shafts |
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CN104100629B true CN104100629B (en) | 2016-09-28 |
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CN201310129990.4A Expired - Fee Related CN104100629B (en) | 2013-04-15 | 2013-04-15 | Synchronous movement device for double rotating shafts |
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CN104847856A (en) * | 2015-05-20 | 2015-08-19 | 苏州富齐林科技有限公司 | Synchronous transmission device with double rotating shafts |
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CN203239749U (en) * | 2013-04-15 | 2013-10-16 | 富世达股份有限公司 | Synchronous motion device for double rotating shafts |
CN203239748U (en) * | 2013-02-08 | 2013-10-16 | 富世达股份有限公司 | Synchronous movement device with double rotating shafts |
CN103982532A (en) * | 2013-02-08 | 2014-08-13 | 富世达股份有限公司 | Combined device of double-rotating-shaft synchronous movement device |
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CN203202002U (en) * | 2013-02-08 | 2013-09-18 | 富世达股份有限公司 | Combined device of double-rotating-shaft synchronous movement device |
CN203214574U (en) * | 2013-02-08 | 2013-09-25 | 富世达股份有限公司 | Rotating shaft transmission structure |
CN203239748U (en) * | 2013-02-08 | 2013-10-16 | 富世达股份有限公司 | Synchronous movement device with double rotating shafts |
CN103982534A (en) * | 2013-02-08 | 2014-08-13 | 富世达股份有限公司 | Rotating shaft transmission structure |
CN103982532A (en) * | 2013-02-08 | 2014-08-13 | 富世达股份有限公司 | Combined device of double-rotating-shaft synchronous movement device |
CN103982533A (en) * | 2013-02-08 | 2014-08-13 | 富世达股份有限公司 | Synchronous movement device with double rotating shafts |
CN203239749U (en) * | 2013-04-15 | 2013-10-16 | 富世达股份有限公司 | Synchronous motion device for double rotating shafts |
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