CN205639268U - Hinge of utensil transmission function - Google Patents
Hinge of utensil transmission function Download PDFInfo
- Publication number
- CN205639268U CN205639268U CN201620305016.8U CN201620305016U CN205639268U CN 205639268 U CN205639268 U CN 205639268U CN 201620305016 U CN201620305016 U CN 201620305016U CN 205639268 U CN205639268 U CN 205639268U
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- drive
- axostylus axostyle
- mandrel
- connecting piece
- moving member
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Abstract
The utility model provides a hinge of utensil transmission function, it includes a first mandrel, a first connection piece and a drive mechanism, this first mandrel rigid coupling in support, this drive mechanism just forms a moving member of interlock on locating this support, one follows a moving plate and a crank, this first connection piece is equipped with 1 the 1st cam structure with this moving member axial, locate a spring between this moving member and this support in addition, a rotating cam spare and the mutual butt of a stationary cam spare or the axial displacement's that the joint leads to the fact distance through a cam mechanism, in order to drive this moving member axial displacement, make this moving member drive this follow moving plate and the corresponding removal of this crank production in step, so that this mechanical component who drives in this electron device forms the displacement function along with the rotation of this first connection piece.
Description
Technical field
This case is relevant a kind of hinge, a kind of hinge having transmission agency.
Background technology
Cover-lifting type electronic device, such as notebook computer or tablet PC are equipped with pivot device,
Screen can be made to open relative to body or cover by the setting of this pivot device.Known pivot device is mostly
Single axle designs, and it includes a pin joint seat being fixed on screen of electronic device, and this pin joint seat is provided with one
The circular shaft bore worn for a mandrel, this mandrel separately includes that fixing seat is fixed on the basis of electronic installation
Body.By this pin joint seat relative to this central axis so that screen is opened relative to body or covers
Close.Although single axle pivot device itself can accomplish the rotation of 360 degree, but it is limited to screen and body
Outward appearance housing design so that screen shell and body housing interfere with each other when being opened into 180 degree, nothing
Method allows screen be formed with body can touch control type operation or the stacked kenel of gripping.
For providing screen or the convenience of body operation, relevant dealer develops biaxial linkage type hinge
Device, this pivot device is sheathed in two mandrels respectively by two pitch wheels, and this two mandrel is respectively
It is fixed on screen and the body of electronic installation, makes screen can pass through this two tooth when opening with body or cover
Take turns and do not interfere with one another more than 180 degree to upset, to be prone to touch control type operation or convenient gripping.Gu
Right aforementioned double-shaft linked pivot device has screen or body anglec of rotation stroke halves, and can form two
Effect of times anglec of rotation stroke, and actually reach the convenience demand saving time and operating.But, when
The key input unit of body overturns more than 180 degree, that is user is when carrying out the touch control operation of screen,
This key input unit is easily by false touch, and causes the puzzlements such as input error.
Therefore, how to allow screen overturn more than a default angle, such as, after 180 degree, one can be promoted
Drive mechanism start, makes the keyboard frame of the key input unit of this electronic installation rise, makes multiple button
Submerge in this keyboard frame, to form the function of this key input unit of temporary interruption, be to be correlated with dealer urgently
Problem to be improved.
Utility model content
This case main purpose is to provide a kind of hinge having transmission agency, and it has a connecting piece and
Mandrel, this connection sheet overturns more than a predetermined angle relative to this mandrel, such as after 180 degree, can
Promote a drive mechanism start, make the keyboard frame of the key input unit of this electronic installation rise, make many
Individual button submerges in this keyboard frame, to form the function of this key input unit of temporary interruption, can keep away
Exempt from user's puzzlement of touch of key-press by accident under non-keyboard input state.
For reaching aforesaid purpose, the technological means that this case is taked is to provide a kind of has transmission agency
Hinge, it includes an a connecting piece, and it is axially arranged with a rotary cam member;One first mandrel, its
Axially having first axostylus axostyle wearing this rotary cam member, and radially tipping one support, this support is opened
If at least one first axial groove, one second axial groove and a radial slot;And a drive mechanism, its bag
Including a moving member wearing this at least one first axial groove with at least one first alignment pin, one with one second
Alignment pin wears this second axial groove and is articulated in the driven disc on this support, and this driven disc first end is even
Being connected to this moving member, the second end is then with the coaxially connected crank one end of this second alignment pin, and this crank is also
Being articulated on this support, the second end is then hinged with an actuator stretched out by this radial slot;Another by a spring
It is located between this moving member and this support, and this moving member is axially arranged with one and adjoins this rotary cam member
Fixing cam member;When this connecting piece rotates with this first axostylus axostyle, this fixing cam member i.e. along
The axial displacement of this rotary cam member, makes this spring release energy or accumulation of energy, to promote this moving member displacement, and
Promoting this driven disc to rotate, this driven disc then promotes this crank to rotate, and makes this actuator in this radial slot
Intrinsic displacement.
It has farther included one second mandrel and an interlinked mechanism, and this second mandrel axially has wears
If second axostylus axostyle of this connecting piece;This interlinked mechanism includes the first biography being located at this first axostylus axostyle
Driving wheel, and one be located at this second axostylus axostyle and form, with this first drive surface, the second transmission of contacting
Wheel, this first drive and the second drive are gear;When this second mandrel rotates, this is second years old
Drive can carry out planetary motion around this first drive, and drives this connecting piece to rotate.
It has farther included one second mandrel and an interlinked mechanism, and this second mandrel axially has wears
If second axostylus axostyle of this connecting piece;This interlinked mechanism includes the first biography being located at this first axostylus axostyle
Driving wheel, one is located at the second drive of this second axostylus axostyle, and a relaying drive, this relaying transmission
Wheel is formed with this first drive surface and this second drive surface respectively and contacts, this first transmission
Wheel, this second drive and this relaying drive are gear;When this second central axis, this is years old
Two drives drive this relaying drive to rotate, and synchronize to rotate around this first drive, to drive
This connecting piece rotates.
After wherein this first axostylus axostyle and this second axostylus axostyle wear at least one flexible member respectively, more each tie
Unification end seal part;Wherein this first axostylus axostyle enters one between this first drive and this at least one flexible member
Walk through at least one second one second lower shaft hole connecting sheet;And this second axostylus axostyle is in this second drive
With further pass through this at least one second one second upper shaft hole being connected sheet between this at least one flexible member,
Make this first drive and this second drive between this connecting piece and this at least one second company
Between contact pin.
Wherein this second connection sheet is axially arranged with at least one fin supplying this relaying drive pivot joint, and
One pivot wearing this at least one fin and this relaying drive.
Wherein said flexible member is multiple shell fragment or at least one spring.
In wherein this spring is installed in the storage tank that this moving member is axially offered, this support then has
One is located in this storage tank and abuts the contact piece of this spring one end.
Wherein this driven disc first end is connected to this first alignment pin.
For reaching aforesaid purpose, another technological means that this case is taked is to provide a kind of tool transmission merit
Can hinge, it includes an a connecting piece, and it is axially arranged with a rotary cam member, this rotation cam
Part outer peripheral face ring sets a guide groove, and it is trapezoidal that this guide groove is provided with one between one first recess and one second recess
Shape protuberance;One first mandrel, it axially has first axostylus axostyle wearing this rotary cam member, and footpath
To being hinged with a support, this support offers at least one first axial groove, one second axial groove and a radial slot;
And a drive mechanism, it includes that one wears this at least one first axial groove with at least one first alignment pin
Moving member, one with one second alignment pin wear this second axial groove and be articulated on this support driven
Sheet, this driven disc first end is connected to this moving member, and the second end is then coaxially connected with this second alignment pin
One crank one end, this crank is also articulated on this support, and the second end is then hinged with one and is stretched out by this radial slot
Actuator;Radially project one stretches into the guide pillar in this guide groove to this moving member, and this moving member axially sets
There is a fixing cam member adjoining this rotary cam member;When this connecting piece rotates with this first axostylus axostyle
Time, this fixing cam member, i.e. along the axial displacement of this rotary cam member, makes this guide pillar first recessed along this
Portion, this protuberance and this second recess move, and to promote this moving member displacement, and promote this driven disc to revolve
Turning, this driven disc then promotes this crank to rotate, and makes this actuator in this radial slot intrinsic displacement.
It has farther included one second mandrel and an interlinked mechanism, and this second mandrel axially has wears
If second axostylus axostyle of this connecting piece;This interlinked mechanism includes the first biography being located at this first axostylus axostyle
Driving wheel, and one be located at this second axostylus axostyle and form, with this first drive surface, the second transmission of contacting
Wheel, this first drive and the second drive are gear;When this second mandrel rotates, this is second years old
Drive can carry out planetary motion around this first drive, and drives this connecting piece to rotate.
It has farther included one second mandrel and an interlinked mechanism, and this second mandrel axially has wears
If second axostylus axostyle of this connecting piece;This interlinked mechanism includes the first biography being located at this first axostylus axostyle
Driving wheel, one is located at the second drive of this second axostylus axostyle, and a relaying drive, this relaying transmission
Wheel is formed with this first drive surface and this second drive surface respectively and contacts, this first transmission
Wheel, this second drive and this relaying drive are gear;When this second central axis, this is years old
Two drives drive this relaying drive to rotate, and synchronize to rotate around this first drive, to drive
This connecting piece rotates.
After wherein this first axostylus axostyle and this second axostylus axostyle wear at least one flexible member respectively, more each tie
Unification end seal part;Wherein this first axostylus axostyle enters one between this first drive and this at least one flexible member
Walk through at least one second one second lower shaft hole connecting sheet;And this second axostylus axostyle is in this second drive
With further pass through this at least one second one second upper shaft hole being connected sheet between this at least one flexible member,
Make this first drive and this second drive between this connecting piece and this at least one second company
Between contact pin.
Wherein this second connection sheet is axially arranged with at least one fin supplying this relaying drive pivot joint, and
One pivot wearing this at least one fin and this relaying drive.
Wherein said flexible member is multiple shell fragment or at least one spring.
Wherein this driven disc first end is connected to this first alignment pin.
It farther includes a spring being located between this moving member and this support.
In wherein this spring is installed in the storage tank that this moving member is axially offered, this support then has
One is located in this storage tank and abuts the contact piece of this spring one end.
The beneficial effects of the utility model are, its can avoid user under non-keyboard input state false touch by
The puzzlement of key.
Accompanying drawing explanation
For disclosing further the concrete technology contents of the present invention, below in conjunction with embodiment and accompanying drawing specifically
Bright as after, wherein:
Fig. 1 is the three-dimensional exploded view of this case hinge first embodiment;
Fig. 2 be this case hinge first embodiment group vertical after in storage angle (0 degree) time axonometric chart;
Fig. 3 be this case hinge first embodiment group vertical after in storage angle (0 degree) time top view;
Fig. 4 is that this case hinge first embodiment overturns to axonometric chart time predetermined angle (180 degree);
Fig. 5 is that this case hinge first embodiment overturns to top view time predetermined angle (180 degree);
Fig. 6 and Fig. 7 is the partial perspective exploded view of this case hinge the second embodiment two different visual angles;
Fig. 8 is the plane outspread drawing of this case guide groove;
Fig. 9 be this case hinge the second embodiment group vertical after in storage angle (0 degree) time axonometric chart;
Figure 10 be this case hinge the second embodiment group vertical after in storage angle (0 degree) time top view;
Figure 11 is that this case hinge the second embodiment overturns to top view time predetermined angle (180 degree);With
And
Figure 12 is that this case hinge the second embodiment overturns to vertical view time another predetermined angle (360 degree)
Figure.
Detailed description of the invention
As shown in Figures 1 to 5, substantially, the hinge of this case tool transmission agency includes one first mandrel
1, a connecting piece 2, drive mechanism 3, and one second mandrel 4.
It is non-circular first axostylus axostyle 11 that this first mandrel 1 axially has a section, this first axostylus axostyle one
End passes through the bevelled rotary cam member 21 of tool of this connecting piece 2, and by one first connecting portion
12 are radially fixed in a support 13, and multiple fixing hole 131 offered by this support 13, in order to for known company
Fitting, such as screw pass through described fixing hole 131, and are locked in an electronic installation, such as notebook
The body of type computer (known illustrated).This first axostylus axostyle 11 other end wears at least one
After two circle the second lower shaft hole 51, at least flexible members 14 connecting sheet 5, and by this first axle
The free end of bar 11 combines one end sealing 15.
This end seal part 15 includes an abutting pad 151 interlocked with this first axostylus axostyle 11.This first axle
When bar 11 is implemented, its free end is provided with screw thread, then for Anti-releasing nut when therefore this end seal part 15 is implemented.
Furthermore, can be multiple shell fragment 141 or a spring (not shown) when this flexible member 14 is implemented, described
Shell fragment 141 respectively has a circular hole 142 worn for this first axostylus axostyle 11, and described shell fragment 141 has
Cambered surface, and the cambered surface of described shell fragment 141 is overlapped in the way of positive and negative is staggered, to be formed preferably
Elastic.
It is non-circular second axostylus axostyle 41 that this second mandrel 4 axially has a section, this second axostylus axostyle one
After end passes through one first upper shaft hole 22 of this connecting piece 2, and by one second connecting portion 42 for
Knowing connector, such as screw passes through and is locked in the screen of an electronic installation, such as notebook computer
Curtain (known illustrated).This second axostylus axostyle 41 other end wears this at least one second connection sheet 5
Circle the second upper shaft hole 52, an at least flexible member 43 after, and by the freedom of this second axostylus axostyle 41
End combines one end sealing 44.
This end seal part 44 includes an abutting pad 441 interlocked with this second axostylus axostyle 41.This second axle
When bar 41 is implemented, its free end is provided with screw thread, then for Anti-releasing nut when therefore this end seal part 44 is implemented.
Furthermore, can be multiple shell fragment 431 or a spring (not shown) when this flexible member 43 is implemented, described
Shell fragment 431 respectively has a circular hole 432 worn for this second axostylus axostyle 41, and described shell fragment 431 has
Cambered surface, and the cambered surface of described shell fragment 431 is overlapped in the way of positive and negative is staggered, to be formed preferably
Elastic.
And adjacent described second connect be each provided with between sheet 5 one for this first axostylus axostyle 11 wear with
The lower spacing washer 53 interlocked, and a upper spacing washer wearing for this second axostylus axostyle 41 and interlocking
54。
Interlock for making this first mandrel 1 be formed with this second mandrel 4, therefore, this first mandrel 1 with
This second mandrel 4 is provided with an interlinked mechanism, and this interlinked mechanism includes be located at this first mandrel 1
One drive 16, and one be located at this second mandrel 4 and with this first drive 16 formed contact,
The second drive 45 such as engaged, this second drive 45 can be carried out around this first drive 16
Planetary motion, to form the function that twin shaft interlocks.Furthermore, this first drive 16 is tooth when implementing
Take turns and be shaped in this first mandrel 1, and also for gear one when this second drive 45 is implemented
Take shape in this second mandrel 4.Additionally, this first drive 16 is in this second drive 45
Between this connecting piece 2 and this adjacent the second connection sheet 5.
Especially, this interlinked mechanism is except including this first drive interlocked with this first axostylus axostyle 11
16 and this second drive 45 of interlocking with this second axostylus axostyle 41 outside, and farther include a relaying
Drive 55, this relaying drive 55, such as gear are located at this first drive 16 and this second biography
Between driving wheel 45 and form contact, to form continuous action relation.Therefore, rotate when this second mandrel 4
Time, this second drive 45 drives this relaying drive 55 to rotate, and makes this relaying drive 55
Synchronize rotate around this first drive 16, in order to can drive this connecting piece 2 and this at least one
Second connects sheet 5 with this first mandrel 1 as axle center and synchronous rotary.
For making this relaying drive 55 be positioned, therefore, this relaying drive 55 adjacent this
Two connect sheet 5 is axially arranged with at least one fin 56 supplying this relaying drive 55 pivot joint, and one wears
If this at least one fin 56 and the pivot 57 of this relaying drive 55.
Drive mechanism 3 includes that one can form the moving member 31 moved axially, this shifting on this support 13
Moving part 31 adjoins this rotary cam member 21 and is provided with a bevelled fixing cam member 32 of tool, and this rotation is convex
Gear member 21 and this fixing cam member 32 together form one first cam structure.Refer to Fig. 2, wherein
One cam member, the such as side face of rotary cam member 21 project a stop part 211, with as raising angle
Terminating point, and this rotary cam member 21 can be reduced along during this fixing cam member 32 axial-rotation
Frictional force.
This moving member 31 is provided with a frame groove 311 worn for this support 13 side, and with at least one the
One alignment pin 312 passes in one first axial groove 132 of this support 13, and is fixed in this moving member
31 so that this moving member 31 can form axially-movable on this support 13.In order at this electronic installation
Basis internal, with in response to assembling space axial dimension limit, this moving member 31 is axially additionally provided with one
For the storage tank 313 of spring 33 installing, wherein this spring 33 be not disposed on this first mandrel 1
On, thus have and conveniently replace, protect and prevent to disturb spring 33 start.And this support 13 has
In one is located at this storage tank 313 and abut the contact piece 133 of this spring 33 one end, make this spring 33
Two ends are each connected to this storage tank 313 and this contact piece 133, so that this moving member 31 is at this support
Axial elasticity displacement it is able on 13.
Drive mechanism 3 separately includes a driven disc 34 being articulated on this support 13, this driven disc 34
First end is connected to this moving member 31, such as, be socketed on this first alignment pin 312, and this driven disc 34
Second end then connects crank 35 first end being also articulated on this support 13, this driven disc 34
Two ends and this crank 35 first end are socketed on one second axial groove being positioned at this support 13 coaxially
The second alignment pin 341 in 134, this crank 35 second end is then provided with one and puts in this support 13
Actuator 351 in one radial slot 135.Wherein, this driven disc 34 is articulated in the one of this support 13
First fulcrum 136, and this crank is articulated in one second fulcrum 137 of this support 13.
When this actuator 351 moves to a second position from a primary importance of this radial slot 135,
This actuator 351 will drive this intrinsic mechanism member of this electronic installation, such as keyboard frame with
The rotation of this second mandrel 4 and produce displacement.
As shown in Figures 2 and 3, it is the axonometric chart after this hinge first embodiment group is stood and top view,
(in figure 3, illustrating for convenience, this is the years old for this second mandrel 4 and this first mandrel 1 keeping parallelism
Two connecting portions 42 are represented by dotted lines), this i.e. represents this electronic installation, such as notebook computer
Screen is in, with the body comprising key input unit, the state of covering.Now, this connecting piece 2
The fixing cam member 32 of this rotary cam member 21 and this moving member 31 is in not operating of axially backing down
State, makes this moving member 31 be in a primary importance of this support 13, such as right side, this spring
33 are compressed by the end of this storage tank 313, and in energy accumulating state.This moving member 31 and this driven disc
This first alignment pin 312 of 34 first ends is positioned at a primary importance of this first axial groove 132, such as
Right-hand member;This driven disc 34 second end is positioned at this with this second alignment pin 341 of this crank 35 first end
One second position of the second axial groove 134, such as left end;And this of this crank 35 second end is actuated
Part 351 is then positioned at a primary importance of this radial slot 135, such as upper end.
As shown in Figure 4 and Figure 5, when user overturns the screen of this electronic installation, this second mandrel 4
Generation is rotated clockwise, and makes this second drive 45 drive this relaying driving wheel 55 to rotate, in this
The drive 55 that continues then carries out planetary motion around this first drive 16, and drives this connecting piece
2 and this at least one second connect sheet 5 rotate, make this rotary cam member 21 along this fixing cam member
32 rotate, until this second mandrel 4 rotates to a predetermined angle relative to this first mandrel 1, such as
After 90 degree, i.e. represent this screen and revolve turnback relative to this body.Now, this fixing cam member
32, along with the rotation of this rotary cam member 21, and are increasingly towards this rotary cam member 21 and move with shape
Become docking, make this spring 33 release energy, and promote this moving member 31 to move axially on this support 13
To a second position, such as left side, thus make this first alignment pin 312 move to this first axial groove
One second position of 132, such as left end, and promote this driven disc 34 second end counterclockwise to rotate,
And make this second alignment pin 341 move the primary importance to this second axial groove 134, such as right-hand member,
And promote this crank 35 second end to be rotated clockwise, make this actuator 351 move to this radial direction
One second position of groove 135, such as lower end.
Such as the correlative type that Fig. 6 to Figure 12 is this case hinge the second embodiment.This second embodiment phase
Compared with first embodiment, identical label (symbol) is in order to represent identical component, second real due to this
Execute example and share many components shared with this first embodiment, thus only give at both difference in detail
Bright in rear.
Referring to Fig. 6 and Fig. 7, this second embodiment is seek drawing succinct, and it is by this first heart
Axle 1, this second mandrel 4 and this at least one second connection sheet 5 are combined into a cell cube, and another is single
Unit's body then includes the drive mechanism 3 being installed on this support 13.
This connecting piece 2 and this moving member 31 differ from being technically characterized in that of this first embodiment,
This rotary cam member 21 outer peripheral face ring sets a guide groove 23, and this moving member 31 radial direction projects one and stretches into this
Guide pillar 36 in guide groove 23.As shown in Figure 8, this guide groove 23 is at one first recess 231 and one second
A trapezoidal shape protuberance 233 it is provided with between recess 232.This guide pillar 36 together forms one with this guide groove 23
Second cam structure, therefore, when this connecting piece 2 rotates, this guide pillar 36 i.e. along this
One recess 231, this protuberance 233 and this second recess 232 move, to promote this moving member 31 at this
Move axially on support 13, so this second cam structure can replace the bullet shown in this first embodiment
Spring.
As shown in FIG. 9 and 10, it is the axonometric chart after this hinge the second embodiment group is stood and top view,
(in Fig. 10, illustrating for convenience, this is the years old for this second mandrel 4 and this first mandrel 1 keeping parallelism
Two connecting portions 42 are represented by dotted lines), this i.e. represents this electronic installation, such as notebook computer
Screen is in, with the body comprising key input unit, the state of covering.Now, this connecting piece 2
The fixing cam member 32 of this rotary cam member 21 and this moving member 31 is in not operating of axially backing down
State, makes this moving member 31 be in a primary importance of this support 13, such as right side, and this is led
Post 36 is then positioned at this first recess 231 of this guide groove 23.This moving member 31 and this driven disc 34
This first alignment pin 312 of first end is positioned at a primary importance of this first axial groove 132, such as right
End;This second alignment pin 341 of this driven disc 34 second end and this crank 35 first end be positioned at this
One second position of two axial grooves 134, such as left end;And this actuator of this crank 35 second end
351 primary importances being positioned at this radial slot 135, such as upper end.
As shown in figure 11, when user overturns the screen of this electronic installation, this second mandrel 4 produces
Being rotated clockwise, make this second drive 45 drive this relaying driving wheel 55 to rotate, this relaying passes
Driving wheel 55 then carries out planetary motion around this first drive 16, and drive this connecting piece 2 and
This at least one second connection sheet 5 rotates, and makes this rotary cam member 21 revolve along this fixing cam member 32
Turn, until this second mandrel 4 rotates to a predetermined angle relative to this first mandrel 1, such as 90
After degree, i.e. represent this screen and revolve turnback relative to this body.Now, this fixing cam member 32
Along with this rotary cam member 21 rotates, and it is increasingly towards this rotary cam member 21 and moves to form docking,
Make this guide pillar 36 move to this protuberance 233 along this first recess 231, and promote this moving member 31
On this support 13, move axially to a second position, such as left side, thus make this first alignment pin
312 move the second position to this first axial groove 132, such as left end, and promote this driven disc
34 second ends counterclockwise rotate, and make this second alignment pin 341 move to this second axial groove
One primary importance of 134, such as right-hand member, and promote this crank 35 second end to be rotated clockwise,
This actuator 351 is made to move the second position to this radial slot 135, such as lower end.
As shown in figure 12, when user continues the screen overturning this electronic installation, this second mandrel 4
Generation is rotated clockwise, and makes this second drive 45 drive this relaying driving wheel 55 to rotate, in this
The drive 55 that continues then carries out planetary motion around this first drive 16, and drives this connecting piece
2 and this at least one second connect sheet 5 rotate, make this rotary cam member 21 along this fixing cam member
32 rotate, until this second mandrel 4 rotates to a predetermined angle relative to this first mandrel 1, such as
After 180 degree, i.e. represent this screen relative to this body rotating 360 degrees.Now, this fixing cam member
32 rotate along with this rotary cam member 21, and this rotary cam member 21 moves to form axle the most dorsad
To backing down kenel, make this guide pillar 36 move to this second recess 232 along this protuberance 233, and promote
This moving member 31 moves axially to this primary importance, such as right side on this support 13, thus order should
First alignment pin 312 moves this primary importance to this first axial groove 132, such as right-hand member, and pushes away
This driven disc 34 second end dynamic is rotated clockwise, and makes this second alignment pin 341 move to this
This second position of second axial groove 134, such as left end, and promote this crank 35 second end inverse time
Pin direction rotates, and makes this actuator 351 move this primary importance to this radial slot 135, such as, goes up
End.
It is true that the moving member 31 of this second embodiment also must arrange this spring 33 and this spring accommodating
The storage tank 313 of 33, this support 13 is then provided with this contact piece 133 stretched in this storage tank 313,
To assist the axial reciprocating displacement of this moving member 31.Especially, if this guide pillar 36 is because of fracture failure
Time, then the function of the axial reciprocating displacement of this moving member 31 is provided by this spring 33.
In above-mentioned two embodiment, the needs of visual practical situation, such as, move when this actuator 351
During to the second position of this radial slot 135, the body internal keyboard input block of this electronic installation will be driven
Mechanism member, such as keyboard frame rises, and makes multiple button submerge in this keyboard frame, to form temporarily resistance
The function of this key input unit disconnected, can avoid user's touch of key-press by accident under non-keyboard input state
Puzzlement.Another when this actuator 351 moves the primary importance to this radial slot 135, then this mechanism member
Drive this keyboard frame to decline, and recover the function of this key input unit;Otherwise, also can with this radially
The primary importance of groove 135 and the second position drive this keyboard frame to rise respectively as this actuator 351 and
The default location declined.
So, via the enforcement of this case, effect of its gain is, this first mandrel, this second
Mandrel and this connecting piece have twin shaft linkage function, and this first mandrel is fixed in this support, this biography
Motivation structure includes being located on this support and formed this moving member, this driven disc and this crank interlocked, should
A connecting piece and this moving member are axially arranged with this first cam structure, and this moving member is located at by this spring
And between this support, by the phase of the fixing cam member of this rotary cam member and this of this first cam mechanism
Abut mutually or engage and caused the distance change moved axially, to drive this moving member to move axially, make
It is corresponding mobile that this moving member synchronizes to drive this driven disc and this crank to produce, in order to drives this electronics to fill
Put this interior mechanism member and form displacement function along with this second mandrel and the rotation of this connecting piece,
Can be rated as the big good structure that ware is not seen before.
Disclosed in this case, be the one of preferred embodiment, change or the modification of every local and come from
The technological thought of this case and by being familiar with what the people of this technology was prone to deduce, the most do not take off the right of this case
Require category.
Claims (19)
1. the hinge having transmission agency, it is characterised in that comprising:
One a connecting piece, it is axially arranged with a rotary cam member;
One first mandrel, it axially has first axostylus axostyle wearing this rotary cam member, and radial direction is hinged with a support, and this support offers at least one first axial groove, one second axial groove and a radial slot;And
One drive mechanism, it includes that one wears the moving member of this at least one first axial groove with at least one first alignment pin, one wears this second axial groove with one second alignment pin and is articulated in the driven disc on this support, this driven disc first end is connected to this moving member, second end is then with the coaxially connected crank one end of this second alignment pin, this crank is also articulated on this support, and the second end is then hinged with an actuator stretched out by this radial slot;Separately a spring is located between this moving member and this support, and this moving member is axially arranged with a fixing cam member adjoining this rotary cam member;
When this connecting piece rotates with this first axostylus axostyle, this fixing cam member is i.e. along the axial displacement of this rotary cam member, this spring is made to release energy or accumulation of energy, to promote this moving member displacement, and promote this driven disc to rotate, this driven disc then promotes this crank to rotate, and makes this actuator in this radial slot intrinsic displacement.
2. the hinge having transmission agency as claimed in claim 1, it is characterised in that it has farther included one second mandrel and an interlinked mechanism, and this second mandrel axially has second axostylus axostyle wearing this connecting piece;This interlinked mechanism includes the first drive being located at this first axostylus axostyle, and one is located at this second axostylus axostyle and forms, with this first drive surface, the second drive contacted, and this first drive and the second drive are gear;When this second mandrel rotates, this second drive can carry out planetary motion around this first drive, and drives this connecting piece to rotate.
3. the hinge having transmission agency as claimed in claim 1, it is characterised in that it has farther included one second mandrel and an interlinked mechanism, and this second mandrel axially has second axostylus axostyle wearing this connecting piece;This interlinked mechanism includes the first drive being located at this first axostylus axostyle, one the second drive being located at this second axostylus axostyle, and one relaying drive, this relaying drive is formed with this first drive surface and this second drive surface respectively and contacts, and this first drive, this second drive and this relaying drive are gear;When this second central axis, this second drive drives this relaying drive to rotate, and synchronizes to rotate around this first drive, to drive this connecting piece to rotate.
4. the hinge having transmission agency as claimed in claim 2, it is characterised in that after wherein this first axostylus axostyle and this second axostylus axostyle wear at least one flexible member respectively, more each combine one end sealing;Wherein this first axostylus axostyle further passs through at least one second one second lower shaft hole being connected sheet between this first drive with this at least one flexible member;And this second axostylus axostyle further passs through this at least one second one second upper shaft hole being connected sheet between this second drive with this at least one flexible member so that this first drive and this second drive at least one second are connected between sheet with this between this connecting piece.
5. the hinge having transmission agency as claimed in claim 3, it is characterised in that after wherein this first axostylus axostyle and this second axostylus axostyle wear at least one flexible member respectively, more each combine one end sealing;Wherein this first axostylus axostyle further passs through at least one second one second lower shaft hole being connected sheet between this first drive with this at least one flexible member;And this second axostylus axostyle further passs through this at least one second one second upper shaft hole being connected sheet between this second drive with this at least one flexible member so that this first drive and this second drive at least one second are connected between sheet with this between this connecting piece.
6. the as claimed in claim 5 hinge having transmission agency, it is characterised in that wherein this second connects sheet and be axially arranged with at least for the fin of this relaying drive pivot joint, and a pivot wearing this at least one fin and this relaying drive.
7. the hinge of the tool transmission agency as described in claim 4 or 5, it is characterised in that wherein said flexible member is multiple shell fragment or at least one spring.
8. the as claimed in claim 1 hinge having transmission agency, it is characterised in that in wherein this spring is installed in the storage tank that this moving member is axially offered, this support then have be located at this storage tank in and abut the contact piece of this spring one end.
9. the hinge having transmission agency as claimed in claim 1, it is characterised in that wherein this driven disc first end is connected to this first alignment pin.
10. the hinge having transmission agency, it is characterised in that comprising:
One a connecting piece, it is axially arranged with a rotary cam member, and this rotary cam member outer peripheral face ring sets a guide groove, and this guide groove is provided with a trapezoidal shape protuberance between one first recess and one second recess;
One first mandrel, it axially has first axostylus axostyle wearing this rotary cam member, and radial direction is hinged with a support, and this support offers at least one first axial groove, one second axial groove and a radial slot;And
One drive mechanism, it includes that one wears the moving member of this at least one first axial groove with at least one first alignment pin, one wears this second axial groove with one second alignment pin and is articulated in the driven disc on this support, this driven disc first end is connected to this moving member, second end is then with the coaxially connected crank one end of this second alignment pin, this crank is also articulated on this support, and the second end is then hinged with an actuator stretched out by this radial slot;Radially project one stretches into the guide pillar in this guide groove to this moving member, and this moving member is axially arranged with a fixing cam member adjoining this rotary cam member;
When this connecting piece rotates with this first axostylus axostyle, this fixing cam member is i.e. along the axial displacement of this rotary cam member, this guide pillar is made to move along this first recess, this protuberance and this second recess, to promote this moving member displacement, and promote this driven disc to rotate, this driven disc then promotes this crank to rotate, and makes this actuator in this radial slot intrinsic displacement.
11. hinges having transmission agency as claimed in claim 10, it is characterised in that it has farther included one second mandrel and an interlinked mechanism, and this second mandrel axially has second axostylus axostyle wearing this connecting piece;This interlinked mechanism includes the first drive being located at this first axostylus axostyle, and one is located at this second axostylus axostyle and forms, with this first drive surface, the second drive contacted, and this first drive and the second drive are gear;When this second mandrel rotates, this second drive can carry out planetary motion around this first drive, and drives this connecting piece to rotate.
12. hinges having transmission agency as claimed in claim 10, it is characterised in that it has farther included one second mandrel and an interlinked mechanism, and this second mandrel axially has second axostylus axostyle wearing this connecting piece;This interlinked mechanism includes the first drive being located at this first axostylus axostyle, one the second drive being located at this second axostylus axostyle, and one relaying drive, this relaying drive is formed with this first drive surface and this second drive surface respectively and contacts, and this first drive, this second drive and this relaying drive are gear;When this second central axis, this second drive drives this relaying drive to rotate, and synchronizes to rotate around this first drive, to drive this connecting piece to rotate.
13. hinges having transmission agency as claimed in claim 11, it is characterised in that after wherein this first axostylus axostyle and this second axostylus axostyle wear at least one flexible member respectively, more each combine one end sealing;Wherein this first axostylus axostyle further passs through at least one second one second lower shaft hole being connected sheet between this first drive with this at least one flexible member;And this second axostylus axostyle further passs through this at least one second one second upper shaft hole being connected sheet between this second drive with this at least one flexible member so that this first drive and this second drive at least one second are connected between sheet with this between this connecting piece.
14. hinges having transmission agency as claimed in claim 12, it is characterised in that after wherein this first axostylus axostyle and this second axostylus axostyle wear at least one flexible member respectively, more each combine one end sealing;Wherein this first axostylus axostyle further passs through at least one second one second lower shaft hole being connected sheet between this first drive with this at least one flexible member;And this second axostylus axostyle further passs through this at least one second one second upper shaft hole being connected sheet between this second drive with this at least one flexible member so that this first drive and this second drive at least one second are connected between sheet with this between this connecting piece.
15. hinges having as claimed in claim 14 transmission agencies, it is characterised in that wherein this second connects sheet and be axially arranged with at least one for the fin of this relaying drive pivot joint, and a pivot wearing this at least one fin and this relaying drive.
The hinge of the 16. tool transmission agencies as described in claim 13 or 14, it is characterised in that wherein said flexible member is multiple shell fragment or at least one spring.
17. hinges having transmission agency as claimed in claim 10, it is characterised in that wherein this driven disc first end is connected to this first alignment pin.
18. hinges having transmission agency as claimed in claim 10, it is characterised in that it farther includes a spring being located between this moving member and this support.
19. hinges having as claimed in claim 18 transmission agencies, it is characterised in that in wherein this spring is installed in the storage tank that this moving member is axially offered, this support then have be located at this storage tank in and abut the contact piece of this spring one end.
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CN201620305016.8U CN205639268U (en) | 2016-04-13 | 2016-04-13 | Hinge of utensil transmission function |
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CN201620305016.8U CN205639268U (en) | 2016-04-13 | 2016-04-13 | Hinge of utensil transmission function |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109404412A (en) * | 2017-08-17 | 2019-03-01 | 加藤电机(香港)有限公司 | Parallel double-shaft hinge and e-machine |
CN112211896A (en) * | 2019-07-11 | 2021-01-12 | 仁宝电脑工业股份有限公司 | Electronic device |
CN112324794A (en) * | 2020-11-02 | 2021-02-05 | 联想(北京)有限公司 | Connection structure and electronic equipment |
CN112789387A (en) * | 2018-10-09 | 2021-05-11 | 惠普发展公司,有限责任合伙企业 | Hinge assembly having elastic member |
US11448294B2 (en) | 2019-07-09 | 2022-09-20 | Compal Electronics, Inc | Linkage mechanism |
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2016
- 2016-04-13 CN CN201620305016.8U patent/CN205639268U/en active Active
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109404412A (en) * | 2017-08-17 | 2019-03-01 | 加藤电机(香港)有限公司 | Parallel double-shaft hinge and e-machine |
TWI682262B (en) * | 2017-08-17 | 2020-01-11 | 香港商加藤電機(香港)有限公司 | Parallel dual-axle hinge and electronic apparatus |
CN112789387A (en) * | 2018-10-09 | 2021-05-11 | 惠普发展公司,有限责任合伙企业 | Hinge assembly having elastic member |
US11448294B2 (en) | 2019-07-09 | 2022-09-20 | Compal Electronics, Inc | Linkage mechanism |
CN112211896A (en) * | 2019-07-11 | 2021-01-12 | 仁宝电脑工业股份有限公司 | Electronic device |
US11132031B2 (en) | 2019-07-11 | 2021-09-28 | Compal Electronics, Inc. | Electronic device |
TWI776170B (en) * | 2019-07-11 | 2022-09-01 | 仁寶電腦工業股份有限公司 | Electronic device |
CN112324794A (en) * | 2020-11-02 | 2021-02-05 | 联想(北京)有限公司 | Connection structure and electronic equipment |
CN112324794B (en) * | 2020-11-02 | 2022-03-25 | 联想(北京)有限公司 | Connection structure and electronic equipment |
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