Specific embodiment
Hereinafter, for convenience of description, the orientation of the side where mobile terminal will be defined as "upper", where docking station
The orientation of side will be defined as "lower".The definition in these orientation only for convenience of the present invention is described, is not intended to limit the present invention.
Refering to Figure 1, being the assembled state structure of docking station 2 and mobile terminal 1 of the invention in one embodiment
Schematic diagram.Mobile terminal 1 is connected and fixed in 2 top of docking station, and is electrically connected with docking station 2, realizes that the function of mobile terminal 1 expands
Exhibition, while being moved easily the fixation of terminal 1.
It please refers to shown in Fig. 2 to Fig. 5, docking station 2 includes docking station main body 10, block piece 20, the first connector 30, second
Connector 40, the first interlinked mechanism 50, the second interlinked mechanism 60.Docking station main body 10 includes pedestal 110, is formed in pedestal 110
On expansion interface (not shown) and connector 120, set on 110 top side of pedestal locating fastener 130, be set to positioning
The activity lock 140 of 130 opposite sides is buckled, connector 120 is for being electrically connected mobile terminal 1 and expansion interface.Locating fastener 130
Position is fixed, and activity lock 140 can switch in sealed/unlocking condition, and when docking station 2 is not put into mobile terminal 1, active lock
Button 140 keeps unlocking condition.When the side of mobile terminal 1 is put into docking station 2 from 130 side of locating fastener, pass through locating fastener 130
It positions and fixes, the other side passes through 140 locking of activity lock.
The both ends of block piece 20 pass through the first connector 30 respectively, the second connector 40 is rotatably connected on connector 120
Two sides.In specific implementation, block piece 20 may be configured as the structure of baffle-like, and when docking station 2 is idle, i.e., mobile terminal 1 is not
When being put into docking station 2, block piece 20 is blocked above connector 120, to prevent damaging connector 120 because of foreign object collision.
One end of first interlinked mechanism 50 and the lower contacts of mobile terminal 1 and by the gravity drive of mobile terminal 1, first
The other end of interlinked mechanism 50 connect with the side of the first connector 30 and first connector 30 is driven to rotate.
One end of second interlinked mechanism 60 connect with the side of the second connector 40 and is driven by the second connector 40, described
The other end of second interlinked mechanism 60 is connected to activity lock 140 and drive activity lock 140 is in sealed/unlocking condition switching.
When docking station 2 is idle, block piece 20 is located at 120 top of connector to prevent foreign object collision, while at activity lock 140
In unlocking condition.As shown in figure 4, when mobile terminal 1 is put into docking station 2, gravity of first interlinked mechanism 50 in mobile terminal 1
Driving is lower to drive the rotation of the first connector 30, and the first connector 30 drives block piece 20 to turn to the predetermined of 120 side of connector
Reception position exposes connector 120, and mobile terminal 1 is electrically connected with the connector 120 exposed, while the drive of block piece 20 the
The rotation of two connectors 40, the second connector 40 drive the 60 drive activity of the second interlinked mechanism to latch 140 sealed, 1 quilts of mobile terminal
Locating fastener 130 and the locking jointly of activity lock 140.The process of assembling only needs to be put into mobile terminal 1, and it is artificial not need other
Operation, simplifies assembling process, improves the ease for use of docking station 2.
It please refers to shown in Fig. 2, in specific implementation, pedestal 110 may include the first support plate 1101, the second support plate
1104, the second support plate 1104 is arranged in parallel in the lower section of the first support plate 1101, the first support plate and second support plate it
Between be connected and fixed by multiple struts 1102, it is fixed by strut 1102 between the first support plate 1101 and the second support plate 1104
Afterwards, the space for receiving is formed.The lower part of first support plate 1101 is equipped with multiple stabilizer blades 1103, is higher than docking station main body 10
Ground can play waterproof action, and facilitate heat dissipation.
In a preferred embodiment, the first interlinked mechanism 50 and the second interlinked mechanism 60 can be set to the first support plate 1101 with
In accommodating space between second support plate 1104, and connector 120 is fixed on 1101 top of the first support plate, so as to shifting
Dynamic terminal 1 connects.Meanwhile contact component is set in one end of the first interlinked mechanism 50, and corresponding in the first support plate 1101
Setting contact hole, contact component stretches out by contact hole to contact with mobile terminal 1.In specific implementation, which sets
It is set to elevating lever 510.
It is liquidproof spilling to connector 120 meanwhile after mobile terminal 1 is connect with docking station 2, it can be in the first support
Elastic washer (not shown) is arranged in 1101 top of plate, and elastic cushion corral is set to the side of connector 120.In this way, move
After dynamic terminal 1 is put into docking station 2, the lower part of mobile terminal 1 and the upper surface of elastic washer are in close contact, and enclose connector 120
Between elastic washer, liquid spilling can be effectively prevent to connector 120.
It please refers to shown in Fig. 3 and Fig. 4, is the structural schematic diagram of the first interlinked mechanism 50 in one embodiment.Specific
In implementation, the first interlinked mechanism 50 includes aforementioned elevating lever 510, the first couple axle 520, rocking bar 530.The upper end of elevating lever 510
Decline with the lower contacts of mobile terminal 1 and by the gravity drive of mobile terminal 1.One end of first couple axle 520 and elevating lever
510 vertically connect and elevating lever 510 are followed to be gone up and down, and the other end is connect with rocking bar 530.Rocking bar 530 is far from the first couple axle
520 one end and the first connector 30 are hinged.As correspondence, pedestal 110 is equipped with the matched slide opening in lower end with elevating lever 510
The lower end of (not shown), elevating lever 510 is oriented to by slide opening and is slided in slide opening and goes up and down.
When elevating lever 510 declines, the decline of the first couple axle 520 is driven, the first couple axle 520 drives the rocking bar 530 to put
Dynamic, rocking bar 530 pushes the rotation of the first connector 30, drives block piece 20 to turn to predetermined reception position, to make connector 120
It is exposed for the connection of mobile terminal 1.
Preferably, the side that the middle section of the first connector 30 is equipped with 301 connector 120 of arc chute is set
There is sliding block 540 corresponding with the sliding slot 301, when rocking bar 530 pushes the rotation of the first connector 30, sliding block 540 301 is slided along the chute
It is dynamic, guiding function is played, keeps the storage process of block piece 20 more stable.
As another preferred embodiment, the first interlinked mechanism 50 further includes baffle 550 and the first elastic element 560.It rises
Drop bar 510 extends vertically through baffle 550 and connection fixed thereto.One end of first couple axle 520 passes through baffle 550 and elevating lever
510 vertical connections.First elastic element 560 is sheathed on 510 outside of elevating lever and is connected in the top of baffle 550 Yu pedestal 110
Between, the preferred spring of the first elastic element 560.In specific implementation, elevating lever 510 can be rod structure always, and one end is stretched out
It docks behind the upside of baffle 550 with the lower part of mobile terminal 1, is vertically moved up or down behind the downside of other end stretching baffle 550.Such as Fig. 3
Shown, the part that elevating lever 510 is located at 550 downside of baffle can be configured as two straight-bar structures, the mistake for going up and down elevating lever 510
Cheng Gengjia stablizes, and as correspondence, is respectively arranged a spring on 550 two straight-bars in downside of baffle.
When mobile terminal 1 is put into docking station 2, the gravity drive elevating lever 510 of mobile terminal 1 declines, 510 band of elevating lever
Dynamic baffle 550 declines, and drives block piece 20 to turn to storage position by the first couple axle 520, rocking bar 530, the first connector 30
It sets, the first elastic element 560 is compressed at this time.When mobile terminal 1 is removed from docking station 2, the gravity solution of mobile terminal 1
It removes, the first elastic element 560 is risen by replying baffle 550 described in power drive and elevating lever 510, so that block piece 20 be driven to return
120 top of connector is gone to, and then realizes automatically reseting for block piece 20.
It please refers to shown in Fig. 5, is the structural schematic diagram of the second interlinked mechanism 60 in one embodiment.It is being embodied
In, the second interlinked mechanism 60 includes the second couple axle 610, eccentric wheel apparatus, push rod 620.One end of second couple axle 610 and the
Two connectors 40 are vertically connected and are gone up and down with the rotation of the second connector 40.Eccentric wheel apparatus by second couple axle 610 from
By the lifting action driving held.One end of push rod 620 is pushed by eccentric wheel apparatus, and push rod 620 is under the promotion of eccentric wheel apparatus
Lifting, the other end of push rod 620 is connected to activity lock 140, and drive activity lock 140 is in sealed/unlocking condition switching.Make
Corresponding to act with block piece 20, when push rod 620 rises under the promotion of eccentric wheel apparatus, drive activity lock 140 is sealed,
Then drive activity lock 140 is unlocked when decline.
In specific implementation, the eccentric wheel apparatus may include that bearing block 630, wheel shaft 640, the first cam 650, second are convex
Wheel 660.Bearing block 630 is fixed on pedestal 110, and wheel shaft 640 is fixed on bearing block 630 and can be around own axis.The
One cam 650 is fixed on one end of wheel shaft 640, the outer peripheral top of the first cam 650 with the second couple axle 610 is tangent contacts.
Second cam 660 is fixed on the other end of wheel shaft 640, and the outer peripheral top of the second cam 660 and the lower end surface of push rod 620 are tangent
Contact.
Second couple axle 610 forces the first cam 650 that wheel shaft 640 is driven to rotate down when declining, wheel shaft 640 drives second
Cam 660 rotates upwards, and the second cam 660 pushes push rod 620 to rise, and is switched to promotion activity lock 140 by unlocking condition
Locked state, by the side surface locking of mobile terminal 1.
Preferably, eccentric wheel apparatus may also include the torsional spring 670 being sheathed on wheel shaft 640, torsional spring 670 1
The torsion arm at end is fixed on pedestal 110, and the torsion arm of the other end is fixed on the first cam 650.
When the second couple axle 610 is by eccentric wheel apparatus and 620 promotion activity of push rod lock 140 to locked state, turn round
Spring 670 generates torsional deformation;When the pressure releases of second couple axle 610, torsional spring 670 is made bias by the driving of restoring force
Wheel apparatus resets, so that driving activity lock 140 returns back to unlocking condition.It is understood that the torsion of one end of torsional spring 670
Arm is fixed on pedestal 110, and the torsion arm of the other end can also be fixed on the second cam 660, and 670 needs satisfactions of torsional spring mention
For the requirement for the restoring force that driving eccentric wheel apparatus resets.
Please refer to Fig. 6 to Fig. 8, for the structural schematic diagram of activity lock 140 in one embodiment.It is being embodied
In, activity lock 140 is installed on pedestal 110 by limit plate 1401.Limit plate 1401 includes the bottom plate fixed with pedestal 110
1401a and side side plate 1401b connected vertically with bottom plate 1401a, side plate 1401b form the side pair with mobile terminal 1
The contact surface answered.In specific implementation, the top of limit plate 1401 is additionally provided with the upper cover 1406 parallel with bottom plate 1401a.Bottom plate
The predetermined position of 1401a and pedestal 110 is equipped with through-hole 1401c corresponding with push rod 620, and push rod 620 is made to may pass through through-hole 1401c
Lifting, while through-hole 1401c plays guiding role to the lifting of push rod.Activity lock 140 includes that at least one is moved for clamping
The clamping joint 1402b of dynamic terminal, side plate 1401b are equipped with lockhole 1401d corresponding with clamping joint 1402b.
620 promotion activity of push rod lock, 140 movement, activity latch the clamping joint 1402b on 140 and stretch out from lockhole 1401d
When, the corresponding side surface clamping of mobile terminal 1, corresponding activity are latched 140 locked state by clamping joint 1402b.Push rod 620 drives
When clamping joint 1402b is withdrawn from lockhole 1401d, the corresponding side surface of mobile terminal 1 is released, the unlocking of corresponding activity lock 140
State.
In a preferred embodiment, activity lock 140 includes guide holder 1403, rotating member 1404, driving member 1405, clamping
Part 1402.Guide holder 1403 includes the fixing end being fixed on side plate 1401b and extends to the overhanging end above bottom plate 1401a.
One end of rotating member 1404 and the overhanging end of guide holder 1403 are rotatablely connected.One end of shackle member 1402 is equipped with clamping joint 1402b.
The both ends of driving member 1405 are rotatablely connected with rotating member 1404 and the other end of shackle member 1402 respectively.
The upper end of push rod 620 and one end of rotating member 1404 are rotatablely connected and push rotating member 1404 around the guide holder
1403 overhanging end rotation, rotating member 1404 drags the turning end lifting/lowering of shackle member 1402 by driving member 1405, to drag
Clamping joint 1402b is from lockhole 1401d stretching/withdrawal.
Preferably, it is fixed on the overhanging end of guide holder 1403 parallel with side plate 1401b and bottom plate 1401a
Sliding axle 1410, the lower part of shackle member 1402 is fixed with guide pad 1411, and guide pad 1411 is equipped with along clamping joint 1402b's
The kidney slot 1411a that stretching/withdrawal direction extends.
When the turning end lifting/lowering of shackle member 1402, the guide pad 1411 of its underpart is opposite under the guidance of kidney slot 1411a
It is slided in sliding axle 1410, to drive clamping joint 1402b from lockhole 1401d stretching/withdrawal.Because of sliding axle 1410 and guide holder
1403 is fixed, has supporting role to shackle member 1402.
In specific implementation, the aforementioned overhanging end of guide holder 1403 is equipped with parallel with side plate 1401b and bottom plate 1401a
First shaft hole 1403a.One end of rotating member 1404 be equipped with the second axis hole 1404a, the other end be equipped with third axis hole 1404b, second
Axis hole 1404a and first shaft hole 1403a is rotatablely connected by first rotating shaft 1407.One end of driving member 1405 is equipped with the 4th axis hole
1405a, the other end are equipped with the 5th axis hole 1405b, and the 4th axis hole 1405a is turned by the second shaft 1408 and third axis hole 1404b
Dynamic connection.One end of shackle member 1402 is equipped with the 6th axis hole 1402a, and clamping joint 1402b is set to the other end of shackle member 1402, the
Six axis hole 1402a are rotatablely connected by third shaft 1409 and the 5th axis hole 1405b.The upper end of push rod 620 and the second shaft
1408 rotation connections.
Because one end of rotating member 1404 is rotatably connected on the overhanging end of guide holder 1403 by first rotating shaft 1407, so working as
When push rod 620 pushes the second shaft 1408, one end of rotating member 1404 is rotated around first rotating shaft 1407, rotating member 1404 it is another
End then rises or falls under the drive of push rod 620, push rod 620 drive simultaneously one end of driving member 1405 it is synchronous rise or under
One end that drop, rotating member 1404 and driving member 1405 are rotatablely connected can generate the position of horizontal direction around the rotation of first rotating shaft 1407
Component is moved, the other end of driving member 1405 and the horizontal distance extension/contraction of first rotating shaft 1407 are made, thus dragging and driving member
The shackle member 1402 of 1405 connections, and then drive clamping joint 1402b from lockhole 1401d stretching/withdrawal.
Preferably, rotating member 1404 extends to form handle 1404c close to one end of second through-hole, when
When needing to take out mobile terminal, handle 1404c is pulled to withdraw clamping joint 1402b from lockhole, and activity lock 140 is made to unlock.
In docking station disclosed by the invention, connector 120 be equipped with block piece 20 as protection structure, connector 120 not
It when being connect with mobile terminal 1, is blocked by block piece 20, causes to damage to avoid foreign object collision connector 120.In addition, passing through
Design is interlocked, only needs that mobile terminal 1 is put into docking station 2 according to the positioning of locating fastener 130 when in use, is not necessarily to it
He operates, and the locking of the opening, activity lock 140 of block piece 20, group can be completed under the gravitational force urges of mobile terminal 1 itself
Dress process is simple, easy to use, while also avoiding manual locking in traditional scheme and being easy the problem of scratching mobile terminal 1.And
After mobile terminal 1 removes, under the restoring force effect of the first elastic element 560, the second elastic element 340, docking station 2 can be automatic
Restore the state before being put into mobile terminal 1, for use next time.
Please refer to shown in Fig. 1 and Fig. 9, the invention also discloses a kind of mobile terminals with docking station, specific
In implementation, the mobile terminal with docking station includes mobile terminal 1 and docking station 2.Wherein, docking station 2 can be aforementioned implementation
One of docking station recorded in mode is not described in detail herein.Mobile terminal 1 is equipped with connecting interface 1a, and mobile terminal 1 is logical
Connecting interface 1a is crossed to be electrically connected with the connector 120 of docking station 2.For convenience of use is matched with docking station 2, connecting interface 1a can be set
It sets on the lower end surface of mobile terminal 1.
Preferably, protective device 3 is slidably connected at the connecting interface 1a of mobile terminal 1.When mobile whole
When end 1 need to connect docking station 2, sliding protective device 3 exposes connecting interface 1a.After mobile terminal 1 is separated with docking station 2,
Protective device 3 is slided to close connecting interface 1a, to prevent liquid, dust from entering inside mobile terminal 1 by connecting interface 1a.
Please refer to shown in Figure 10 to Figure 12, in specific implementation, protective device 3 may include outer cover 310, protective door
320, locking device 330.Wherein, outer cover 310 is fixed on the outside of the connecting interface 1a of mobile terminal 1.For example, can be in mobile terminal
1 side connecting interface 1a and the edge of outer cover 310 are correspondingly arranged multiple screw holes, and outer cover is fixedly connected on movement by screw
In terminal 1.Outer cover 310 is equipped with opening 3101 corresponding with connecting interface 1a, and the two sides of outer cover 310 are equipped with the first slideway 3102
And the second slideway 3103 be arranged parallelly and adjacently with the first slideway 3102.Preferably, the first slideway 3102 and
Second slideway 3103 is separately positioned on the two sides of outer cover 310.The two sides of protective door 320 are slidably connected to the two sides of outer cover 310
In first slideway 3102, protective door 320 is slided with closing/opening opening 3101, to close/open connecting interface 1a.Locking
Device 330 be set to the second slideway 3103 on and with the corresponding side contacts of protective door 320, for compressing/unclamping protective door 320.
When mobile terminal 1 does not connect 3101, while locking device in use, the closing of protective door 320 is open with docking station 2
330 compress protective door, with deadend connecting interface 1a.When mobile terminal 1 needs to connect with docking station 2 in use, unclamping
Locking device 330 slides protective door 320 to open opening 3101.
Referring again to shown in Figure 11 and Figure 12, in specific implementation, protective door 320 may include push 3201 and elastic packing
Pad 3202.Wherein, 3,201 two Slideslips of pushing are connected in the first slideway 3102, and elastic sealing gasket 3202, which is fixed on, to push
3201 close to 1 lower end surface of mobile terminal side.First slideway 3102 includes the first glissile segment 3102a and the second glissile segment
Less than the first glissile segment 3102a and the side connecting interface 1a at a distance from the side 3102c, the second glissile segment 3102c and connecting interface 1a
Distance, the first glissile segment 3102a are connect with the second glissile segment 3102c by the first slope surface 3102b.
From the first glissile segment 3102a to the second glissile segment 3102c sliding push with close opening 3101 when, push 3201 and
Reduce at a distance from the side elastic sealing gasket 3202 and connecting interface 1a, to make push 3201 and the approaching connection of elastic sealing gasket 3202
The side interface 1a compresses the lower end surface of elastic sealing gasket 3202 and mobile terminal 1, to realize the sealing of connecting interface 1a.Having
During body is implemented, rubber pad is can be selected in elastic sealing gasket 3202.
Preferably, the front end that protective door 320 slides side passes through the second elastic element 340 and corresponding first
The end of slideway 3102 connects.Push protective door 320 closing opening 3101 when, the second elastic element 340 with protective door 320 cunning
Movable property gives birth to deformation, and protective door 320 is compressed after reaching predetermined position by locking device 330.Locking device 330 unclamps protective door 320
When, protective door 320 is flicked under the restoring force effect of the second elastic element 340, and realization automatically opens.
Referring again to shown in Figure 12, in specific implementation, locking device 330 includes elastic slide block.Second slideway 3103 packet
Third glissile segment 3103a and the 4th glissile segment 3103c is included, it is sliding that the 4th glissile segment 3103c is less than third at a distance from protective door 320
At a distance from protective door, third glissile segment 3103a and the 4th glissile segment 3103c are connected dynamic section 3103a by the second slope surface 3103b
It connects.The middle part of second slideway 3103 is equipped with the elongated hole 3103d that the 4th glissile segment 3103c is extended to from third glissile segment 3103a,
Elastic slide block is slidably connected in elongated hole 3103d, and the side of elastic slide block is docked with protective door 320, and the other side, which is equipped with, to push
Portion.
When needing to compress protective door, aforementioned pushing part is pushed, by elastic slide block along elongated hole 3103d by third glissile segment
3103a is pushed to the 4th glissile segment 3103c, because the 4th glissile segment 3103c is less than third glissile segment at a distance from protective door 320
3103a is at a distance from protective door 320, when elastic slide block slides into the 4th glissile segment 3103c from third glissile segment 3103a, with
The distance of protective door 320 reduces, and the approaching protective door 320 of elastic slide block, the side of elastic slide block compresses protective door 320.Similarly,
Reverse push dynamic elasticity sliding block then unclamps protective door 320.
Preferably, the lower part of protective device 3 is equipped with the positioning docked with one end of the first interlinked mechanism 50
Bar 3203, before mobile terminal 1 is put into docking station, the end thereof contacts of locating rod 3203 and the first interlinked mechanism simultaneously drive first to interlock
Mechanism 50.
Mobile terminal disclosed by the invention with docking station not only has the assembling process in previous extension depressed place 2 simple, easy
In the characteristic used, the waterproof and dustproof performance of mobile terminal 1 is also improved by the way that protective device 3 is arranged.
The above examples are only used to illustrate the technical scheme of the present invention and are not limiting, although referring to preferred embodiment to this hair
It is bright to be described in detail, those skilled in the art should understand that, it can modify to technical solution of the present invention
Or equivalent replacement, without departing from the spirit and scope of the technical solution of the present invention.