CN103324246B - A kind of docking station and electronic installation - Google Patents

Abstract

The invention discloses a kind of docking station and electronic installation, described electronic installation includes: the first main body；Second main body；Snap-in structure；Wherein, described first main body realizes the connection with described second main body by snap-in structure and separates, described snap-in structure is arranged on the Part I of described second main body, described first main body has first groove corresponding with described snap-in structure, wherein, described snap-in structure includes: position-limit mechanism, is fixed on the described Part I of described second main body, and described position-limit mechanism has the first spigot surface；Retaining mechanism, is positioned at described position-limit mechanism, and described retaining mechanism has the first snap fit, and the eave tile of described first snap fit is appeared by described first spigot surface.

Description

A kind of docking station and electronic installation

Technical field

The present invention relates to technical field of electronic equipment, particularly relate to a kind of docking station and electronic installation.

Background technology

The portable electron device such as panel computer, notebook computer because being convenient for carrying, the feature such as fashion attractive in appearance, The most important role is play in daily life；Along with panel computer, notebook computer etc. The expansion of portable electron device range, as the docking station of stable these portable electron devices of support Also the most important effect is played.

When user wishes to be connected these portable electron devices with docking station when, docking station be these just Portable electronic apparatus provides a safe and stable working environment.Generally comprise limited location on docking station to make Position-limit mechanism and the retaining mechanism of snap action so that portable electron device be placed on docking station time Wait, it is possible to the most stably combine with docking station.But, in current technology, on docking station Position-limit mechanism and retaining mechanism are split-type design, and a docking station typically has two position-limit mechanisms and two Retaining mechanism, it is impossible to meet the demand that people are growing when using panel computer.

The present inventor, during realizing the present invention, finds that existing technical scheme at least suffers from the drawback that One of:

1, the space taken is excessive: existing technical scheme needs to design two position-limit mechanisms on docking station Having four bump mechanisms altogether with two retaining mechanisms, this occupies space valuable on docking station；

2, affect the good looking appearance of panel computer: due to needs bottom portable electron device on design right Answering the groove of four projective structures on docking station, the number of openings is too many, have impact on the good looking appearance of panel computer.

3, the appearance of the easy panel computer that weares and teares: owing to four structures on docking station are protruded, people will just Portable electronic apparatus with the when of connection on docking station, the appearance of this electronic installation that the most easily weares and teares, this Negative effect is brought to the Consumer's Experience of portable electron device.

Summary of the invention

The present invention provides a kind of docking station and electronic installation, decreases docking station and protrudes above the quantity of structure, subtracts Lack the docking station space that snap-in structure takies, decrease groove corresponding on portable electron device simultaneously Opening, improves the mechanical performance of position-limit mechanism and retaining mechanism so that the profile of portable electron device is more Add attractive in appearance, decrease the probability of docking station projective structure abrasion panel computer, meet people more Demand.

One aspect of the present invention provides a kind of electronic installation, specifically includes: the first main body；Second main body；Engaging Structure；Wherein, described first main body realizes the connection with described second main body by snap-in structure and separates, Described snap-in structure is arranged on the Part I of described second main body, and described first main body has and described card Closing the first groove corresponding to structure, wherein, described snap-in structure includes: position-limit mechanism, is fixed on described the On the described Part I of two main bodys, described position-limit mechanism has the first spigot surface；Retaining mechanism, is positioned at institute Stating in position-limit mechanism, described retaining mechanism has the first snap fit, and the eave tile of described first snap fit is by described the One spigot surface appears；Wherein, during described first main body is connected with described second main body, described card Close structure and enter described first groove, described first spigot surface of described position-limit mechanism and described first groove pair Should coordinate to limit the position of the first main body described in when described first main body is connected to described second main body；Institute During stating described first spigot surface and the described first groove corresponding matching of position-limit mechanism, described first card The eave tile hooked is retracted in described first spigot surface by the compressing of described first main body；Described first snap fit Eave tile is revealed at described first spigot surface outer and described first recessed when being discharged by the compressing of described first main body Baffle plate engaging corresponding in groove, described first main body and the second main body are joined together.

Preferably, described second main body also includes Part II, and described Part I and Part II are movable Link together.

Preferably, under the effect of an external force, the eave tile of described first snap fit retracts to the of described limited post In one spigot surface, in described first groove, the baffle plate corresponding to the first snap fit no longer engages with described first snap fit, Described snap-in structure is from described first groove removal, and described first main body and described second main body are separated.

Preferably, described position-limit mechanism also has the second spigot surface, relative with described first spigot surface；Described Retaining mechanism also has the second snap fit, and the eave tile of described second snap fit is appeared by described second spigot surface.

Preferably, described retaining mechanism also includes: the first elastomer, is positioned at inside described position-limit mechanism, institute The first end stating the first elastomer is connected with described first snap fit, and the second end of described first elastomer is with described Position-limit mechanism is connected；Second elastomer, is positioned at inside described position-limit mechanism, the first of described second elastomer End is connected with described second snap fit, and the second end of described second elastomer is connected with described position-limit mechanism.

Preferably, described snap-in structure also includes that controlling organization, described controlling organization are positioned at described first In part, described controlling organization includes: main long-armed；First erects wall, is connected to the first end that described master is long-armed； Second erects wall, is connected to the second end that described master is long-armed；Wherein, described first erect wall and second and erect wall and be positioned at The same side that described master is long-armed；3rd elastomer, erects wall and second described first and erects between wall, described First end of the 3rd elastomer is long-armed with described master to be connected, second end and described first of described 3rd elastomer Part connects；First is long-armed, is connected to described first other end erecting wall and to be located remotely from described master long-armed Second end, described first long-armed on there is the first perforate；Second is long-armed, is connected to described second and erects the another of wall One end is also located remotely from the first end that described master is long-armed, described second long-armed on there is the second perforate；First is same Step device, through described first perforate, described first synchronous device is oblique away from one end that described first erects wall Face, described described first direction erecting wall that tiltedly faces away from tilts, and described inclined-plane connects with described first perforate Touching, described first synchronous device is connected with described first snap fit；Second synchronous device, opens through described second Hole, described second synchronous device is inclined-plane away from one end that described second erects wall, described tiltedly face away from described Second direction erecting wall tilts, and described inclined-plane and described second opening contacts, described second synchronous device with Described second snap fit is connected；Wherein, when have external force put in the first direction described master long-armed time, described Three elastomer contracts, described master is long-armed to be moved along the first direction, described first long-armed with described second long-armed also Moving along the first direction, described first perforate oppresses the inclined-plane of described first synchronous device with described second perforate Inclined-plane with described second synchronous device so that described first synchronous device and described second synchronous device are respectively Erecting wall and described second to described first to erect wall and move, the most described first synchronous device and described second synchronizes Device drives described first snap fit and described second snap fit to retract to described first spigot surface and described second respectively In spigot surface.

Preferably, described position-limit mechanism also includes the first opening, is formed at described position-limit mechanism and described first Partly relative to surface on.

Preferably, described electronic installation also includes: the second Datalink Interface, is positioned in described first opening, Described second Datalink Interface is corresponding with the first Datalink Interface being arranged in described first groove.

Another aspect of the present invention provides a kind of docking station, for connecting an electronic equipment, at the bottom of described electronic equipment Portion has the first groove, described docking station to include: body；Snap-in structure；Wherein, described electronic equipment passes through Snap-in structure realizes the connection with described body and separates, and described snap-in structure is arranged at the first of described body In part, described electronic equipment has first groove corresponding with described snap-in structure, wherein, described engaging Structure includes: position-limit mechanism, is fixed on the described Part I of described body, and described position-limit mechanism has First spigot surface；Retaining mechanism, is positioned at described position-limit mechanism, and described retaining mechanism has the first snap fit, The eave tile of described first snap fit is appeared by described first spigot surface；Wherein, at described electronic equipment with described During body connects, described snap-in structure enters described first groove, described the of described position-limit mechanism One spigot surface and described first groove corresponding matching are with described in limiting when described electronic equipment is connected to described body The position of electronic equipment；Described first spigot surface and described first groove corresponding matching at described position-limit mechanism During, the eave tile of described first snap fit is retracted in described first by the compressing of described electronic equipment and guides In face；The eave tile of described first snap fit is revealed in described first when being discharged by the compressing of described electronic equipment The outer baffle plate engaging corresponding with in described first groove of spigot surface, described electronic equipment and described body are connected Together.

Preferably, described body also includes that Part II, described Part I and Part II connect movably It is connected together.

Preferably, under the effect of an external force, the eave tile of described first snap fit retracts to the of described limited post In one spigot surface, in described first groove, the baffle plate corresponding to the first snap fit no longer engages with described first snap fit, Described snap-in structure is from described first groove removal, and described electronic equipment and described body are separated.

Preferably, described position-limit mechanism also has the second spigot surface, relative with described first spigot surface；Described Retaining mechanism also has the second snap fit, and the eave tile of described second snap fit is appeared by described second spigot surface.

Preferably, described retaining mechanism also includes: the first elastomer, is positioned at inside described position-limit mechanism, institute The first end stating the first elastomer is connected with described first snap fit, and the second end of described first elastomer is with described Position-limit mechanism is connected；Second elastomer, is positioned at inside described position-limit mechanism, the first of described second elastomer End is connected with described second snap fit, and the second end of described second elastomer is connected with described position-limit mechanism.

Preferably, described snap-in structure also includes that controlling organization, described controlling organization are positioned at described first In part, described controlling organization includes: main long-armed；First erects wall, is connected to the first end that described master is long-armed； Second erects wall, is connected to the second end that described master is long-armed；Wherein, described first erect wall and second and erect wall and be positioned at The same side that described master is long-armed；3rd elastomer, erects wall and second described first and erects between wall, described First end of the 3rd elastomer is long-armed with described master to be connected, second end and described first of described 3rd elastomer Part connects；First is long-armed, is connected to described first other end erecting wall and to be located remotely from described master long-armed Second end, described first long-armed on there is the first perforate；Second is long-armed, is connected to described second and erects the another of wall One end is also located remotely from the first end that described master is long-armed, described second long-armed on there is the second perforate；First is same Step device, through described first perforate, described first synchronous device is oblique away from one end that described first erects wall Face, described described first direction erecting wall that tiltedly faces away from tilts, and described inclined-plane connects with described first perforate Touching, described first synchronous device is connected with described first snap fit；Second synchronous device, opens through described second Hole, described second synchronous device is inclined-plane away from one end that described second erects wall, described tiltedly face away from described Second direction erecting wall tilts, and described inclined-plane and described second opening contacts, described second synchronous device with Described second snap fit is connected；Wherein, when have external force put in the first direction described master long-armed time, described Three elastomer contracts, described master is long-armed to be moved along the first direction, described first long-armed with described second long-armed also Moving along the first direction, described first perforate oppresses the inclined-plane of described first synchronous device with described second perforate Inclined-plane with described second synchronous device so that described first synchronous device and described second synchronous device are respectively Erecting wall and described second to described first to erect wall and move, the most described first synchronous device and described second synchronizes Device drives described first snap fit and described second snap fit to retract to described first spigot surface and described second respectively In spigot surface.

Preferably, described position-limit mechanism also includes the first opening, is formed at described position-limit mechanism and described first Partly relative to surface on.

Preferably, described body also includes: the second Datalink Interface, is positioned in described first opening, institute The first Datalink Interface stating the second Datalink Interface and be arranged in described first groove is corresponding.

By the one or more technical schemes provided in the embodiment of the present application, the application at least has following Technique effect:

1, it is reduced to one due to four projective structures on docking station, decreases the space taken；

2, owing to original two position-limit mechanisms are integrated into one, position-limit mechanism is the most thicker, and machinery is strong Degree significantly improves；

3, owing to being designed as by retaining mechanism in embedding position-limit mechanism, retaining mechanism can pass when by external force Pass a part give position-limit mechanism, retaining mechanism is hardly damaged, service life extend；

4, also needing only to one due to slot opening corresponding on panel computer, this makes outside panel computer Shape is more attractive in appearance, the most more difficult projective structure abrasion being expanded on depressed place；

5, solve docking station and need partly to encase the design requirement on panel computer base so that docking station and flat board The appearance design of computer becomes freer；

6, owing to being designed in the middle of position-limit mechanism by Datalink Interface, can prevent Datalink Interface from damaging, Extend the life-span of Datalink Interface.

Accompanying drawing explanation

Fig. 1 is the structure chart before electronic equipment engages with docking station in the embodiment of the present application one；

Fig. 2 is the docking station top view in the embodiment of the present application one；

Fig. 3 is the snap-in structure profile in the embodiment of the present application one；

Fig. 4 is the controlling organization profile in the embodiment of the present application one；

Fig. 5 is the structure chart that in the embodiment of the present application one, synchronous device is connected with snap fit；

Fig. 6 is the structure chart that in the embodiment of the present application one, snap-in structure engages completely with electronic equipment；

Fig. 7 is the structure chart of controlling organization stress in the embodiment of the present application one；

Fig. 8 be in the embodiment of the present application two first main body and the second main body engaging after structure chart.

Detailed description of the invention

The present invention provides a kind of docking station and electronic installation, decreases docking station and protrudes above the quantity of structure, subtracts Lack the docking station space that snap-in structure takies, decrease groove corresponding on portable electron device simultaneously Opening, improves the mechanical performance of position-limit mechanism and retaining mechanism so that the profile of portable electron device is more Add attractive in appearance, decrease the probability of docking station projective structure abrasion portable electron device, meet people More demand.

Below in conjunction with the accompanying drawings, by specific embodiment, technical scheme is described in detail.

Embodiment one:

The embodiment of the present invention one provides a kind of docking station, for connecting an electronic equipment, has bottom electronic equipment First groove 801, refer to Fig. 1, Fig. 1 is the structural representation before electronic equipment 80 engages with docking station 90 Figure, docking station 90 includes: body 10 and snap-in structure 11；As in figure 2 it is shown, Fig. 2 is docking station 90 Top view, wherein, electronic equipment 80 is realized the connection with body 10 by snap-in structure 11 and is separated, card Close structure 11 and be arranged at the Part I 101 of body 10.

As it is shown on figure 3, the profile that Fig. 3 is snap-in structure 11, please also refer to Fig. 2 and Fig. 3, engaging Structure 11 includes: position-limit mechanism 20, is fixed on the Part I 101 of body 10, and position-limit mechanism 20 has There is the first spigot surface 201；Retaining mechanism 30, is positioned at position-limit mechanism 20, and retaining mechanism 20 has first Snap fit 301, the eave tile of the first snap fit 301 is appeared by the first spigot surface 201；Due to by retaining mechanism 30 Design, in the inside of position-limit mechanism 20, decreases the space taken, improves space availability ratio.

During electronic equipment 80 is connected with body 10, snap-in structure 11 enters the first groove 801, Position-limit mechanism 20 first spigot surface 201 is connected to limit electronic equipment 80 with the first groove 801 corresponding matching Position to electronic equipment during body 10 80.

During first spigot surface 201 and the first groove 801 corresponding matching of position-limit mechanism 20, first The eave tile of snap fit 301 is retracted in the first spigot surface 201 by the compressing of electronic equipment 80；First snap fit 301 Eave tile be revealed in when being discharged by the compressing of electronic equipment 80 at the first spigot surface 201 outer with the first groove Baffle plate engaging corresponding in 801, electronic equipment 80 and body 10 are joined together；At the first snap fit 301 After the baffle plate engaging corresponding with in the first groove 801, stress can be passed to spacing by the first snap fit 301 Mechanism 20, improves the mechanical performance of snap fit, also improves the service life of snap fit, simultaneously as electronics Slot opening corresponding bottom equipment 80 has only to one so that the profile of electronic equipment is more attractive in appearance, the most more Add the projective structure abrasion being not easy to be expanded on depressed place.

Further, when, under the effect in an external force, the eave tile of the first snap fit 301 retracts to the first of limited post In spigot surface 201, in the first groove 801 corresponding to the first snap fit 301 baffle plate no longer with the first snap fit 301 Engaging, snap-in structure 11 removes from the first groove 801, and electronic equipment 80 and body 10 are separated.

Further, in another embodiment, body 10 also includes Part II 102, Part I 101 He Part II 102 is movably connected together, such as, be attached by rotating shaft or hinge.Therefore, When user needs the angle adjusting electronic equipment 80 to obtain optimum experience when, can be by user's oneself Need to adjust the angle of this electronic equipment 80.

In order to preferably electronic equipment 80 and body 10 are fixed, position-limit mechanism 20 also has second leads To face 202, relative with the first spigot surface 201；Retaining mechanism 30 also has the second snap fit 302, the second card The eave tile of hook 302 is appeared, owing to being designed to by two original position-limit mechanisms by the second spigot surface 202 One, position-limit mechanism is the most thicker, and mechanical strength significantly improves, and greatly strengthen making of position-limit mechanism By life-span and the stability of electronic equipment.

Further, please continue to refer to Fig. 3, retaining mechanism 30 also includes: the first elastomer 303, is positioned at limit Position mechanism 20 is internal, and the first end and first snap fit 301 of the first elastomer 303 are connected, the first elastomer 303 The second end be connected with position-limit mechanism 20；Second elastomer 304, is positioned at position-limit mechanism 20 internal, the second bullet First end and second snap fit 302 of gonosome 304 are connected, the second end of the second elastomer 304 and position-limit mechanism 20 are connected.

Being separated with main body by electronic equipment 80 for convenience, snap-in structure 11 also includes controlling organization 40, control Mechanism 40 processed is positioned on Part I 101, and as shown in Figure 4, controlling organization 40 includes: main long-armed 401； First erects wall 402, is connected to first end of main long-armed 401；Second erects wall 403, is connected to main long-armed 401 The second end；Wherein, first erect wall 402 and second and erect wall 403 and be positioned at the same side of main long-armed 401；The Three elastomers 404, erect wall 402 and second first and erect between wall 403, the first of the 3rd elastomer 404 Holding and be connected with main long-armed 401, the second end of the 3rd elastomer 404 is connected with Part I；First long-armed 405, It is connected to first other end erecting wall 402 and is located remotely from second end of main long-armed 401, first long-armed 405 On there is the first perforate；Second long-armed 406, it is connected to second other end erecting wall 403 and is located remotely from main length First end of arm 401, has the second perforate on second long-armed 406；First synchronous device 407, through first Perforate, the first synchronous device 407 is inclined-plane away from one end that first erects wall 402, tiltedly faces away from first and erects The direction of wall 402 tilts, and inclined-plane and the first opening contacts, the first synchronous device 407 and the first snap fit 301 It is connected；Second synchronous device 408, through the second perforate, the second synchronous device 408 erects the one of wall away from second End is for inclined-plane, and this tiltedly faces away from the second direction erecting wall 403 and tilts, and this inclined-plane and the second opening contacts, Second synchronous device 408 is connected with the second snap fit 302.

It follows that refer to Fig. 5, Fig. 5 is the first synchronous device 407 and retaining mechanism 30 in controlling organization In the structure chart that is connected of the first snap fit 301, in the present embodiment, the first synchronous device 407 and retaining mechanism In 30, the first snap fit 301 is formed in one, and so makes in the first synchronous device 407 and retaining mechanism 30 the One snap fit 301 connects more firm, in other embodiments, it would however also be possible to employ other modes connect；Second The structure that synchronous device 408 is connected with the first snap fit 302 and the first synchronous device 407 with in retaining mechanism 30 The structure that first snap fit 301 connects is identical.

Wherein, when there being external force to put on main long-armed 401 in the first direction, the 3rd elastomer 404 shrinks, Main long-armed 401 move along the first direction, and first long-armed 405 long-armed with second 406 also moves along the first direction, Inclined-plane and the inclined-plane of the second synchronous device 408 of the first synchronous device 407 is oppressed in first perforate and the second perforate, Make the first synchronous device 407 and the second synchronous device 408 erect wall 402 and second to first respectively and erect wall 403 Mobile, the first synchronous device 407 and the second synchronous device 408 drive the first snap fit 301 and the respectively simultaneously Two snap fits 302 retract in the first spigot surface 201 and the second spigot surface 202.

In another embodiment, position-limit mechanism 20 also includes the first opening 50, as in figure 2 it is shown, be formed at limit On the surface that position mechanism 20 is relative with Part I 101.

And body 10 also includes the second Datalink Interface 60, as in figure 2 it is shown, be positioned in the first opening 50, Second Datalink Interface 60 is corresponding with the first Datalink Interface 61 being arranged in the first groove 801, Owing to being designed in the opening of position-limit mechanism 20 by Datalink Interface, can prevent Datalink Interface from damaging, Extend the life-span of Datalink Interface.

In the specific implementation process of the present invention, an electronic equipment for example, panel computer, below with reference to tool The use scene of body illustrates the present invention.

As shown in Figure 6, when panel computer is connected on docking station by hope, user is by bottom panel computer The first groove 801 be directed at snap-in structure 11 and insert, the cell wall compressing snap-in structure 11 of the first groove 801 In the first snap fit 301 and the second snap fit 302, make the first snap fit 301 and the second snap fit 302 retract respectively First spigot surface 201 and the second spigot surface 202, when the first groove 801 is completely combined with snap-in structure 11, First snap fit 301 and the second snap fit 302 be not owing to having the cell wall of the first groove 801 to oppress, again by first Spigot surface and the second spigot surface expose, and are blocked by the baffle plate of the first groove 801 correspondence, the second data cube computation Interface 60 is connected with the first Datalink Interface 61 in the first groove 801, and so, panel computer is just Stably linked together with docking station.

As it is shown in fig. 7, when panel computer is taken off from docking station by hope, user controls knot with hands pressing The master long-armed 401 of structure 40, the 3rd elastomer 404 is compressed, and main long-armed 401 drive first to erect wall 402 He Second erects wall 403 moves downward, and drives first long-armed 405 and second long-armed 406 to move downward, simultaneously Perforate on first long-armed 405 and second long-armed 406 is oppressed the first synchronous device 407 and second respectively and is synchronized Device 408, owing to the pressure suffered by the first synchronous device 407 and the second synchronous device 408 is decomposed by inclined-plane Can not move downward for the power on vertical direction and the power in horizontal direction and two synchronous device, so, One synchronous device 407 and the second synchronous device 408 are erected wall 402 and second to first respectively and are erected wall 403 and move, Simultaneously because the first synchronous device 407 is connected with synchronous device the first snap fit 301,408 and second snap fit 302 It is connected, leads so the first snap fit 301 and the second snap fit 302 retract to the first spigot surface 201 and second respectively In face 202.First groove 801 of panel computer the most no longer with the first snap fit 301 and the second snap fit 302 Engaging, so, panel computer is just separated with docking station.Then, the first snap fit 301 and the second snap fit 302 expose the first spigot surface respectively under the elastic reaction of the first elastomer 303 and the second elastomer 304 again 201 and second spigot surface 202, in case reusing next time.

It should be noted that, above-described embodiment is only for the description and interpretation present invention, rather than limit the present invention, The present invention can also be designed to centre position-limit mechanism 20 two or more sub-position restrainers of a fixed gap Structure so that in second Datalink Interface 60 space between two or more sub-position-limit mechanisms, or Person uses the modes such as gear combination to replace controlling organization 40, and these should also be as being included in protection scope of the present invention Within.

Embodiment two:

The embodiment of the present application two also provides for a kind of electronic installation, this electronic equipment e.g. notebook computer.Tool Body includes:

First main body, the display of for example, one notebook computer；Second main body, is a notebook host, Described first main body can be connected with described second main body, and described first main body can be main with described second Body separates；Snap-in structure, such as identical with the snap-in structure in the embodiment of the present invention one, previous embodiment one In snap-in structure the similarly suitable the present embodiment of various versions in card and structure.

In the specific implementation process of the present invention, as shown in Figure 8, Fig. 8 is that notebook display inserts notes Side view after this main frame, when needs insert notebook host notebook display, is shown by notebook Showing coordinating of groove on device and snap-in structure, notebook display is the most stably connected to notebook host Together；When needs take off notebook display from notebook host, user gives pressing control structure Main long-armed so that snap-in structure separates with the groove of notebook display, thus notebook display and notes This main frame is just separated, notebook display in the present embodiment and the engaging of notebook host with separate with Electronic equipment in previous embodiment and the engaging of docking station with separate similar, owing to embodiment one is the most detailed Teach separation and the detailed process being connected, do not repeating at this.

In other implementation processes, described second main body can be a docking station, can also be to comprise a docking station Other equipment, such as comprise the docking station of keyboard, the docking station comprising other system etc.；Based on this Shen Please the snap-in structure introduced of embodiment one, technical staff described in this area will appreciate that the embodiment of the present application two The occupation mode of described electronic installation and its specific configuration and deformation, so filling for this electronics at this Put and be no longer discussed in detail.

By said one embodiment or multiple embodiment, the invention have the advantages that or advantage it

1, it is reduced to one due to four projective structures on docking station, decreases the space taken；

2, owing to original two position-limit mechanisms are integrated into one, position-limit mechanism is the most thicker, and machinery is strong Degree significantly improves；

3, owing to being designed as by retaining mechanism in embedding position-limit mechanism, retaining mechanism can pass when by external force Pass a part give position-limit mechanism, retaining mechanism is hardly damaged, service life extend；

4, also needing only to one due to slot opening corresponding on portable electron device, this makes portable The profile of electronic installation is more attractive in appearance, the most more difficult projective structure abrasion being expanded on depressed place；

5, solve docking station and need partly to encase the design requirement of portable electron device so that docking station with just The appearance design of portable electronic apparatus becomes freer；

6, owing to Datalink Interface is designed in the middle of docking station, have and can prevent Datalink Interface from damaging, Extend the life-span of Datalink Interface.

Obviously, those skilled in the art can carry out various change and modification without deviating from this to the present invention Bright spirit and scope.So, if the present invention these amendment and modification belong to the claims in the present invention and Within the scope of its equivalent technologies, then the present invention is also intended to comprise these change and modification.

Claims (16)

1. an electronic installation, it is characterised in that including:

First main body；

Second main body；

Snap-in structure；Wherein, described first main body realizes the connection with described second main body by snap-in structure And separation, described snap-in structure is arranged on the Part I of described second main body, and described first main body has First groove corresponding with described snap-in structure, wherein, described snap-in structure includes:

Position-limit mechanism, is fixed on the described Part I of described second main body, and described position-limit mechanism has First spigot surface；

Retaining mechanism, is positioned at described position-limit mechanism, and described retaining mechanism has the first snap fit, and described The eave tile of one snap fit is appeared by described first spigot surface；

Wherein, during described first main body is connected with described second main body, described snap-in structure enters Enter described first groove, described first spigot surface of described position-limit mechanism and described first groove corresponding matching with Limit the position of the first main body described in when described first main body is connected to described second main body；

During described first spigot surface and described first groove corresponding matching of described position-limit mechanism, The eave tile of described first snap fit is retracted in described first spigot surface by the compressing of described first main body；Described The eave tile of the first snap fit be revealed in when being discharged by the compressing of described first main body described first spigot surface outer with Baffle plate engaging corresponding in described first groove, described first main body and the second main body are joined together.

2. electronic installation as claimed in claim 1, it is characterised in that described second main body also includes second Part, together with described Part I is movably connected with Part II.

3. electronic installation as claimed in claim 1, it is characterised in that under the effect of an external force, described The eave tile of the first snap fit retracts in the first spigot surface of described limited post, corresponding to the in described first groove The baffle plate of one snap fit no longer engages with described first snap fit, and described snap-in structure removes from described first groove, Described first main body and described second main body are separated.

4. electronic installation as claimed in claim 1, it is characterised in that described position-limit mechanism also has second Spigot surface is relative with described first spigot surface；Described retaining mechanism also has the second snap fit, described second card The eave tile hooked is appeared by described second spigot surface.

5. electronic installation as claimed in claim 4, it is characterised in that described retaining mechanism also includes:

First elastomer, is positioned at inside described position-limit mechanism, the first end of described first elastomer and described the One snap fit is connected, and the second end of described first elastomer is connected with described position-limit mechanism；

Second elastomer, is positioned at inside described position-limit mechanism, the first end of described second elastomer and described the Two snap fits are connected, and the second end of described second elastomer is connected with described position-limit mechanism.

6. electronic installation as claimed in claim 5, it is characterised in that described snap-in structure also includes Controlling organization, described controlling organization is positioned on described Part I, and described controlling organization includes:

Main long-armed；

First erects wall, is connected to the first end that described master is long-armed；

Second erects wall, is connected to the second end that described master is long-armed；Wherein, described first erect wall and second and erect wall It is positioned at the same side that described master is long-armed；

3rd elastomer, erects wall and second described first and erects between wall, the first of described 3rd elastomer Holding be connected long-armed with described master, the second end of described 3rd elastomer is connected with described Part I；

First is long-armed, is connected to described first other end erecting wall and is located remotely from the second end that described master is long-armed, Described first long-armed on there is the first perforate；

Second is long-armed, is connected to described second other end erecting wall and is located remotely from the first end that described master is long-armed, Described second long-armed on there is the second perforate；

First synchronous device, through described first perforate, described first synchronous device erects wall away from described first One end be inclined-plane, described described first direction erecting wall that tiltedly faces away from tilts, and described inclined-plane is with described First opening contacts, described first synchronous device is connected with described first snap fit；

Second synchronous device, through described second perforate, described second synchronous device erects wall away from described second One end be inclined-plane, described described second direction erecting wall that tiltedly faces away from tilts, and described inclined-plane is with described Second opening contacts, described second synchronous device is connected with described second snap fit；

Wherein, when have external force put in the first direction described master long-armed time, described 3rd elastomer contracts, Described master is long-armed to be moved along the first direction, described first long-armed and described second long-armed also move along the first direction, Described first perforate oppresses the inclined-plane of described first synchronous device and described second lock unit with described second perforate The inclined-plane of part so that described first synchronous device and described second synchronous device respectively to described first erect wall and Described second erects wall moves, and the most described first synchronous device and described second synchronous device drive described respectively First snap fit and described second snap fit retract in described first spigot surface and described second spigot surface.

7. the electronic installation as described in any one of claim 1-6, it is characterised in that described position-limit mechanism is also Including the first opening, it is formed on the surface that described position-limit mechanism is relative with described Part I.

8. electronic installation as claimed in claim 7, it is characterised in that described electronic installation also includes:

Second Datalink Interface, is positioned in described first opening, described second Datalink Interface and setting The first Datalink Interface in described first groove is corresponding.

9. a docking station, for connecting an electronic equipment, has the first groove bottom described electronic equipment, its Being characterised by, described docking station includes:

Body；

Snap fastener；Wherein, described electronic equipment realizes the connection with described body by snap-in structure and divides From, described snap-in structure is arranged on the Part I of described body, and described electronic equipment has and described card Closing the first groove that structure is corresponding, wherein, described snap-in structure includes:

Position-limit mechanism, is fixed on the described Part I of described body, and described position-limit mechanism has first Spigot surface；

Retaining mechanism, is positioned at described position-limit mechanism, and described retaining mechanism has the first snap fit, and described The eave tile of one snap fit is appeared by described first spigot surface；

Wherein, during described electronic equipment is connected with described body, described snap-in structure enters institute Stating the first groove, described first spigot surface of described position-limit mechanism and described first groove corresponding matching are to limit Described electronic equipment is connected to the position of described electronic equipment during described body；

During described first spigot surface and described first groove corresponding matching of described position-limit mechanism, The eave tile of described first snap fit is retracted in described first spigot surface by the compressing of described electronic equipment；Described The eave tile of the first snap fit be revealed in when being discharged by the compressing of described electronic equipment described first spigot surface outer with Baffle plate engaging corresponding in described first groove, described electronic equipment and described body are joined together.

10. docking station as claimed in claim 9, it is characterised in that described body also includes Part II, Together with described Part I is movably connected with Part II.

11. docking stations as claimed in claim 9, it is characterised in that under the effect of an external force, described The eave tile of the first snap fit retracts in the first spigot surface of described limited post, corresponding to the in described first groove The baffle plate of one snap fit no longer engages with described first snap fit, and described snap-in structure removes from described first groove, Described electronic equipment and described body are separated.

12. docking stations as claimed in claim 9, it is characterised in that described position-limit mechanism also has second Spigot surface is relative with described first spigot surface；Described retaining mechanism also has the second snap fit, described second card The eave tile hooked is appeared by described second spigot surface.

13. docking stations as claimed in claim 12, it is characterised in that described retaining mechanism also includes:

First elastomer, is positioned at inside described position-limit mechanism, the first end of described first elastomer and described the One snap fit is connected, and the second end of described first elastomer is connected with described position-limit mechanism；

Second elastomer, is positioned at inside described position-limit mechanism, the first end of described second elastomer and described the Two snap fits are connected, and the second end of described second elastomer is connected with described position-limit mechanism.

14. docking stations as claimed in claim 13, it is characterised in that described snap-in structure also includes Controlling organization, described controlling organization is positioned on described Part I, and described controlling organization includes:

Main long-armed；

First erects wall, is connected to the first end that described master is long-armed；

Second erects wall, is connected to the second end that described master is long-armed；Wherein, described first erect wall and second and erect wall It is positioned at the same side that described master is long-armed；

3rd elastomer, erects wall and second described first and erects between wall, the first of described 3rd elastomer Holding be connected long-armed with described master, the second end of described 3rd elastomer is connected with described Part I；

First is long-armed, is connected to described first other end erecting wall and is located remotely from the second end that described master is long-armed, Described first long-armed on there is the first perforate；

Second is long-armed, is connected to described second other end erecting wall and is located remotely from the first end that described master is long-armed, Described second long-armed on there is the second perforate；

First synchronous device, through described first perforate, described first synchronous device erects wall away from described first One end be inclined-plane, described described first direction erecting wall that tiltedly faces away from tilts, and described inclined-plane is with described First opening contacts, described first synchronous device is connected with described first snap fit；

Second synchronous device, through described second perforate, described second synchronous device erects wall away from described second One end be inclined-plane, described described second direction erecting wall that tiltedly faces away from tilts, and described inclined-plane is with described Second opening contacts, described second synchronous device is connected with described second snap fit；

Wherein, when have external force put in the first direction described master long-armed time, described 3rd elastomer contracts, Described master is long-armed to be moved along the first direction, described first long-armed and described second long-armed also move along the first direction, Described first perforate oppresses the inclined-plane of described first synchronous device and described second lock unit with described second perforate The inclined-plane of part so that described first synchronous device and described second synchronous device respectively to described first erect wall and Described second erects wall moves, and the most described first synchronous device and described second synchronous device drive described respectively First snap fit and described second snap fit retract in described first spigot surface and described second spigot surface.

15. docking stations as described in any one of claim 9-14, it is characterised in that described position-limit mechanism is also Including the first opening, it is formed on the surface that described position-limit mechanism is relative with described Part I.

16. docking stations as claimed in claim 15, it is characterised in that described body also includes:

Second Datalink Interface, is positioned in described first opening, described second Datalink Interface and setting The first Datalink Interface in described first groove is corresponding.