CN202443359U - Sliding connector mechanism and related thin portable electronic device - Google Patents

Abstract

The utility model provides a slidingtype connector mechanism and relevant slim portable electronic device thereof. The sliding connector mechanism includes a base; a base, which is arranged on the base in a sliding way; a connector disposed on the base; and a door cover movably arranged on the base and connected to the base. The door cover is used for driving the base to slide along a first direction relative to the base when moving relative to the base, so as to adjust a relative position of the connector in the base. The utility model discloses a slidingtype connector mechanism's simple structure, processing ease, can shift out or move back into in the casing in the synchronous drive connector when switch door closure.

Description

Slidingtype connector mechanism and relevant slim portable electronic devices thereof

Technical field

The utility model relates to a kind of connector mechanism, relates in particular to a kind of slidingtype connector mechanism and relevant slim portable electronic devices thereof.

Background technology

Along with the prosperity of information and the progress of computer technology, the volume of computer system day by day dwindles, and uses also day by day polynary.In order to expand the function of computer system, adapt to each user's different demands, computer system external device miscellaneous also just arises at the historic moment.For instance, similarly be circumscribed hard disc or portable memory device, can expand the originally limited memory capacity of computer system; Circumscribed CD-ROM device and compact disc-recordable then can expand the multimedia resource access facility of computer system, and the ability of high capacity data backup is provided; Or with grid line connection external network, and reach functions such as online acquisition data and browsing page.Yet; Notebook computer develops towards frivolous trend now; Mechanism's spatial design for thickness requires strictness day by day, and the height that is arranged at the connectivity port of notebook computer side tends to limit the notebook computer integral thickness, and causes the restriction of mechanism design.

For instance; Be used for being connected in the thickness of shell of the communications serial interface height of devices of circumscribed equipment greater than notebook computer; So size that must matching connector mechanism in notebook computer mechanism design aspect and increase thickness; Or can the communications serial interface device be gone out the relative housing of mode with the outward appearance Local Convex for the user is easy to operate and outwards put, but so just can influence aesthetic appearance, and be prone to have dust to fall into or collide the risk of damage; If the relative housing of communications serial interface device is inwardly put; Can cause the operational inconvenience of user again; So how to design a kind of product specification requirement now that meets; Can satisfy frivolous trend again and need not to sacrifice the connector mechanism of aesthetic appearance, just be the problem of the required effort of electronic industry mechanism design now.

Summary of the invention

The purpose of the utility model provides a kind of slidingtype connector mechanism and relevant slim portable electronic devices thereof, to solve the above problems.

One embodiment of the utility model discloses a kind of slidingtype connector mechanism.This slidingtype connector mechanism includes a base; One pedestal slidably is arranged at this base; A connector is arranged on this pedestal; And a door closure, be arranged at this base and be connected to this pedestal with movable mode.This door closure is used in when this base moves, and drives this base edge one first direction slip relatively of this pedestal, so as to adjusting the relative position of this connector in this base.

One embodiment of the utility model slidingtype connector mechanism discloses this door closure in addition and includes a guid arm, and this guid arm has a chute structure, and this guid arm by this chute structure to be socketed on a sliding pin of this pedestal.

One embodiment of the utility model slidingtype connector mechanism discloses this door closure in addition and is articulated in this base; This guid arm relatively promotes this sliding pin during this base pivots in this door closure; So that this sliding pin is along this chute structure slippage, so drive this pedestal relatively this base slide.

One embodiment of the utility model slidingtype connector mechanism discloses this slidingtype connector mechanism in addition and also includes a flexible member; Be arranged between this pedestal and this base, be used for driving the second direction slip of this opposite this first direction in base edge relatively of this pedestal.

One embodiment of the utility model slidingtype connector mechanism discloses the circuit board that this connector includes a joint and connects this joint in addition, and this pedestal includes a trip, and this trip is in order to this circuit board of snapping.

One embodiment of the utility model slidingtype connector mechanism discloses this pedestal in addition and also includes a mask structure, and this joint is arranged in this mask structure.

One embodiment of the utility model slidingtype connector mechanism discloses this pedestal in addition and includes a guide barrel construction, and this base includes a rail structure, and this pedestal is by the combination of this guide barrel construction and this rail structure and be arranged at this base.

One embodiment of the utility model slidingtype connector mechanism discloses this door closure in addition and has a locating part; This base has a block; Be positioned at a position of corresponding this locating part, this locating part is connected to an outside of this block, to limit this door closure pivot of this base relatively; And this locating part also moves to an inboard of this block from this outside with the elastic deformation mode, so as to removing the pivot restriction of this base relatively of this door closure.

One embodiment of the utility model slidingtype connector mechanism discloses this slidingtype connector mechanism in addition and includes a track structure in addition, is arranged at this base, an actuator lever; Be arranged on this track structure with movable mode; And be connected to this door closure and this pedestal, a flex member, an end of this flex member slides along this track structure; And the other end of this flex member connects this actuator lever; And one the pushing spring, be arranged between this actuator lever and this track structure, be used for driving this actuator lever moving relative to this track structure.

One embodiment of the utility model slidingtype connector mechanism discloses this track structure in addition and includes a first stop, one second dwell point, a first passage and a second channel; This first stop and this first passage and this second channel form one section poor structure respectively, and this second dwell point and this first passage and this second channel form one section poor structure respectively.

It is slidably to be connected in this actuator lever that one embodiment of the utility model slidingtype connector mechanism discloses this door closure in addition; This door closure be in relative to this base when this first direction moves, this end that utilizes this actuator lever to drive this flex member moves into this first passage from this first stop.

It is that this end that is used for driving this flex member moves to this second dwell point from this first stop via this first passage that one embodiment of the utility model slidingtype connector mechanism discloses this pushing spring in addition.

It is that this end that utilizes this actuator lever to drive this flex member moves to this first stop from this second dwell point via this second channel when the second direction relative to this opposite this first direction in base edge moves that one embodiment of the utility model slidingtype connector mechanism discloses this door closure in addition.

It is when this end of this flex member moves between this second dwell point and this first stop, to produce elastic deformation that one embodiment of the utility model slidingtype connector mechanism discloses this pushing spring in addition.

One embodiment of the utility model slidingtype connector mechanism discloses this slidingtype connector mechanism in addition and includes an extension spring in addition, is arranged between this door closure and this actuator lever.This extension spring is to move relative to this actuator lever along a third direction of different this first direction and a second direction in order to drive this door closure.

One embodiment of the utility model slidingtype connector mechanism discloses this door closure in addition and includes a sleeving connecting rod in addition, and this extension spring is to be installed on this sleeving connecting rod with axial socket mode.

One embodiment of the utility model slidingtype connector mechanism discloses this base in addition and has an accommodation space, and the size that the size of this accommodation space mutually should door closure is so that this door closure can be installed in this accommodation space.

One embodiment of the utility model slidingtype connector mechanism discloses the circuit board that this connector includes a joint and connects this joint in addition, and this slidingtype connector mechanism is to utilize a retaining element this circuit board to be fixed in a prominent seat of this pedestal.

The utility model one embodiment discloses a kind of slim portable electronic devices with slidingtype connector mechanism in addition.This slim portable electronic devices includes a housing, in order to a ccontaining electronic component.The thickness of one side of this housing is in fact less than the thickness of the zone line of this housing.This slim portable electronic devices includes a slidingtype connector mechanism in addition, is arranged at the inside of this side of this housing.This slidingtype connector mechanism includes a base, is arranged in the housing; One pedestal slidably is arranged at this base; A connector is arranged on this pedestal; And a door closure, be arranged at this base and be connected to this pedestal with movable mode.This door closure is used in when this base moves, and drives this base edge one first direction slip relatively of this pedestal, so as to this connector is moved to the outside of this housing from the inside of this housing.

One embodiment of the slim portable electronic devices of the utility model discloses this door closure in addition and includes a guid arm, and this guid arm has a chute structure, and this guid arm by this chute structure to be socketed on a sliding pin of this pedestal.

One embodiment of the slim portable electronic devices of the utility model discloses this door closure in addition and is articulated in this base; This guid arm relatively promotes this sliding pin during this base pivots in this door closure; So that this sliding pin is along this chute structure slippage, so drive this pedestal relatively this base slide.

One embodiment of the slim portable electronic devices of the utility model discloses this slidingtype connector mechanism in addition and also includes:

One flexible member is arranged between this pedestal and this base, is used for driving the second direction slip of this opposite this first direction in base edge relatively of this pedestal.

One embodiment of the slim portable electronic devices of the utility model discloses the circuit board that this connector includes a joint and connects this joint in addition, and this pedestal includes a trip, and this trip is in order to this circuit board of snapping.

One embodiment of the slim portable electronic devices of the utility model discloses this pedestal in addition and also includes a mask structure, and this joint is arranged in this mask structure.

One embodiment of the slim portable electronic devices of the utility model discloses this pedestal in addition and includes a guide barrel construction, and this base includes a rail structure, and this pedestal is by the combination of this guide barrel construction and this rail structure and be arranged at this base.

One embodiment of the slim portable electronic devices of the utility model discloses this door closure in addition and has a locating part; This base has a block; Be positioned at a position of corresponding this locating part, this locating part is connected to an outside of this block, to limit this door closure pivot of this base relatively; And this locating part also moves to an inboard of this block from this outside with the elastic deformation mode, so as to removing the pivot restriction of this base relatively of this door closure.

One embodiment of the slim portable electronic devices of the utility model discloses this slidingtype connector mechanism in addition and also includes a track structure, is arranged at this base; One actuator lever is arranged on this track structure with movable mode, and is connected to this door closure and this pedestal; One flex member, an end of this flex member slides along this track structure, and the other end of this flex member connects this actuator lever; And one the pushing spring, be arranged between this actuator lever and this track structure, be used for driving this actuator lever moving relative to this track structure.

One embodiment of the slim portable electronic devices of the utility model discloses this track structure in addition and includes a first stop, one second dwell point, a first passage and a second channel; This first stop and this first passage and this second channel form one section poor structure respectively, and this second dwell point and this first passage and this second channel form one section poor structure respectively.

One embodiment of the slim portable electronic devices of the utility model discloses this door closure in addition and slidably is connected in this actuator lever; This door closure in relative to this base when this first direction moves, this end that utilizes this actuator lever to drive this flex member moves into this first passage from this first stop.

One embodiment of the slim portable electronic devices of the utility model discloses this end that this pushing spring is used for driving this flex member in addition and moves to this second dwell point from this first stop via this first passage.

One embodiment of the slim portable electronic devices of the utility model discloses this door closure in addition when the second direction relative to this opposite this first direction in base edge moves, and this end that utilizes this actuator lever to drive this flex member moves to this first stop from this second dwell point via this second channel.

One embodiment of the slim portable electronic devices of the utility model discloses this pushing spring in addition and when this end of this flex member moves, produce elastic deformation between this second dwell point and this first stop.

One embodiment of the slim portable electronic devices of the utility model discloses this slidingtype connector mechanism in addition and also includes:

One extension spring is arranged between this door closure and this actuator lever, and this extension spring moves relative to this actuator lever along a third direction of different this first direction and a second direction in order to drive this door closure.

One embodiment of the slim portable electronic devices of the utility model discloses this door closure in addition and also includes a sleeving connecting rod, and this extension spring is installed on this sleeving connecting rod with axial socket mode.

One embodiment of the slim portable electronic devices of the utility model discloses this base in addition and has an accommodation space, and the size that the size of this accommodation space mutually should door closure is so that this door closure can be installed in this accommodation space.

One embodiment of the slim portable electronic devices of the utility model discloses the circuit board that this connector includes a joint and connects this joint in addition, and this slidingtype connector mechanism utilizes a retaining element this circuit board to be fixed in a prominent seat of this pedestal.

A kind of slidingtype connector mechanism that utilizes the opened/closed door closure to come the traction connector start of the utility model design, the slim portable electronic devices that has the architectural feature of side skiving with collocation.Simple in structure, the processing ease of the slidingtype connector mechanism of the utility model; Can when the switch door closure, shift out or be retracted in the housing by the driven in synchronism connector; So can effectively be applied to the slim portable electronic devices of being correlated with, reach and have brief outward appearance and advantage easy to use concurrently.

Description of drawings

Fig. 1 is the schematic appearance of slim portable electronic devices of first embodiment of the utility model.

Fig. 2 is the element decomposing schematic representation of slidingtype connector mechanism of first embodiment of the utility model.

Fig. 3 is the upright figure of group of slidingtype connector mechanism of first embodiment of the utility model.

Fig. 4 and Fig. 5 are respectively the slidingtype connector mechanism of first embodiment of the utility model in the part-structure side view of different operating state.

Fig. 6 and Fig. 7 are respectively the slidingtype connector mechanism of first embodiment of the utility model in the part-structure side view of different operating state.

Fig. 8 is the element decomposing schematic representation of slidingtype connector mechanism of second embodiment of the utility model.

Fig. 9 is the upright figure of group of slidingtype connector mechanism of second embodiment of the utility model.

Figure 10 is the vertical view of track structure of second embodiment of the utility model.

Figure 11 is the cut-open view of track structure of second embodiment of the utility model.

Wherein, description of reference numerals is following:

Embodiment

See also Fig. 1, Fig. 1 is the schematic appearance of a slim portable electronic devices 10 of first embodiment of the utility model.Slim portable electronic devices 10 can be a slim notebook computer or a thin flat computer.The slim portable electronic devices 10 of the utility model includes a housing 12 and a slidingtype connector mechanism 14.Housing 12 is in order to ccontaining a plurality of electronic components, for example assemblies such as central processing unit, hard disk, storer.The architectural feature of slim portable electronic devices 10 is the thickness of a side of its housing 12 in fact less than the thickness of the zone line of housing 12 so that housing 12 can be in the edge skiving, present the appearance design of light and handy moulding.

For the topology requirement of the slim portable electronic devices 10 of arranging in pairs or groups, slidingtype connector mechanism 14 is arranged at the inside of the side of housing 12, in order to connect the circumscribed connector.When non-working condition, slidingtype connector mechanism 14 is hidden in housing 12 inside of slim portable electronic devices 10; When desire is used slidingtype connector mechanism 14; The user can drive slidingtype connector mechanism 14 relative housings 12 and outwards slide; So that the slidingtype connector mechanism 14 of part can protrude the housing 12 of slim portable electronic devices 10; Be convenient to assign a circumscribed connector, for example USB joint, grid line joint or the like.

See also Fig. 2 and Fig. 3, Fig. 2 is the element decomposing schematic representation of slidingtype connector mechanism 14 of first embodiment of the utility model, and Fig. 3 is the upright figure of group of slidingtype connector mechanism 14 of first embodiment of the utility model.Slidingtype connector mechanism 14 includes a base 16, is arranged in the housing 12 pedestal 18; Be arranged at base 16 with sliding type relatively, a connector 20 is arranged on the pedestal 18; And a door closure 22, be arranged at base 16 and be connected to pedestal 18 with movable mode.Base 16 can have an accommodation space 161, and the size of the corresponding door closure 22 of the size of accommodation space 161, so door closure 22 can closely close entirely to accommodation space 161, falls into housing 12 inside to prevent foreign matter through base 16.Connector 20 can include a joint 201, and a circuit board 203, and it is connected in joint 201.The circumscribed connector can be connected to joint 201 when housing 12 is protruded in connector 20 parts, to electrically conduct with circuit board 203.

Pedestal 18 can include a mask structure 181, is used for coating joint 201 so that protection to be provided, and mask structure 181 is positioned at the position of contiguous accommodation space 161, just can be connected directly to joint 201 so that the circumscribed connector penetrates accommodation space 161.Pedestal 18 can include a plurality of trips 182 in addition, in order to be buckled in corresponding fixed orifice 204 on the circuit board 203, limits connector 20 moving relative to pedestal 18 whereby respectively.Yet the slidingtype connector mechanism 14 of the utility model can use other fixed mechanisms that connector 20 is mounted on the pedestal 18 in addition; For example utilize locking screw, rivet arrangement, viscose glue applying etc.; Its application aspect is looked closely user demand and is decided, so no longer detail in this.

In addition, pedestal 18 can include many guide barrel constructions 183 in addition, and base 16 can include the rail structure 163 of respective numbers.In first embodiment, pedestal 18 disposes two groups of guide barrel constructions 183 and rail structure 163 respectively with base 16, and pedestal 18 can be arranged on the base 16 with sliding type relatively with the combination of rail structure 163 by guide barrel construction 183.Be positioned at the inside of housing 12 during the initial position of pedestal 18 and connector 20, and door closure 22 is covered on the accommodation space 161 to avoid foreign matter to touch connector 20 through accommodation space 161.When user's desire is connected to slidingtype connector mechanism 14 with the circumscribed connector; Can be with door closure 22 relative base 16 activities with the accommodation space 161 that overturns out (meaning be promptly away from accommodation space 161); Driving pedestal 18 relative bases 16 whereby slides along a first direction D1; So that connector 20 can move to the outside of housing 12 from the inside of housing 12 along with moving of pedestal 18, so that assign the circumscribed connector.

As shown in Figure 2, the door closure 22 of the slidingtype connector mechanism 14 of first embodiment can be articulated in base 16 through a pivotal axis 24.Door closure 22 can include two guid arms 26, is arranged at the two ends of pivotal axis 24 respectively.Each guid arm 26 can have a chute structure 261, in order to be socketed on the corresponding sliding pin 184 of pedestal 18.Therefore when door closure 22 relative bases 16 pivot, guid arm 26 can promote sliding pin 184 so that it along 261 slippages of chute structure, and then applies a thrust to pedestal 18 and concern with the position of change pedestal 18 relative bases 16.In addition, the slidingtype connector mechanism 14 of first embodiment can include a flexible member 28 in addition, and its two ends are arranged at respectively on the fixed component of pedestal 18 and base 16, for example trip.The user overturn door closure 22 with drive pedestal 18 along first direction D1 when base 16 moves, flexible member 28 can be stretched and store an elastic-restoring force; And when the external force removal that puts on pedestal 18; The elastic-restoring force of flexible member 28 promptly can be used to drive pedestal 18 and slides along the relative base 16 of the second direction of opposite first direction D1; Return back to initial position to drive connector 20, meaning is about to the inside that connector 20 slips into housing 12.

In first embodiment, slidingtype connector mechanism 14 has the structural design of restriction door closure 22 relative base 16 range of pivot in addition.See also Fig. 4 and Fig. 5, Fig. 4 and Fig. 5 are respectively the slidingtype connector mechanism 14 of first embodiment of the utility model in the part-structure side view of different operating state along A-A ' line (as shown in Figure 3).Door closure 22 can have a locating part 221, is positioned at a position of door closure 22 bottom proximate base 16, and base 16 can have a block 165, is positioned at a position of corresponding locating part 221.When door closure 22 relative bases 16 turn up; As shown in Figure 4; Locating part 221 can be in order to be connected to an outside of block 165, and it act as and prevents to be pullled by the tractive force of flexible member 28 because of pedestal 18, closes entire to accommodation space 161 and drive door closure 22; Limit the pivot of door closure 22 relative bases 16 whereby, connector 20 is maintained at the position of part-structure evagination housing 12.On the other hand; When desiring to shut door closure 22, force urges door closure 22 beyond the user is so that locating part 221 can move to an inboard of block 165 through the mode of elastic deformation from the outside of block 165; As shown in Figure 5; Remove the pivot restriction of door closure 22 relative bases 16 whereby, closely close entirely to accommodation space 161 along moving of second direction D2, accomplish the action of taking in of connector 20 so that door closure 22 flexible members 28 capable of using drive pedestals 18.

See also Fig. 6 and Fig. 7, Fig. 6 and Fig. 7 are respectively the slidingtype connector mechanism 14 of first embodiment of the utility model in the part-structure side view of different operating state along B-B ' line (as shown in Figure 3).As shown in Figure 6; When pedestal 18 and connector 20 are in housing 12 inside (initial position); Flexible member 28 does not receive external force and pulls and be out of shape, and this moment, door closure 22 closed entirely on accommodation space 161, caused connector 20 loose contacts damage to prevent dust from falling in the housing 12.

When the user outwards overturns door closure 22 relative bases 16; Guid arm 26 can drive sliding pin 184 and slide along chute structure 261; So that can promoting pedestal 18 through sliding pin 184, guid arm 26 skids off outside the housing 12 along the relative base 16 of first direction D1, as shown in Figure 7, and flexible member 28 generation stretcher strains this moment; And the connector 20 that has part exposes housing 12, so that the user can be easy to assign the circumscribed connector.On the other hand; When desire is retracted to housing 12 inside with connector 20; The user then can be with door closure 22 entire accommodation spaces 161 to base 16; This moment pedestal 18 can the person of being used institute externally applied forces, and the driving of the elastic-restoring force that flexible member 28 provided and traction and move relative to base 16 along second direction D2, to return back to initial position shown in Figure 6.

See also Fig. 8 and Fig. 9, Fig. 8 is the element decomposing schematic representation of slidingtype connector mechanism 14 of second embodiment of the utility model, and Fig. 9 is the upright figure of group of slidingtype connector mechanism 14 of second embodiment of the utility model.Among second embodiment, the element that has identical numbering with first embodiment has identical structure and function, so no longer detail in this.The slidingtype connector mechanism 14 of second embodiment can include a track structure 30, an actuator lever 32, a flex member 34 in addition and push spring 36 with one.Track structure 30 can be fixedly arranged on base 16.Actuator lever 32 is arranged on the track structure 30 with manner relatively, and is connected to door closure 22 and pedestal 18.One end of flex member 34 (free end 341) can slide along track structure 30, and the other end of flex member 34 (stiff end 343) is connected in actuator lever 32.Pushing spring 36 can be arranged between actuator lever 32 and the track structure 30, is used for driving moving of actuator lever 32 relative orbit structures 30.Compare first embodiment, the slidingtype connector mechanism of second embodiment 14 alternatives in addition utilizes a retaining element 38, and for example outside locking screw passes the fixed orifice 204 of circuit board 203, on a prominent seat 185 that circuit board 203 is attached to pedestal 18.

See also Figure 10 and Figure 11, Figure 10 is the vertical view of track structure 30 of second embodiment of the utility model, and Figure 11 is the cut-open view of track structure 30 of second embodiment of the utility model.Shown in figure 10, track structure 30 can include a first stop 301, one second dwell point 302, a first passage 303 and a second channel 304.When the free end 341 of flex member 34 can be along with 30 slippages of actuator lever 32 relative orbit structures, between first stop 301, second dwell point 302, first passage 303 and second channel 304, move circularly.Wherein first stop 301 can form a section poor structure respectively with first passage 303 and second channel 304; Second dwell point 302 can form a section poor structure respectively with first passage 303 and second channel 304; Shown in figure 11, this section difference structure can be used to avoid the free end 341 of flex member 34 to move along non-anticipated orientation.

For instance, the free end 341 that can be used to prevent flex member 34 of the section difference structure between first stop 301 and the first passage 303 moves to first passage 303 for himself elasticity of flexure restoring force drives from first stop 301.The user needs door 22 to apply an external force, move along first direction D1 relative orbit structure 30 to drive actuator lever 32, and then the free end 341 that begins to drive flex member 34 moves to first passage 303 from first stop 301.On the other hand, the section difference structure between first stop 301 and the second channel 304 can be used to avoid the elastic-restoring force driving of the free end 341 of flex member 34 for pushing spring 36, and moves to second channel 304 from first stop 301.But the free end 341 of flex member 34 only folk prescription then moves into first passage 303 again to from second channel 304 migration first stops 301.

In addition, when the user through door closure 22 with when second direction D2 drives actuator lever 32, the free end 341 that the section difference structure between second dwell point 302 and the first passage 303 can be used to avoid flex member 34 is from second dwell point, 302 immigration first passages 303.Section difference structure between second dwell point 302 and the second channel 304 can be gently by low paramount domatic; With guarantee when actuator lever 32 when second direction D2 promotes flex member 34 and moves; The free end 341 of flex member 34 can move in the second channel 304 from second dwell point 302, and meaning is that free end 341 is to carry out unidirectional moving back and forth with the order of first stop 301, first passage 303, second dwell point 302 and second channel 304.

But the door closure 22 of second embodiment is arranged on the base 16 with the lateral slip mode.Like Fig. 8 and shown in Figure 9; Door closure 22 can have a slide rail 223 and guide groove 321 respectively with actuator lever 32; The combination that door closure 22 utilizes slide rail 223 and guide groove 321 is connected in actuator lever 32 with sliding type relatively, whereby door closure 22 just relatively base 16 be displaced sideways and unlikely and its disengaging.The slidingtype connector mechanism 14 of second embodiment can include an extension spring 40 in addition; Its two ends are arranged at respectively on the fixed component of door closure 22 and actuator lever 32; For example trip, and extension spring 40 can axially socket mode be installed on a sleeving connecting rod 225 of door closure 22.It is crooked that sleeving connecting rod 225 is used for avoiding extension spring 40 when elastic deformation, to twist, so sleeving connecting rod 225 can be along the inner surface that axially is arranged at door closure 22 of the elastic deformation of extension spring 40.

Hence one can see that; The door closure 22 of the slidingtype connector mechanism 14 of second embodiment is the slip lid that is displaced sideways; When the user closes door closure 22 entire during in accommodation space 161, elastic deformation is promptly pullled and produced to extension spring 40, and this moment, pedestal 18 was positioned at the inside of housing 12 with connector 20; When promoting door closure 22, the user shifts out accommodation space 161; The elastic-restoring force of extension spring 40 can move relative to base 16 and actuator lever 32 in order to the third direction D3 of driving door closure 22 along different first direction D1 and second direction D2; So that door closure 22 exposes accommodation space 161 toward being displaced sideways; And pedestal 18 shifts out housing 12 with the driving that connector 20 can receive actuator lever 32 along first direction D1, and person easy to use can assign the circumscribed connector.

As shown in Figs. 8 to 11; The pedestal 18 of the slidingtype connector mechanism 14 of second embodiment can be along with door closure 22 being displaced sideways along third direction D3; And along first direction D1 and relative base 16 slippages of second direction D2, so that connector 20 visual user's demands and protrude housing 12 or the hidden inside of going into housing 12.In detail; When desire is used slidingtype connector mechanism 14; The user can spur door closure 22 and move shifting out accommodation space 161 relative to base 16 along first direction D1, and door closure 22 spring 40 that can be stretched drove and automatically was displaced sideways along third direction D3 this moment, and actuator lever 32 can move along first direction D1 along with door closure 22 with the time; The section of the overcoming difference structure so that the free end 341 of flex member 34 can be that actuator lever 32 drives, and move into first passages 303 from first stop 301.

After the free end 341 of flex member 34 moves into first passage 303; Pushing spring 36 is used for promoting actuator lever 32 and moves relative to rail structure 30 along first direction D1; This moment, the free end 341 of flex member 34 moved to second dwell point 302 from first passage 303; So that pedestal 18 and connector 20 can protrude outside the housing 12 with moved further along with actuator lever 32; So far accomplish the opening program of slidingtype connector mechanism 14, the user can be electrically connected on slim portable electronic devices 10 with the circumscribed connector through the slidingtype connector mechanism 14 of evagination.

On the other hand; When desire is taken in connector 20 to housing 12 inside; The user at first promotes door closure 22 and is laterally to accommodation space 161 the place aheads along the direction of opposite third direction D3, and it is entire to accommodation space 161 so that it is closed then to promote door closure 22 along second direction D2.Actuator lever 32 is except passing pedestal 18 and connector 20 entering housings 12 inside by the driving of door closure 22 at this moment, and the free end 341 that can drive flex member 34 in addition simultaneously moves to first stop 301 from second dwell point 302 via second channel 304.After free end 341 got into first stop 301, the section difference structure between first stop 301 just capable of using and first passage 303 and the second channel 304 limited moving of flex member 34, and makes connector 20 can firmly be placed in the inside of housing 12.What deserves to be mentioned is; Track structure 30 be one move in circles formula orbit Design; Produce deflection deformation when flex member 34 can move in track structure 30, move between first stop 301, second dwell point 302, first passage 303 and second channel 304, to switch swimmingly.

In sum, the slim portable electronic devices of the utility model is that side in housing is provided with the slidingtype connector mechanism.Because a structure height of slidingtype connector mechanism is in fact greater than a thickness of housing side; In the time will not using the circumscribed connector; The slidingtype connector mechanism can be hidden in the deep inside of housing; So that slim portable electronic devices can have the edge skiving, present the appearance design of light and handy moulding.In the time of need the circumscribed connector being connected to slim portable electronic devices; The user can be by the door closure of opening the slidingtype connector mechanism; Draw that its pedestal and connector outwards move from the inside of housing and outside part is exposed to, electrically conduct so that the circumscribed connector assigned to accomplish to the joint of connector.

The utility model includes two kinds of embodiment.The door closure of the slidingtype connector mechanism of first embodiment is articulated in base; When the relative base pivots of door closure; The sliding pin that guid arm can forward promote pedestal slides along its chute structure, and driving the outside slippage of the relative base of pedestal, and connector moves outside enclosure interior and outside part is exposed to.The door closure of the slidingtype connector mechanism of second embodiment is that movable mode is connected in actuator lever, whereby can be displaced sideways on the accommodation space that mode is covered in base.When the door closure of second embodiment moves apart accommodation space; Except extension spring capable of using is pushed door closure open automatically toward side; Actuator lever also can drive pedestal and connector simultaneously from the outside slippage of enclosure interior, to reach the purpose of the position relation that can adjust the relative housing of connector.

Compared to prior art, a kind of slidingtype connector mechanism that utilizes the opened/closed door closure to come the traction connector start of the utility model design, the slim portable electronic devices that has the architectural feature of side skiving with collocation.Simple in structure, the processing ease of the slidingtype connector mechanism of the utility model; Can when the switch door closure, shift out or be retracted in the housing by the driven in synchronism connector; So can effectively be applied to the slim portable electronic devices of being correlated with, reach and have brief outward appearance and advantage easy to use concurrently.

The above is merely the preferred embodiment of the utility model, and all equalizations of being done according to the utility model claim change and modify, and all should belong to the covering scope of the utility model.

Claims (36)

1. a slidingtype connector mechanism is characterized in that, includes:

One base;

One pedestal slidably is arranged at this base;

A connector is arranged on this pedestal; And

One door closure is arranged at this base and is connected to this pedestal with movable mode, and this door closure is used in when this base moves, and drives this base edge one first direction slip relatively of this pedestal, so as to adjusting the relative position of this connector in this base.

2. slidingtype connector mechanism as claimed in claim 1 is characterized in that this door closure includes a guid arm, and this guid arm has a chute structure, and this guid arm by this chute structure to be socketed on a sliding pin of this pedestal.

3. slidingtype connector mechanism as claimed in claim 2; It is characterized in that this door closure is articulated in this base, this guid arm relatively promotes this sliding pin during this base pivots in this door closure; So that this sliding pin is along this chute structure slippage, so drive this pedestal relatively this base slide.

4. slidingtype connector mechanism as claimed in claim 2 is characterized in that, also includes:

One flexible member is arranged between this pedestal and this base, is used for driving the second direction slip of this opposite this first direction in base edge relatively of this pedestal.

5. slidingtype connector mechanism as claimed in claim 1 is characterized in that, the circuit board that this connector includes a joint and connects this joint, and this pedestal includes a trip, and this trip is in order to this circuit board of snapping.

6. slidingtype connector mechanism as claimed in claim 5 is characterized in that this pedestal also includes a mask structure, and this joint is arranged in this mask structure.

7. slidingtype connector mechanism as claimed in claim 1 is characterized in that this pedestal includes a guide barrel construction, and this base includes a rail structure, and this pedestal is by the combination of this guide barrel construction and this rail structure and be arranged at this base.

8. slidingtype connector mechanism as claimed in claim 2 is characterized in that this door closure has a locating part; This base has a block; Be positioned at a position of corresponding this locating part, this locating part is connected to an outside of this block, to limit this door closure pivot of this base relatively; And this locating part also moves to an inboard of this block from this outside with the elastic deformation mode, so as to removing the pivot restriction of this base relatively of this door closure.

9. slidingtype connector mechanism as claimed in claim 1 is characterized in that, also includes:

One track structure is arranged at this base;

One actuator lever is arranged on this track structure with movable mode, and is connected to this door closure and this pedestal;

One flex member, an end of this flex member slides along this track structure, and the other end of this flex member connects this actuator lever; And

One pushing spring is arranged between this actuator lever and this track structure, is used for driving this actuator lever moving relative to this track structure.

10. slidingtype connector mechanism as claimed in claim 9; It is characterized in that; This track structure includes a first stop, one second dwell point, a first passage and a second channel; This first stop and this first passage and this second channel form one section poor structure respectively, and this second dwell point and this first passage and this second channel form one section poor structure respectively.

11. slidingtype connector mechanism as claimed in claim 10; It is characterized in that; This door closure slidably is connected in this actuator lever, this door closure in relative to this base when this first direction moves, this end that utilizes this actuator lever to drive this flex member moves into this first passage from this first stop.

12., it is characterized in that this end that this pushing spring is used for driving this flex member moves to this second dwell point from this first stop via this first passage like claim 10 or 11 described slidingtype connector mechanisms.

13. slidingtype connector mechanism as claimed in claim 10; It is characterized in that; When this door closure moved in the second direction relative to this opposite this first direction in base edge, this end that utilizes this actuator lever to drive this flex member moved to this first stop from this second dwell point via this second channel.

14. slidingtype connector mechanism as claimed in claim 13 is characterized in that, this pushing spring produces elastic deformation when this end of this flex member moves between this second dwell point and this first stop.

15. slidingtype connector mechanism as claimed in claim 11 is characterized in that, also includes:

One extension spring is arranged between this door closure and this actuator lever, and this extension spring moves relative to this actuator lever along a third direction of different this first direction and a second direction in order to drive this door closure.

16. slidingtype connector mechanism as claimed in claim 15 is characterized in that this door closure also includes a sleeving connecting rod, and this extension spring is installed on this sleeving connecting rod with axial socket mode.

17. slidingtype connector mechanism as claimed in claim 1 is characterized in that this base has an accommodation space, the size that the size of this accommodation space mutually should door closure is so that this door closure can be installed in this accommodation space.

18. slidingtype connector mechanism as claimed in claim 1 is characterized in that, the circuit board that this connector includes a joint and connects this joint, this slidingtype connector mechanism utilize a retaining element this circuit board to be fixed in a prominent seat of this pedestal.

19. the slim portable electronic devices with slidingtype connector mechanism is characterized in that, includes:

One housing, in order to a ccontaining electronic component, the thickness of a side of this housing is less than the thickness of the zone line of this housing; And

One slidingtype connector mechanism is arranged at the inside of this side of this housing, and this slidingtype connector mechanism includes:

One base is arranged in this housing;

One pedestal slidably is arranged at this base;

A connector is arranged on this pedestal; And

One door closure is arranged at this base and is connected to this pedestal with movable mode, and this door closure is used in when this base moves, and drives this base edge one first direction slip relatively of this pedestal, so as to this connector is moved to the outside of this housing from the inside of this housing.

20. slim portable electronic devices as claimed in claim 19 is characterized in that this door closure includes a guid arm, this guid arm has a chute structure, and this guid arm by this chute structure to be socketed on a sliding pin of this pedestal.

21. slim portable electronic devices as claimed in claim 20; It is characterized in that this door closure is articulated in this base, this guid arm relatively promotes this sliding pin during this base pivots in this door closure; So that this sliding pin is along this chute structure slippage, so drive this pedestal relatively this base slide.

22. slim portable electronic devices as claimed in claim 20 is characterized in that, this slidingtype connector mechanism also includes:

One flexible member is arranged between this pedestal and this base, is used for driving the second direction slip of this opposite this first direction in base edge relatively of this pedestal.

23. slim portable electronic devices as claimed in claim 19 is characterized in that, the circuit board that this connector includes a joint and connects this joint, and this pedestal includes a trip, and this trip is in order to this circuit board of snapping.

24. slim portable electronic devices as claimed in claim 23 is characterized in that this pedestal also includes a mask structure, and this joint is arranged in this mask structure.

25. slim portable electronic devices as claimed in claim 19 is characterized in that this pedestal includes a guide barrel construction, this base includes a rail structure, and this pedestal is by the combination of this guide barrel construction and this rail structure and be arranged at this base.

26. slim portable electronic devices as claimed in claim 20 is characterized in that this door closure has a locating part; This base has a block; Be positioned at a position of corresponding this locating part, this locating part is connected to an outside of this block, to limit this door closure pivot of this base relatively; And this locating part also moves to an inboard of this block from this outside with the elastic deformation mode, so as to removing the pivot restriction of this base relatively of this door closure.

27. slim portable electronic devices as claimed in claim 19 is characterized in that, this slidingtype connector mechanism also includes:

One track structure is arranged at this base;

One actuator lever is arranged on this track structure with movable mode, and is connected to this door closure and this pedestal;

One flex member, an end of this flex member slides along this track structure, and the other end of this flex member connects this actuator lever; And

One pushing spring is arranged between this actuator lever and this track structure, is used for driving this actuator lever moving relative to this track structure.

28. slim portable electronic devices as claimed in claim 27; It is characterized in that; This track structure includes a first stop, one second dwell point, a first passage and a second channel; This first stop and this first passage and this second channel form one section poor structure respectively, and this second dwell point and this first passage and this second channel form one section poor structure respectively.

29. slim portable electronic devices as claimed in claim 28; It is characterized in that; This door closure slidably is connected in this actuator lever; This door closure in relative to this base when this first direction moves, this end that utilizes this actuator lever to drive this flex member moves into this first passage from this first stop.

30., it is characterized in that this end that this pushing spring is used for driving this flex member moves to this second dwell point from this first stop via this first passage like claim 28 or 29 described slim portable electronic devices.

31. slim portable electronic devices as claimed in claim 28; It is characterized in that; When this door closure moved in the second direction relative to this opposite this first direction in base edge, this end that utilizes this actuator lever to drive this flex member moved to this first stop from this second dwell point via this second channel.

32. slim portable electronic devices as claimed in claim 31 is characterized in that, this pushing spring produces elastic deformation when this end of this flex member moves between this second dwell point and this first stop.

33. slim portable electronic devices as claimed in claim 29 is characterized in that, this slidingtype connector mechanism also includes:

One extension spring is arranged between this door closure and this actuator lever, and this extension spring moves relative to this actuator lever along a third direction of different this first direction and a second direction in order to drive this door closure.

34. slim portable electronic devices as claimed in claim 33 is characterized in that this door closure also includes a sleeving connecting rod, and this extension spring is installed on this sleeving connecting rod with axial socket mode.

35. slim portable electronic devices as claimed in claim 19 is characterized in that this base has an accommodation space, the size that the size of this accommodation space mutually should door closure is so that this door closure can be installed in this accommodation space.

36. slim portable electronic devices as claimed in claim 19; It is characterized in that; The circuit board that this connector includes a joint and connects this joint, this slidingtype connector mechanism utilize a retaining element this circuit board to be fixed in a prominent seat of this pedestal.

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