CN103687376B - Bolt lock and electronic building brick - Google Patents

Abstract

The present invention provides a kind of electronic building brick.Electronic building brick includes portable electron device, extended base and bolt lock.Extended base includes can the base of folding and framework each other.Bolt lock includes latch assembly, the first magnetic part and the second magnetic part.Latch assembly is movably arranged on framework and has storage tank.First magnetic part is movably arranged in storage tank.Second magnetic part is arranged in base and corresponding first magnetic part.First magnetic part and the second magnetic part have same magnetic.When framework closes each other with base, the second magnetic part maintains the first magnetic part in storage tank by magnetic force.When framework and base launch each other, the first magnetic part holding is between hole, location and storage tank.

Description

Bolt lock and electronic building brick

Technical field

The invention relates to a kind of bolt lock, and particularly a kind of bolt lock in conjunction with difference electronic installation and electronic building brick.

Background technology

In the epoch of information explosion now, human lives has be unable to do without electronic information, user often uses portable electron device to transmit mutually electronic information and stored electrons information has been fairly common, the mobile communications device especially can carried with or panel computer.

For panel computer, in order to reduce burden when user carries.Therefore, compared to notebook computer, panel computer when design many can the function of sacrificial section in the hope of its convenience.Such as, the button etc. of entity is replaced with Touch Screen.

In view of this, the manufacturer of part just devises the pedestal expanded, so that the function person of being adapted in use to after its expansion uses panel computer in fixed point.For example, except charge function, extended base also can the button even speaker of design entity so that panel computer improves its operability and usefulness by extended base.

Summary of the invention

The present invention provides a kind of electronic building brick.

The present invention provides a kind of electronic building brick, and it has preferably operability and safety.

One embodiment of the invention proposes a kind of electronic building brick, including a portable electron device, an extended base and a bolt lock.Extended base includes can a base of folding and a framework each other.Bolt lock includes a latch assembly, one first magnetic part and one second magnetic part.Latch assembly is movably arranged on framework.Latch assembly has a storage tank.First magnetic part is movably arranged in storage tank.Second magnetic part is arranged in base and corresponding first magnetic part.The magnetic of the first magnetic part is same as and the magnetic of the second magnetic part.When framework closes each other with base, the second magnetic part maintains the first magnetic part in storage tank by magnetic force, and latch assembly is suitable to bolt-lock portable electron device on framework, or discharges portable electron device from framework.When latch assembly bolt-lock portable electron device is on framework, and framework and base are when launching each other, first magnetic part and the second magnetic part are each other without the magnetic force interacted, and make the first magnetic part local removal storage tank and holding between latch assembly and framework, to stop that latch assembly moves on framework.

In one embodiment of this invention, above-mentioned framework has a hole, location, is positioned on the mobile route of storage tank.When latch assembly bolt-lock portable electron device is on framework, storage tank is relative to each other with hole, location, and when framework launches each other with base, the first magnetic part holding is in storage tank and hole, location.

In one embodiment of this invention, also including an elastic component, be arranged in storage tank, elastic component is connected between the first magnetic part and latch assembly, and elastic component perseverance drives the first magnetic part away from storage tank.

In one embodiment of this invention, above-mentioned elastic component provides the elastic force of the first magnetic part, less than the magnetic force between the first magnetic part and the second magnetic part.

In one embodiment of this invention, above-mentioned latch assembly includes a body and one first snap fit.Body is slideably arranged in framework.Body has a chute and above-mentioned storage tank.First snap fit has an articulated section and a sliding part.Articulated section is pivoted to framework.Sliding part is coupled to chute.Body slides and drives the first snap fit to rotate to expose or to be hidden in framework.

In one embodiment of this invention, the extension of above-mentioned chute axially keeps a spacing with articulated section, and chute extend axial axially consistent with the slip of body.

In one embodiment of this invention, also include one second snap fit, be arranged in framework and be positioned on the mobile route of body.When body slides towards the second snap fit and released outside framework by the second snap fit, body drives the first snap fit to rotate and be hidden in framework.When body moves apart the second snap fit, body drives the first snap fit to expose framework.

In one embodiment of this invention, above-mentioned body is between the first snap fit and the second snap fit.

In one embodiment of this invention, the second above-mentioned snap fit comprises a shell fragment and a hook part.One end of shell fragment is installed in framework.Hook part is positioned at the other end of shell fragment.Body slides towards the second snap fit and deforms shell fragment and released outside framework by hook part.When body moves apart the second snap fit, shell fragment drives hook part to retract in framework.

In one embodiment of this invention, the range of movement of the first above-mentioned snap fit and the range of movement of the second snap fit adhere to perpendicular to one another two geometrical plane separately.

Based on above-mentioned, in the above embodiment of the present invention, bolt lock by driving the first snap fit or the second snap fit, with by framework bolt-lock at base, or by portable electron device bolt-lock at framework.Furthermore, magnetic part of arranging in pairs or groups further, and make framework and base be only capable of when in closure state to carry out assembly and disassembly portable electron device.This measure makes expansion foundation when deployed condition, second snap fit remains to maintain its state being snapped in portable electron device and do not affected by external force, and then fixing annexation can be maintained with portable electron device at the extended base of deployed condition, accordingly ensure that safety when electronic building brick uses and operability.

Features described above and advantage for making the present invention can become apparent, special embodiment below, and coordinate institute's accompanying drawings to be described in detail below.

Accompanying drawing explanation

Fig. 1 and Fig. 2 is the schematic diagram of a kind of extended base of one embodiment of the invention respectively；

Fig. 3 and Fig. 4 is the extended base partial enlarged drawing in part A illustrating Fig. 2 with relative perspective respectively；

Fig. 5 and Fig. 6 is the side view of the latch assembly of Fig. 3 respectively；

Fig. 7 and Fig. 8 overlooks visual angle to illustrate the latch assembly schematic diagram at different conditions of Fig. 4；

Fig. 9 illustrates the latch assembly schematic diagram in another state；

Figure 10 is expansion foundation of the present invention and the portable electron device operational flowchart by bolt lock.

Description of reference numerals:

10: electronic building brick；

100: extended base；

110: base；

112,210: clamping part；

120: framework；

122: hole, location；

130: hinge；

200: portable electron device；

300: bolt lock；

310: the first magnetic parts；

320: the second magnetic parts；

330: latch assembly；

331: the first snap fits；

331a: articulated section；

331b: sliding part；

332: the second snap fits；

332a: shell fragment；

332b: hook part；

333: body；

333a: chute；

333b: storage tank；

334: push button；

340: elastic component；

A1: axially；

D1: spacing；

E1: one end；

E2: the other end；

N1: the first geometrical plane；

N2: the second geometrical plane；

P1: primary importance；

P2: the second position.

Detailed description of the invention

Fig. 1 and Fig. 2 is the schematic diagram of a kind of extended base of one embodiment of the invention respectively, and wherein Fig. 1 illustrates that extended base is in deployed condition, and Fig. 2 illustrates that extended base is at closure state.In the present embodiment, electronic building brick 10 is made up of an extended base 100 and a portable electron device 200.Extended base 100 includes base 110 and a framework 120, and connects wherein with a hinge 130 so that base 110 and framework 120 can folding accordingly and change between the deployed condition and the closure state of Fig. 2 of Fig. 1.Portable electron device 200, such as panel computer or mobile phone, it circumferentially clamps portable electron device 200 by being assembled to framework 120 with making framework 120, and thus make portable electron device 200 and base 110 be electrically connected, to be expanded the function of portable electron device 200 by extended base 100.

It should be noted that, for avoiding portable electron device 200 because of user false touch, the possibility dropped from framework 120 to occur when extended base 100 is in deployed condition (as shown in Figure 1), thus electronic building brick 10 also needs design one insurance mechanism, so that portable electron device 200 can be assembled to extended base 100 or dismantle from extended base 100 when untapped state.Accordingly, Fig. 3 and Fig. 4 is the extended base partial enlarged drawing in part A illustrating Fig. 2 with relative perspective respectively, at this, local of framework 120 is had an X-rayed, in order to identification and describe its interior associated components, and Fig. 3 and Fig. 4 is shown respectively the different conditions of bolt lock.

Please also refer to Fig. 3 and Fig. 4, electronic building brick 10 also includes the bolt lock 300 being arranged at extended base 100, will together with both bolt-locks during in order to the closure state at Fig. 2 of base 110 and the framework 120 at extended base 100, and bolt lock 300 also by portable electron device 200 bolt-lock on the framework 120 of extended base 100, can be limited portable electron device 200 only portable electron device 200 can be assembled to framework 120 when extended base 100 is in closure state by its architectural feature simultaneously.Details are as follows:

In the present embodiment, bolt lock 300 includes a latch assembly 330, and it is movably arranged on framework 120.Latch assembly 330 includes one first snap fit 331,1 second snap fit 332, body 333 and a push button 334.Body 333 is slideably arranged in framework 120 and slidably reciprocates along an axial A1, and the first snap fit 331 and the second snap fit 332 coexist on this axial A1 and are positioned at the opposite two ends of body 333.Push button 334 is arranged on outside framework 120 and is connected to body 333, so that user controls body 333 slide in framework 120 by forcing in push button 334.

Fig. 5 and Fig. 6 is the side view of the latch assembly of Fig. 3 respectively, and it is in different conditions in order to represent the first snap fit 331 to slide along with body 333.Refer to Fig. 3, Fig. 5 and Fig. 6, in the present embodiment, body 333 has a chute 333a, it is A1 extension vertically, and the first snap fit 331 has an an articulated section 331a and sliding part 331b, wherein articulated section 331a is pivoted to framework 120 (as shown in Figure 3), and sliding part 331b is coupled to the chute 333a of body 333.Owing to chute 333a and articulated section 331a keeps a spacing d1, therefore when A1's body 333 slidably reciprocates vertically, just drive sliding part 331b A1 vertically to move and apply moment of torsion on the first snap fit 331, to cause the first snap fit 331 to rotate relative to framework 120 with its articulated section 331a simultaneously.At this, expose or be hidden in framework 120 owing to the first snap fit 331 is equivalent to rotate on the first geometrical plane N1, therefore when framework 120 is closure state with base 110 (when the first geometrical plane N1 is perpendicular to base 110), therefore the first snap fit 331 exposing framework 120 can be buckled in the clamping part 112 of base 110, and makes the base 110 of closure state can be fixed together with framework 120.Relatively, if now user promotes body 333 so that when the first snap fit 331 rotates and is hidden in framework 120, just can release the fixed relationship between base 110 and framework 120.

Fig. 7 and Fig. 8 overlooks visual angle to illustrate the latch assembly schematic diagram at different conditions of Fig. 4, wherein the substantially corresponding state to Fig. 8 of the state of Fig. 3.Please also refer to Fig. 4, Fig. 7 and Fig. 8, the second snap fit 332 is arranged in framework 120 and is positioned on the mobile route of body 333.Saying further, the second snap fit 332 has one end E1 of a shell fragment 332a and a hook part 332b, shell fragment 332a and is fixed to framework 120, and hook part 332b is positioned at the other end E2 of shell fragment 332a.As it is shown in fig. 7, when the second snap fit 332 non-stress, the other end E2 of its shell fragment 332a extends towards away from portable electron device 200 place from framework 120 near portable electron device 200.As shown in Figure 8, when sliding towards the second snap fit 332 as body A1 vertically, body 333 can compress the other end E2 of shell fragment 332a, and then push hook part 332b to portable electron device 200, also the clamping part 210 of portable electron device 200 it is buckled in by hook part 332b release framework 120, so that portable electron device 200 is fixed on framework 120.In other words, second snap fit 332 is to move on one second geometrical plane N2, and the framework 120 after assembling also is positioned on this second geometrical plane N2 with portable electron device 200, and when framework 120 is closure state with base 110, the second geometrical plane N2 can be parallel to base 110.

Based on above-mentioned, please also refer to Fig. 5 to Fig. 8, first snap fit 331 of latch assembly 330 adheres to, when motion, the first geometrical plane N1 and the second geometrical plane N2 perpendiculared to one another with the second snap fit 332 separately, and the first snap fit 331 and the second snap fit 332 are positioned at the opposite end of body 333 sliding path.In other words, by the structure of above-mentioned first snap fit 331, body 333 and the second snap fit 332 and motion feature, when user makes body 333 slide into a primary importance P1 (such as Fig. 5 and Fig. 7), framework 120 can base 110 be lived by bolt-lock by the first snap fit 331, and can be discharged from framework 120 by portable electron device 200.Relatively, when user promotes body 333 to slide into a second position P2 (such as Fig. 6 and Fig. 8), framework 120 then discharges from base 110, and can with the second snap fit 332 by portable electron device 200 bolt-lock on framework 120.

Fig. 9 illustrates the latch assembly schematic diagram in another state.Please also refer to Fig. 5, Fig. 6 and Fig. 9, in the present embodiment, for making the base 110 of extended base 100 with framework 120 in the deployed state, portable electron device 200 remains to keep fixed relationship between framework 120 and do not dropped by the impact of any external force.Bolt lock 300 also includes elastic component 340,1 first magnetic part 310 and one second magnetic part 320, wherein body 333 has a storage tank 333b, first magnetic part 310 is movably arranged in storage tank 333b, and elastic component 340 is arranged in storage tank 333b and is connected between the first magnetic part 310 and body 333.At this, elastic component 340 is permanent drives the first magnetic part 310 to move towards the direction away from storage tank 333b, that is when the first magnetic part 310 is fully located in storage tank 333b, elastic component 340 is in deformation state.Second magnetic part 320 is arranged in base 110, and when base 110 is closure state with framework 120, the first magnetic part 310 and the second magnetic part 320 are relative to each other.Saying further, first magnetic part 310 of the present embodiment is identical in the magnetic of its opposite side with the second magnetic part 320, therefore when above-mentioned closure state, the first magnetic part 310 and the second magnetic part 320 produce magnetic repulsion each other.

It addition, framework 120 also has a hole, location 122, it is positioned on the mobile route of storage tank 333b.When body 333 slides into second position P2, hole 122, location is right against storage tank 333b, being beneficial to elastic component 340 and first magnetic part 310 can be pushed into hole 122, location, now the first magnetic part 310 holding is at hole, location 122 and storage tank 333b, and stops that body 333 slides relative to framework 120.

Figure 10 is expansion foundation of the present invention and the portable electron device operational flowchart by bolt lock.Please also refer to Fig. 5 and Fig. 6, Fig. 9 and Figure 10, in step s 110, the base 110 of extended base 100 and framework 120 are in closure state, and the first snap fit 331 is buckled in base 110 and base 110 and framework 120 is fixed together.In the step s 120, portable electron device 200 is assembled to framework 120.In step S130, promote body 333 to make the first snap fit 331 release the bolt-lock relation with base 110, simultaneously drive the second snap fit 332 and portable electron device 200 is fixed on framework 120.

Although it should be noted that storage tank 333b now is right against hole 122, location, but the magnetic repulsion between the first magnetic part 310 and the second magnetic part 320 be more than the magnetic repulsion of elastic component 340, therefore therefore the first magnetic part 310 still maintaining in storage tank 333b.In step S140, owing to releasing the bolt-lock relation of base 110 and framework 120 in previous step, therefore therefore user can launch relative to base 110 by driver framework 120.Now the distance between the first magnetic part 310 and the second magnetic part 320 can increase therewith, thus make magnetic repulsion therebetween gradually decrease, therefore elastic component 340 is just driven the first magnetic part 310 to move to hole 122, location, and then holding is between storage tank 333b and hole 122, location, causes and stop that body 333 continues the effect slided.

In other words, after base 110 and framework 120 launch each other, cause body 333 no longer to slide because of the holding action of above-mentioned first magnetic part 310, therefore the second snap fit 332 can maintain its state being buckled in portable electron device 200.Accordingly, when base 110 is in deployed condition with framework 120, portable electron device 200 remains to maintain the fixed relationship between framework 120, and it is not affected by other external force and avoids the probability dropped from framework 120.

Additionally, when need to by portable electron device 200 from dismounting framework 120 time, it is only necessary to reverse operating above-mentioned steps, even if also framework 120 and base 110 return back to closure state, just can take off portable electron device 200 smoothly.

In sum, in the above embodiment of the present invention, bolt lock is slided by body and drives the first snap fit or the second snap fit, so that framework bolt-lock at base or makes portable electron device bolt-lock at framework, and magnetic part of arranging in pairs or groups further, and make framework and base be only capable of when in closure state to carry out assembly and disassembly portable electron device.This measure makes expansion foundation when deployed condition, second snap fit remains to maintain its state being buckled in portable electron device and do not affected by external force, and then fixing annexation can be maintained with portable electron device at the extended base of deployed condition, accordingly ensure that safety when electronic building brick uses and operability.

Last it is noted that various embodiments above is only in order to illustrate technical scheme, it is not intended to limit；Although the present invention being described in detail with reference to foregoing embodiments, it will be understood by those within the art that: the technical scheme described in foregoing embodiments still can be modified by it, or wherein some or all of technical characteristic is carried out equivalent replacement；And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (10)

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

One portable electron device；

One extended base, including can a base of folding and a framework each other；

One bolt lock, including:

One latch assembly, is movably arranged on this framework, and this latch assembly has a storage tank；

One first magnetic part, is movably arranged in this storage tank；And

One second magnetic part, it is configured at this base and to should the first magnetic part, the magnetic of this first magnetic part is same as the magnetic of this second magnetic part, when this framework closes each other with this base, this second magnetic part maintains this first magnetic part in this storage tank by magnetic force, and this latch assembly is suitable to this portable electron device of bolt-lock on the frame, or discharge this portable electron device from this framework, when this this portable electron device of latch assembly bolt-lock on the frame, and this framework and this base are when launching each other, this first magnetic part and this second magnetic part are each other without the magnetic force interacted, and make the local of this first magnetic part remove this storage tank and holding between this latch assembly and this framework, move on the frame with this latch assembly of backstop.

2. electronic building brick according to claim 1, it is characterized in that, this framework has a hole, location, it is positioned on the mobile route of this storage tank, when this this portable electron device of latch assembly bolt-lock on the frame time, this storage tank is relative to each other with this hole, location, and when this framework launches each other with this base, this first magnetic part holding is in this storage tank and this hole, location.

3. electronic building brick according to claim 2, it is characterised in that this extended base also includes:

One elastic component, is arranged in this storage tank, and this elastic component is connected between this first magnetic part and this latch assembly, and this elastic component perseverance drives this first magnetic part away from this storage tank.

4. electronic building brick according to claim 3, it is characterised in that this elastic component provides the elastic force of this first magnetic part, less than the magnetic force between this first magnetic part and this second magnetic part.

5. electronic building brick according to claim 1, it is characterised in that this latch assembly includes:

One body, is slideably arranged in this framework, and this body has a chute and this storage tank；

One first snap fit, has an articulated section and a sliding part, and this articulated section is pivoted to this framework, and this sliding part is coupled to this chute, and this body slides and drives this first snap fit to rotate to expose or to be hidden in this framework.

6. electronic building brick according to claim 5, it is characterised in that the extension of this chute axially keeps a spacing with this articulated section, and this chute extend axial axially consistent with the slip of this body.

7. electronic building brick according to claim 5, it is characterised in that this latch assembly also includes:

One second snap fit, it is arranged in this framework and is positioned on the mobile route of this body, when this body slides towards this second snap fit and is released by this second snap fit outside this framework, this body drives this first snap fit to rotate and be hidden in this framework, when this body moves apart this second snap fit, this body drives this first snap fit to expose this framework.

8. electronic building brick according to claim 7, it is characterised in that this body is between this first snap fit and this second snap fit.

9. electronic building brick according to claim 7, it is characterized in that, this second snap fit comprises a shell fragment and a hook part, one end of this shell fragment is installed in this framework, this hook part is positioned at the other end of this shell fragment, this body slides towards this second snap fit and deforms this shell fragment and release outside this framework by this hook part, and when this body moves apart this second snap fit, this shell fragment drives this hook part to retract in this framework.

10. electronic building brick according to claim 7, it is characterised in that the range of movement of this first snap fit adheres to two geometrical planes perpendiculared to one another separately with the range of movement of this second snap fit.