CN105872142A - Card support popping structure, control method and mobile terminal - Google Patents

Abstract

The invention provides a card support popping structure, a control method and a mobile terminal. The control method comprises the steps that an input first instruction for unlocking a card support is received; according to the first instruction, a first control signal is sent to a first control circuit, and a second control signal is sent to a second control circuit, so that the first control circuit is made to control a first driving mechanism to unlock the card support according to the first control signal, and the second control circuit is made to control a second driving mechanism to pop out the card support when the card support is in an unlocking state according to the second control signal. By means of the card support popping structure, the control method and the mobile terminal, the problem that an electronic card, on a card support, of an existing mobile phone cannot be taken out at any time as needed is solved, the electronic card on the card support can be taken out at any time as needed, and the taking safety of the electronic card is improved.

Description

A kind of Kato ejecting structure and control method, mobile terminal

Technical field

The present invention relates to mobile communication technology field, particularly relate to a kind of Kato ejecting structure and control method, Mobile terminal.

Background technology

Existing mobile terminal is provided with the card holder structure for placing electronic cards mostly, and card holder structure mostly is and takes The side ejecting card holder structure of card pin type, i.e. just can eject card holder structure with card taking pin, so, with Family needs to take out when being positioned over the card on card holder structure, it is not necessary to removed by the bonnet of mobile terminal, it is possible to Take out from mobile terminal inside in well inserting cards into mobile terminal or by card.

But, for the card holder structure of card taking pin type, there is also some shortcomings.Such as, if mobile terminal Electricity is not enough, when user needs to change on another mobile terminal card taking-up, if now not having card taking pin, then There will be the problem that can not change card；If additionally, when mobile terminal is lost, only taking a side of mobile terminal Need a card taking pin just can be taken out by the card on mobile terminal, thus cause user quickly can not determine according to card Position mobile terminal and fetch mobile terminal, this reduces the safety of power taking subcard to a great extent.

In sum, there is problem and the power taking that can not take out card the most at any time in existing mobile terminal The problem that the safety of subcard is relatively low.

Summary of the invention

The invention provides a kind of Kato ejecting structure and control method, mobile terminal, to solve existing shifting Dynamic terminal can not take out the problem that the safety of card and power taking subcard is relatively low the most at any time.

First aspect, the invention provides a kind of Kato ejecting structure, including Kato and flexible clamp piece, described Kato includes that the draw-in groove for placing electronic cards, described Kato ejecting structure also include the first drive mechanism and Two drive mechanisms, wherein, described first drive mechanism is for locking and unlocks described Kato, and described second drives Motivation structure, for when described Kato is in released state, ejects described Kato.

Second aspect, present invention also offers a kind of mobile terminal, and including housing, described mobile terminal also wraps Including above-mentioned Kato ejecting structure, described Kato ejecting structure is arranged in described housing, described mobile terminal Also include:

Operational order receives unit, for receiving the second instruction of the first instruction or the locking Kato unlocking Kato；

First control circuit, for controlling the first drive mechanism locking Kato or unlocking Kato；

Second control circuit, ejects institute for controlling the second drive mechanism when described Kato is in released state State Kato；

Processor, receives unit, first control circuit and second control circuit with described operational order and is connected, Described processor receives, for receiving operational order, the first instruction or the second instruction that unit sends, according to described First instruction sends the first control signal controlling the first drive mechanism unblock Kato to first control circuit, and Send control the second drive mechanism to second control circuit and eject described card when described Kato is in released state Second control signal of torr；Control the first drive mechanism locking is sent to first control circuit according to the second instruction 3rd control signal of Kato.

The third aspect, present invention also offers the control method of a kind of Kato ejecting structure, is applied to above-mentioned Mobile terminal, described control method includes:

Receive first instruction unlocking Kato of input；

According to described first instruction, send the first control signal to described first control circuit, and to described the Two control circuits send the second control signal, so that described first control circuit is according to described first control signal Control described first drive mechanism and unlock described Kato, and make described second control circuit according to described second control Signal processed controls described second drive mechanism and ejects described Kato when described Kato is in released state.

So, in embodiments of the invention, receive unit by the operational order of mobile terminal and receive solution pintle hook lock First instruction of torr or the second instruction of locking Kato, then instructed to the first control according to first by processor Circuit processed sends the first control signal controlling the first drive mechanism unblock Kato, and sends out to second control circuit Send and control the second drive mechanism and eject the second control signal of Kato when Kato is in released state, according to the Two instructions send the 3rd control signal controlling the first drive mechanism locking Kato to first control circuit, finally Control the first drive mechanism locking Kato by first control circuit or unlock Kato, and by the second control electricity Road controls the second drive mechanism and ejects Kato when Kato is in released state.So, instruction is utilized to lock Latch bracket seat conciliates pintle hook lock torr, solves existing mobile terminal and can not take out the most at any time and be positioned on Kato The problem of electronic cards, hold a side of mobile terminal have only to card taking pin or tapering thing as long as solve simultaneously Just can eject Kato, thus cause the relatively low problem of the safety of power taking subcard so that user can basis Instruction locking Kato or unblock Kato, can take out electronic cards the most according to demand.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme of the embodiment of the present invention, the embodiment of the present invention will be retouched below In stating, the required accompanying drawing used is briefly described, it should be apparent that, the accompanying drawing in describing below is only Some embodiments of the present invention, for those of ordinary skill in the art, are not paying creative work On the premise of, it is also possible to other accompanying drawing is obtained according to these accompanying drawings.

Fig. 1 represents one of schematic diagram of Kato ejecting structure in the first embodiment of the present invention；

Fig. 2 represents in the first embodiment of the present invention the two of the schematic diagram of Kato ejecting structure；

Fig. 3 represents the enlarged diagram of the first drive mechanism in Fig. 1；

Fig. 4 represents the enlarged diagram of the first drive mechanism in Fig. 2；

Fig. 5 represents the enlarged diagram of the second drive mechanism in Fig. 1；

Fig. 6 represents the enlarged diagram of the second drive mechanism in Fig. 2；

Fig. 7 represents the structural representation of mobile terminal in the second embodiment of the present invention；

Fig. 8 represents first control circuit or the schematic diagram of second control circuit in the second embodiment of the present invention；

Fig. 9 represents the flow chart of the control method of Kato ejecting structure in the third embodiment of the present invention；

Figure 10 represents the structured flowchart of mobile terminal in the fourth embodiment of the present invention；

Figure 11 represents the structured flowchart of mobile terminal in the fifth embodiment of the present invention.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clearly Chu, it is fully described by, it is clear that described embodiment is a part of embodiment of the present invention rather than all Embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art are not making creative labor The every other embodiment obtained under dynamic premise, broadly falls into the scope of protection of the invention.

First embodiment

As depicted in figs. 1 and 2, this Kato ejecting structure 1 includes Kato 11, flexible clamp piece 12, first drives Motivation structure 13 and the second drive mechanism 14.Wherein, Kato 11 includes the draw-in groove for placing electronic cards；The One drive mechanism 13 conciliates pintle hook lock torr 11 for locking, and the second drive mechanism 14 is for being in solution at Kato 11 During lock status, eject Kato 11.

In embodiments of the present invention, Kato ejecting structure 1 is by the first drive mechanism 13 and the second drive mechanism 14 lockings or unblock Kato 11 so that Kato 11 only can be driven by second when being in released state Motivation structure 14 ejects；And when the first drive mechanism 13 locking Kato 11, even if the second drive mechanism 14 Motion, Kato 11 also will not be ejected by the second drive mechanism 14.So, farthest ensure that Kato 11 by random ejection, thus will not farthest ensure that the safety of the electronic cards being positioned on Kato 11 Property.Concrete, this electronic cards can be subscriber identification card (Subscriber Identity Module, SIM), Can also be storage card, such as flash memory cards (Trans-flash Card).

See Fig. 1 and Fig. 2, so that the first drive mechanism is capable of locking Kato conciliates the merit of pintle hook lock torr Can, on Kato 11, the side near the first drive mechanism 13 is provided with a groove 111, the first drive mechanism 13 The first direct current generator the 131, first threaded shaft 132 and latch piece 133 with groove 111 clamping can be included. Wherein, one end and first direct current generator 131 of the first threaded shaft 132 connect, the first threaded shaft 132 The other end and latch piece 133 connect, the first direct current generator 131 drives card by the first threaded shaft 132 Latch fitting 133 horizontal reciprocating movement.So, when the first direct current generator 131 rotates towards first direction, first Direct current generator 131 drives latch piece 133 to move in groove 111, latch piece 133 locking Kato 11；When First direct current generator 131 towards second direction rotate time, the first direct current generator 131 drives latch piece 133 to depart from Groove 111, latch piece 133 unlocks Kato 11.

Preferably, seeing Fig. 3, latch piece 133 can be square body structure, and close at latch piece 133 The one side of the first threaded shaft 132 is provided with a screwed hole, and latch piece 133 can be by this screw hole On the first threaded shaft 132.So, when the first direct current generator 131 rotates towards first direction, can To drive the first threaded shaft 132 being connected with the first direct current generator 131 to rotate simultaneously towards first direction, The latch piece 133 being now bolted on the first threaded shaft 132 moves towards near the direction of groove 111, Until latch piece 133 moves in groove 111, now latch piece 133 locking Kato 11.Same, when First direct current generator 131 towards the second direction contrary with first direction rotate time, can drive straight with first The first threaded shaft 132 that stream motor 131 connects rotates simultaneously towards second direction, now, is bolted in the Latch piece 133 on one threaded shaft 132 moves towards the direction departing from groove 111, until latch piece 133 Unlock Kato 11.

At this it should be noted that the first direction of the first direct current generator 131 can freely be arranged, the most permissible For the direction rotated forward, it is also possible to for the direction of reversion, as long as enabling to the first direct current generator 131 towards the When one direction rotates, the first drive mechanism 13 can locking Kato 11, towards second direction rotate time, first Drive mechanism 13 can unlock Kato 11.So, latch piece is controlled by the first direct current generator 131 The direction of motion of 133, the current state that can control Kato 11 is lockup state or released state, simplifies The structure of the first drive mechanism 13.

Additionally, see Fig. 2 and 4, when the first threaded shaft 132 and the first direct current generator 131 connect, can It is in transmission connection in the way of being engaged by gear.Concrete, the first threaded shaft 132 is straight near first One end of stream motor 131 is provided with the first gear 134, near the first spiral shell in the rotating shaft of the first direct current generator 131 One end of stricture of vagina rotating shaft 132 is provided with the second gear 135, and the first gear 134 and the second gear 135 are meshed. So, by the way of the first gear 134 and the second gear 135 engaged transmission, so that the first direct current The rotation of motor 131 is transferred to the first threaded shaft 132 accurately, it is ensured that the accuracy of gear ratio and biography Dynamic stationarity so that the first drive mechanism 13 can move back and forth smoothly.

Concrete, with continued reference to Fig. 1, the first threaded shaft 132 and the first direct current generator 131 can also use Fixing connected mode, one end of the i.e. first threaded shaft 132 and the connected mode of the first direct current generator 131 can To include welding or riveting.So, the first threaded shaft 132 is connected by the connected mode of welding or riveting With the first direct current generator 131, simplify the structure of the first drive mechanism 13.

Concrete, on the first threaded shaft 132, the one end near the first gear 134 can be provided with first Nut 137, it is also possible to set on the first threaded shaft 132 between the first gear 134 and the first nut 137 Put the first threaded shaft holder 136.Wherein, the first threaded shaft holder 136 can be a circulus, For limiting the degree of freedom of the first threaded shaft 132 so that of the first threaded shaft 132 only rotation Degree of freedom；Prevent the first threaded shaft holder 136 from the first spiral shell additionally, the first nut 137 can play The effect come off in stricture of vagina rotating shaft 132.

See Fig. 1, so that the second drive mechanism 14 can ejecting card when Kato 11 is in released state Torr 11, the second drive mechanism 14 can include the second direct current generator 141, connector 142 and for ejecting card The transfer bar mechanism 143 of torr 11.Wherein, transfer bar mechanism 143 includes first push rod the 144, second push rod 145 With rotating shaft 146.Wherein, the first push rod 144 and the second push rod 145 are one-body molded, and the first push rod 144 He An angle more than 90 ° and less than 180 °, the first push rod 144 and second is formed between second push rod 145 The formed angle of push rod 145 has one for plugging the through hole (not shown) of rotating shaft 146.Additionally, the One end of one push rod 144 contacts with Kato 11, and one end of the second push rod 145 is fixing with connector 142 to be connected. So, the second direct current generator 141, by connector 142, can drive the first push rod 144 and the second push rod 145 rotate around rotating shaft 146, so that the first push rod 144 ejects Kato 11.

Preferably, seeing Fig. 1, Fig. 2, Fig. 5 and Fig. 6, connector 142 can include the second threaded shaft 147, spring 148 and nut 149.Wherein, one end of the second threaded shaft 147 and the second direct current generator 141 Connecting, nut 149 is set on the other end of the second threaded shaft 147, and one end of spring 148 and spiral shell Female 149 fixing connections, the other end of spring 148 and the second fixing connection of push rod 145；So, at Kato 11 when being in released state, when the second direct current generator 141 rotates towards first direction, and the second direct current generator 141 By stretching spring 148, the first push rod 144 and the second push rod 145 can be driven to rotate around rotating shaft 146, First push rod 144 ejects Kato；When the second direct current generator 141 rotates towards second direction, the second unidirectional current Machine 141 driving spring 148 is recovered to initial condition by extended state.

Concrete, the second direct current generator 141 drives the first push rod 144 and the second push rod 145 around the shaft 146 The process rotated is as follows:

When Kato 11 is in released state, when the second direct current generator 141 rotates towards first direction, drive The second threaded shaft 147 being connected with the second direct current generator 141 rotates towards first direction, is now sheathed on Nut 149 on second threaded shaft 147 rotates towards the direction that spring 148 can be made to stretch, thus carries The dynamic spring 148 that be connected fixing with nut 149 stretches, so that fix, with spring 148, second be connected Push rod 145 is towards the direction motion that spring 148 stretches, now, due to the first push rod 144 and the second push rod 145 is one-body molded, and the first push rod 144 and the second push rod 145 rotate around rotating shaft 146 simultaneously, additionally, Owing to the angular range between the first push rod 144 and the second push rod 145 is 90 ° to 180 degree, therefore, when When second push rod 145 is towards the direction motion that spring 148 stretches, the first push rod 144 connects with Kato 11 The one end touched is towards stretching contrary direction motion with spring 148, thus ejects Kato 11.Same, After Kato 11 is ejected, the second direct current generator 141 rotates towards the second direction contrary with first direction, Drive the second threaded shaft 147 being connected with the second direct current generator 141 to rotate towards second direction, now overlap The nut 149 being located on the second threaded shaft 147 is towards spring 148 can be made to recover the side to initial condition To rotation, recover to initial condition at spring 148, fix, with spring 148, second be connected and push away Bar 145 is followed spring 148 and is moved, now one-body molded due to the first push rod 144 and the second push rod 145, First push rod 144 and the second push rod 145 rotate around rotating shaft 146, so, when spring 148 simultaneously When being recovered to initial condition by extended state, the first push rod 144 and the second push rod 145 can recover equally to former Beginning state.

Additionally, see Fig. 1 and Fig. 2, the second push rod 145 is provided with a jack near one end of spring 148, Spring 148 through jack near one end of the second push rod 145, and is fixed on second by a bolt 150 and pushes away On bar 145.So, connect spring 148 and the fixed form of the second push rod 145 by bolt 150 is fixing, Spring 148 and the fastness of the second push rod 145 connection can be increased, increase the use of the second drive mechanism 14 Life-span.

Additionally, see Fig. 2 and 6, when the second threaded shaft 147 and the second direct current generator 141 connect, can It is in transmission connection in the way of being engaged by gear.Concrete, the second threaded shaft 147 is straight near second One end of stream motor 141 is provided with the 3rd gear 151, near the second spiral shell in the rotating shaft of the second direct current generator 141 One end of stricture of vagina rotating shaft 147 is provided with the 4th gear 152, and the 3rd gear 151 and the 4th gear 152 are meshed. So, by the way of the 3rd gear 151 and the 4th gear 152 engaged transmission, so that the second direct current The rotation of motor 141 is transferred to the second threaded shaft 147 accurately, it is ensured that the accuracy of gear ratio and biography Dynamic stationarity so that the second drive mechanism 14 can move back and forth smoothly.Concrete, second Threaded shaft 147 is provided with the second nut 154 near one end of the 3rd gear 151, and at the 3rd gear 151 And it is provided with the second threaded shaft holder 155 on the second threaded shaft 147 that second between nut 154.Its In, the second threaded shaft holder 155 can be a circulus, for limiting the second threaded shaft 147 Degree of freedom so that the one degree of freedom that the second threaded shaft 147 only rotates；Additionally, the second nut 154 The effect preventing the second threaded shaft holder 155 from coming off from the second threaded shaft 147 can be played.

Concrete, seeing Fig. 1 and Fig. 5, the second threaded shaft 147 and the second direct current generator 141 can also be adopted Use fixing connected mode, one end of the i.e. second threaded shaft 147 and the connected mode of the second direct current generator 141 Welding or riveting can be included.So, the second threaded shaft 147 is connected by the connected mode of welding or riveting With the second direct current generator 141, simplify the structure of the second drive mechanism 14.

Additionally, it is preferred that, when not working in order to avoid the first direct current generator 131 and the second direct current generator 141, Card taking pin can be used to eject Kato 11, it is also possible near the end of spring 148 on the second push rod 145 One passage 153 contacting the second push rod for card taking pin is set.So, when Kato 11 is in released state, And card taking pin by passage 153 on the second push rod 145, apply active force time, Kato 11 can be ejected equally.

In embodiments of the present invention, Kato ejecting structure includes Kato, the first drive mechanism and the second driving machine Structure, wherein, the first drive mechanism conciliates pintle hook lock torr for locking, and the second drive mechanism is in unblock at Kato Kato is ejected during state.The embodiment of the present invention utilizes two drive mechanisms to carry out locking reconciliation pintle hook lock torr, maximum Degree ensure that Kato by random release, thus will not farthest ensure that and be positioned on Kato The safety of electronic cards.

Second embodiment

As it is shown in fig. 7, be the structural representation of mobile terminal, mobile terminal in the second embodiment of the present invention Including the Kato ejecting structure 1 in above-described embodiment, housing 2, operational order receive unit 3, processor 4, First control circuit 5 and second control circuit 6.Wherein, in Kato ejecting structure 1 is arranged at housing 2；Behaviour Make instruction reception unit 3 for receiving the second instruction of the first instruction or the locking Kato unlocking Kato；First Control circuit 5 is for controlling the first drive mechanism locking or unlocking Kato；Second control circuit 6 is used for controlling Second drive mechanism ejects Kato when Kato is in released state；Processor 4 and operational order receive unit 3, First control circuit 5 and second control circuit 6 connect, and processor 4 is used for receiving operational order and receives unit 3 The first instruction sent or the second instruction, control first according to the first instruction to first control circuit 5 transmission and drive Motivation structure unlocks the first control signal of Kato, and sends control the second drive mechanism to second control circuit 6 The second control signal of Kato is ejected when Kato is in released state；Electricity is controlled to first according to the second instruction Road 5 sends the 3rd control signal controlling the first drive mechanism locking Kato.

Concrete, when user inputs the first instruction unlocking Kato, operational order receives unit 3 reception and solves First instruction of pintle hook lock torr, and by this first instruction transmission to processor 4, processor 4 is according to this first instruction Send the first control signal to first control circuit 5, and send the second control signal to second control circuit 6, Now, first control circuit 5 controls the first drive mechanism according to the first control signal and unlocks Kato, and second controls Circuit 6 processed controls the second drive mechanism according to the second control signal and ejects Kato when Kato is in released state. When user inputs the second instruction of locking Kato, operational order receives unit 3 and receives the second of locking Kato Instruction also by this second instruction transmission to processor 4, processor 4 according to this second instruction to first control circuit 5 send the 3rd control signal, and first control circuit 5 controls the first drive mechanism lock according to the 3rd control signal Latch bracket seat.

In embodiments of the present invention, mobile terminal by operational order receive unit 3, first control circuit 5, Second control circuit 6 and processor 4 control the first drive mechanism and the second driving machine in Kato ejecting structure 1 Structure so that the first drive mechanism and the second drive mechanism can according to corresponding the first instruction unlocking Kato or Second instruction of person's locking Kato is moved, and is enable to eject Kato or root according to the first instruction According to the second instruction locking Kato, solving existing mobile terminal can not take out on Kato the most at any time The problem of electronic cards, it is to avoid the situation that cannot take out the electronic cards on Kato when not having card taking pin occurs； Additionally, controlled the current state of Kato by instruction, when solving existing mobile terminal loss, on Kato The problem that can be replaced at any time of electronic cards, add the safety of power taking subcard.

It addition, optional, so that after the second instruction that locking Kato is set, Kato can unlocked After convenient locking Kato again, position that can be relative with Kato in housing 2 arranges a resilient contact. Wherein, after processor 4 receives storage the second instruction, and when resilient contact contacts with Kato, processor 4 The 3rd control signal controlling the first drive mechanism locking Kato is sent to first control circuit 5.So, exist After arranging the second instruction of locking Kato, when user takes out the electronic cards on Kato and Kato is pushed into housing 2 Time interior, when Kato touches resilient contact, processor 4 can receive this Kato and touch resilient contact Signal, and send the 3rd control signal, first control circuit 5 according to this signal to first control circuit 5 Can be according to the 3rd control signal locking Kato.

Additionally, optional, so that first control circuit 5 can control the first drive mechanism unlocks Kato Or locking Kato, first control circuit 5 can be connected with the first direct current generator.Concrete, first controls electricity Road 5 is for receiving the first control signal or the 3rd control signal, and it is straight to control first according to the first control signal Stream motor rotates the very first time towards second direction, controls the first direct current generator towards first according to the 3rd control signal Direction rotates the very first time.Wherein, when the first direct current generator rotates the very first time towards second direction, first Drive mechanism unlocks Kato；When the first direct current generator rotates the very first time towards first direction, first drives machine Structure locking Kato.Additionally, so that second control circuit 6 can control the second drive mechanism at Kato Ejecting Kato when released state, second control circuit 6 can be connected with the second direct current generator.Concrete, Second control circuit 6 may be used for receiving the second control signal, and it is straight to control second according to the second control signal Stream motor rotated for the second time towards first direction, wherein, when the second direct current generator rotates second towards first direction During the time, the first push rod ejects Kato.Certainly, so that the second drive mechanism is after ejecting Kato, the Two drive mechanisms can recover home position, in order to eject Kato next time, and second control circuit 6 also may be used For controlling after the second direct current generator rotated for the second time towards first direction, rotate second towards second direction Time, so, when the second direct current generator rotated for the second time towards second direction, spring can be by stretching shape State is recovered to initial condition.Concrete, owing to spring is recovered to initial condition by extended state, therefore with bullet The transfer bar mechanism that spring connects can recover equally to initial condition.

Below in conjunction with Fig. 8, above-mentioned first control circuit or second control circuit are specifically introduced.Such as Fig. 8 Shown in, for first control circuit in the second embodiment of the present invention or the schematic diagram of second control circuit.

When Fig. 8 represents the second instruction that first control circuit and processor receive locking Kato, processor Sending the 3rd control signal to first control circuit, now normally closed switch SB1 is closure state, normal open switch SB2 closes, and the time delay of time relay KT1 is the very first time, optionally, and thermal overload relay KH Circuit is shielded.When SB1 is closure state, and when controlling SB2 Guan Bi, catalyst KM1 leaves Beginning work, i.e. normally opened contact Guan Bi, normally-closed contact disconnects, and now the first direct current generator M is towards first direction Rotating the very first time, when arriving the very first time, processor controls normally closed switch SB1 and disconnects, and first controls Circuit is disconnected, and in now the latch piece of the first drive mechanism moves to the groove of Kato side, latch piece exists Locking Kato under the effect of the first direct current generator.

When Fig. 8 represents that first control circuit and processor receive the first instruction unlocking Kato, processor Sending the first control signal to first control circuit, now normally closed switch SB1 is closure state, normal open switch SB3 closes, and the time delay of time relay KT2 is the very first time.When SB1 is closure state, and control During SB3 processed Guan Bi, catalyst KM2 starts working, i.e. normally opened contact Guan Bi, and normally-closed contact disconnects, now First direct current generator M rotates the very first time towards second direction, and when arriving the very first time, processor controls Normally closed switch SB1 disconnects, and first control circuit is disconnected, and now the latch piece of the first drive mechanism departs from card The groove of torr side, latch piece unlocks Kato under the effect of the first direct current generator.

When Fig. 8 represents that second control circuit and processor receive the first instruction unlocking Kato, processor Send control the second drive mechanism to second control circuit and eject the second of Kato when Kato is in released state Control signal.When Kato is in released state and second control circuit receives the second control signal, normally closed Switch SB1 is closure state, and normal open switch SB2 closes, when time relay KT1 time delay is second Between, time relay KT2 time delay was the second time.When SB1 is closure state, and control SB2 closes During conjunction, catalyst KM1 starts working, i.e. normally opened contact Guan Bi, and normally-closed contact disconnects, now the second direct current Motor M rotated for the second time towards first direction, and when arriving for the second time, time relay KT1 stops Work, i.e. normally opened contact Guan Bi, normally-closed contact disconnects, and now catalyst KM1 quits work, and second drives Kato ejects in mechanism, and catalyst KM2 and time relay KT2 starts working, the second direct current generator M Rotating initially towards second direction, after time relay K T2 arrived for the second time, processor controls normally closed Switch SB1 disconnects, and second control circuit is disconnected, and now the spring in the second drive mechanism is by extended state Recover to initial condition.

When Fig. 8 represents first control circuit and inserts Kato, the resilient contact in housing contacts with Kato, Processor sends the 3rd control signal to first control circuit, and now normally closed switch SB1 is closure state, often Switch SB2 Guan Bi, the time delay of time relay KT1 is the very first time.When SB1 is closure state, And when controlling SB2 Guan Bi, the normally opened contact Guan Bi of catalyst KM1, normally-closed contact disconnects, and now first is straight Stream motor M rotates the very first time towards first direction, when arriving the very first time, controls normally closed switch SB1 Disconnecting, first control circuit is disconnected, and now the latch piece of the first drive mechanism moves to the recessed of Kato side In groove, latch piece is locking Kato under the effect of the first direct current generator.

So by above-mentioned first control circuit and second control circuit, can control the first direct current generator and The direction of rotation of the second direct current generator, and control the first direct current generator and the rotational time of the second direct current generator, Thus reach locking Kato or unlock the purpose of Kato.

So, in embodiments of the present invention, can be controlled by the first instruction unlocking Kato that user inputs First drive mechanism and the second drive mechanism, by the second instruction control first of the locking Kato that user inputs Drive mechanism, thus the current state controlling the Kato of Kato ejecting structure is lockup state or released state, Solve the problem that existing mobile terminal can not take out electronic cards the most at any time, it is to avoid do not taking The generation of the situation of electronic cards on Kato cannot be taken out during card pin；Additionally, referred to by the first instruction and second Order controls the current state of the Kato of Kato ejecting structure, when solving existing mobile terminal loss, and Kato On the problem that can be replaced at any time of electronic cards, add the safety of power taking subcard.

3rd embodiment

As it is shown in figure 9, be the step stream of the control method of Kato ejecting structure in the third embodiment of the present invention Cheng Tu, this control method includes:

Step 901, receives first instruction unlocking Kato of input.

In this step, mobile terminal receives first instruction unlocking Kato of user's input.Concrete, this solution First instruction of pintle hook lock torr can be numerical ciphers or graphical passwords, does not make this first instruction at this Limit.

Step 902, according to the first instruction, sends the first control signal to first control circuit, and to the second control Circuit processed sends the second control signal.

In this step, can instruct according to unlock Kato first, send the first control to first control circuit Signal processed, and send the second control signal to second control circuit, so that first control circuit is according to the first control Signal processed controls the first drive mechanism and unlocks Kato, and makes second control circuit control according to the second control signal Second drive mechanism ejects Kato when Kato is in released state.

Concrete, when ejecting Kato, first control circuit, according to the first control signal, controls the first direct current Motor rotates the very first time towards second direction, and now, the first direct current generator drives latch piece to depart from Kato side The groove in face, the first drive mechanism unlocks Kato.When Kato is in released state, second control circuit root According to the second control signal, controlling the second direct current generator and rotated for the second time towards first direction, now, second is straight Stream driven by motor the first push rod ejects Kato.

So, in embodiments of the present invention, first instruction unlocking Kato of the input by receiving, to the One control circuit sends the first control signal, and sends the second control signal to second control circuit, so that the One control circuit controls the first drive mechanism according to the first control signal and unlocks Kato, and makes second control circuit Control the second drive mechanism according to the second control signal and be in released state ejection Kato at Kato, solve existing Problem that some mobile terminals can not take out the electronic cards on Kato the most at any time, it is to avoid do not taking The generation of the situation of electronic cards on Kato cannot be taken out during card pin；Additionally, referred to by the first instruction and second Order controls the current state of the Kato of Kato ejecting structure, when solving existing mobile terminal loss, and Kato On the problem that can be replaced at any time of electronic cards, add the safety of power taking subcard.

Additionally, it is optional, before the first instruction unlocking Kato receiving input, it is also possible to receive and deposit Second instruction of the locking Kato of storage input, and send the 3rd control according to the second instruction to first control circuit Signal, so that first control circuit controls the first drive mechanism locking Kato according to the 3rd control signal.So, When user needs to use instruction locking to conciliate pintle hook lock torr, can first set the second instruction of locking Kato. Concrete, this second instruction can be numerical ciphers or graphical passwords, does not do this second instruction at this Go out to limit.Concrete, when locking Kato, first control circuit, according to the 3rd control signal, controls first Direct current generator rotates the very first time towards first direction, and now, the first direct current generator drives latch piece to enter card The groove of torr side, the first drive mechanism locking Kato.

Additionally, when needs eject Kato, i.e. according to the first instruction, send first to first control circuit Control signal, and before second control circuit sends the second control signal, it is also possible to judge what user inputted Whether instruction is consistent with the first instruction unlocking Kato, if being consistent, then the instruction of explanation user input is correct, Now enter according to the first instruction, send the first control signal to first control circuit, and control electricity to second Road sends the step of the second control signal.Concrete, if the instruction of user's input does not corresponds with the first instruction, Illustrate that the instruction unlocking Kato is incorrect, now will not send first according to the first instruction to first control circuit Control signal, naturally, the first drive mechanism also will not unlock Kato, and now Kato will not be ejected, and protects Demonstrate,prove the electronic cards on Kato will not be taken out at any time.

It addition, so that after receiving and store second instruction of locking Kato of input, can unlock Convenient locking Kato again after Kato, when resilient contact contacts with Kato, can be to first control circuit Send the 3rd control signal, so that first control circuit controls the first drive mechanism lock according to the 3rd control signal Latch bracket seat.So, after storage the second instruction, when user takes out the electronic cards on Kato and is pushed by Kato Time to housing, when Kato touches resilient contact, processor can send the 3rd to first control circuit Control signal, so that first control circuit can be according to the 3rd control signal locking Kato.

So, the control method of the Kato ejecting structure of the embodiment of the present invention, according to the unblock Kato inputted First instruction and the second instruction of locking Kato, it is achieved that the unblock of Kato and locking, solve existing Problem that mobile terminal can not take out electronic cards the most at any time, it is to avoid cannot take when not having card taking pin The situation going out the electronic cards on Kato occurs；Eject additionally, control Kato by the first instruction and the second instruction The current state of the Kato of structure, when solving existing mobile terminal loss, the electronic cards on Kato is permissible The problem being replaced at any time, adds the safety of power taking subcard.

4th embodiment

As shown in Figure 10, for the structured flowchart of mobile terminal in the fourth embodiment of the present invention, shown in Figure 10 Mobile terminal 1000 include: at least one processor 1001, memorizer 1002, at least one network connect Mouth 1004, user interface 1003.Each assembly in mobile terminal 1000 is coupled by bus system 1005 Together.It is understood that bus system 1005 is for realizing the connection communication between these assemblies.Bus system 1005 in addition to including data/address bus, also includes power bus, controls bus and status signal bus in addition.But For the sake of understanding explanation, in Fig. 10 various buses are all designated as bus system 1005.Additionally, it is mobile whole End 1000 also includes Kato ejecting structure, first control circuit and second control circuit in above-described embodiment.

Wherein, user interface 1003 can include display, keyboard or pointing device (such as, mouse, rail Mark ball (trackball), touch-sensitive plate or touch screen, operational order receives unit etc..

The memorizer 1002 being appreciated that in the embodiment of the present invention can be volatile memory or non-volatile Memorizer, maybe can include volatibility and nonvolatile memory.Wherein, nonvolatile memory is permissible Be read only memory (Read-OnlyMemory, ROM), programmable read only memory (ProgrammableROM, PROM), Erasable Programmable Read Only Memory EPROM (ErasablePROM, EPROM), electrically erasable Read only memory (ElectricallyEPROM, EEPROM) or flash memory.Volatile memory can be to deposit at random Access to memory (RandomAccessMemory, RAM), it is used as External Cache.By exemplary but Not being restricted explanation, the RAM of many forms can use, such as static RAM (StaticRAM, SRAM), dynamic random access memory (DynamicRAM, DRAM), synchronous dynamic random-access are deposited Reservoir (SynchronousDRAM, SDRAM), double data speed synchronous dynamic RAM (DoubleDataRate SDRAM, DDRSDRAM), enhancement mode Synchronous Dynamic Random Access Memory (Enhanced SDRAM, ESDRAM), synchronized links dynamic random access memory (SynchlinkDRAM, And direct rambus random access memory (DirectRambusRAM, DRRAM) SLDRAM).This The memorizer 1002 of the system and method that bright embodiment describes is intended to include but not limited to these and arbitrarily other is fitted Close the memorizer of type.

In some embodiments, memorizer 1002 stores following element, executable module or data Structure, or their subset, or their superset: operating system 10021 and application program 10022. Concrete, in memorizer 1002, storage arranges module and configuration file.

Wherein, operating system 10021, comprise various system program, such as ccf layer, core library layer, driving Layers etc., are used for realizing various basic business and processing hardware based task.Application program 10022, comprises Various application programs, such as media player (MediaPlayer), browser (Browser) etc., be used for realizing Various applied business.The program realizing embodiment of the present invention method may be embodied in application program 10022.

In embodiments of the present invention, by calling program or the instruction of memorizer 1002 storage, concrete, can To be program or the instruction of storage in application program 10022.Wherein, processor 1001 is used for: receive input Unlock Kato first instruction；According to described first instruction, send the first control to described first control circuit Signal processed, and send the second control signal to described second control circuit, so that described first control circuit root Control described first drive mechanism according to described first control signal and unlock described Kato, and make described second to control Circuit controls described second drive mechanism when described Kato is in released state according to described second control signal Eject described Kato.

The method that the invention described above embodiment discloses can apply in processor 1001, or by processor 1001 realize.Processor 1001 is probably a kind of IC chip, has the disposal ability of signal.In reality During Xian, each step of said method can by the integrated logic circuit of the hardware in processor 1001 or The instruction of person's software form completes.Above-mentioned processor 1001 can be general processor, Digital Signal Processing Device (DigitalSignalProcessor, DSP), special IC (Application SpecificIntegratedCircuit, ASIC), field programmable gate array (FieldProgrammableGateArray, FPGA) or other PLDs, discrete gate or Transistor logic, discrete hardware components.Can realize or perform in the embodiment of the present invention is disclosed Each method, step and logic diagram.General processor can be microprocessor or this processor can also be The processor etc. of any routine.Step in conjunction with the method disclosed in the embodiment of the present invention can be embodied directly in Hardware decoding processor has performed, or has performed with the hardware in decoding processor and software module combination Become.Software module may be located at random access memory, flash memory, read only memory, programmable read only memory or In the storage medium that this areas such as person's electrically erasable programmable memorizer, depositor are ripe.This storage medium position In memorizer 1002, processor 1001 reads the information in memorizer 1002, completes above-mentioned in conjunction with its hardware The step of method.Additionally, memorizer 1002 internal memory contains the corresponding relation etc. used in said method.

It is understood that the embodiment of the present invention describe these embodiments can use hardware, software, firmware, Middleware, microcode or a combination thereof realize.Realizing for hardware, processing unit can be implemented in one or many Individual special IC (Application SpecificIntegratedCircuit, ASIC), digital signal processor (DigitalSignalProcessor, DSP), digital signal processing appts (DSPDevice, DSPD), can compile Journey logical device (Programmable LogicDevice, PLD), field programmable gate array (FieldProgrammableGateArray, FPGA), general processor, controller, microcontroller, micro- Processor, for performing in other electronic unit or a combination thereof of the application function.

Software is realized, can be by performing the module (such as process, function etc.) of embodiment of the present invention function Realize the technology of the embodiment of the present invention.Software code is storable in performing in memorizer and by processor. Memorizer can within a processor or realize outside processor.

Alternatively, processor 1001 is additionally operable to: receive and store the second instruction of the locking Kato of input；Root According to described second instruction, send the 3rd control signal to described first control circuit, so that described first controls Circuit controls Kato described in described first drive mechanism locking according to described 3rd control signal.

Alternatively, as another embodiment, processor 1001 is additionally operable to: when resilient contact and described Kato When contacting, send the 3rd control signal to described first control circuit, so that described first control circuit root Kato described in described first drive mechanism locking is controlled according to described 3rd control signal.

Alternatively, as another embodiment, processor 1001 is additionally operable to: judge that the instruction that user inputs is No and described first instruction is consistent；If being consistent, then enter described according to described first instruction, to described first Control circuit sends the first control signal, and sends the step of the second control signal to described second control circuit.

Mobile terminal 1000 is capable of each process that in previous embodiment, mobile terminal realizes, for avoiding weight Multiple, repeat no more here.

The mobile terminal provided in the above embodiment of the present invention, unlocks the first of Kato by what reception inputted Instruction, and send the first control signal according to the first instruction to first control circuit, and to second control circuit Send the second control signal, so that first control circuit controls the first drive mechanism solution according to the first control signal Pintle hook lock torr, and make second control circuit control the second drive mechanism according to the second control signal to be in solution at Kato Eject Kato during lock status, solve the electricity that existing mobile terminal can not take out on Kato the most at any time The problem of subcard, it is to avoid the situation that cannot take out the electronic cards on Kato when not having card taking pin occurs；This Outward, controlled the current state of the Kato of Kato ejecting structure by the first instruction and the second instruction, solve existing When some mobile terminals are lost, the problem that the electronic cards on Kato can be replaced at any time, add power taking The safety of card.

5th embodiment

Figure 11 represents the structured flowchart of mobile terminal in the fifth embodiment of the present invention.Specifically, Tu11Zhong Mobile terminal 1100 can be mobile phone, panel computer, personal digital assistant (PersonalDigital Assistant, Or vehicle-mounted computer etc. PDA).

Mobile terminal 1100 in Figure 11 includes radio frequency (RadioFrequency, RF) circuit 1110, memorizer 1120, input block 1130, display unit 1140, processor 1160, voicefrequency circuit 1170, WiFi (Wireless Fidelity) module 1180, power supply 1190.Concrete, mobile terminal 1100 can also include previous embodiment In Kato ejecting structure, first control circuit and second control circuit.

Wherein, input block 1130 can be used for receive user input numeral or character information, and produce with The user setup of mobile terminal 1100 and function control relevant signal input.Specifically, the present invention implements In example, this input block 1130 can include contact panel 1131.Contact panel 1131, also referred to as touch screen, Can collect user thereon or neighbouring touch operation (such as user uses any applicable thing such as finger, stylus Body or adnexa operation on contact panel 1131), and connect dress accordingly according to formula set in advance driving Put.Optionally, contact panel 1131 can include touch detecting apparatus and two parts of touch controller.Wherein, The touch orientation of touch detecting apparatus detection user, and detect the signal that touch operation brings, by signal transmission To touch controller；Touch controller receives touch information from touch detecting apparatus, and is converted into touching Point coordinates, then give this processor 1160, and order that processor 1160 sends can be received and performed. Furthermore, it is possible to use the polytypes such as resistance-type, condenser type, infrared ray and surface acoustic wave to realize touch surface Plate 1131.Except contact panel 1131, input block 1130 can also include other input equipments 1132, Other input equipments 1132 can include but not limited to that physical keyboard, function key (such as volume control button, are opened Close button etc.), trace ball, mouse, one or more in action bars etc..

Wherein, display unit 1140 can be used for the information that inputted by user of display or the information that is supplied to user with And the various menu interfaces of mobile terminal 1100.Display unit 1140 can include display floater 1141, optional , the shape such as LCD or Organic Light Emitting Diode (OrganicLight-EmittingDiode, OLED) can be used Formula configures display floater 1141.

It should be noted that contact panel 1131 can cover display floater 1141, formed and touch display screen, when this touches Touch display screen detect thereon or after neighbouring touch operation, send processor 1160 to determine touch thing The type of part, regards touching to provide on display screen according to the type of touch event accordingly with preprocessor 1160 Feel and export.

Touch display screen and include Application Program Interface viewing area and conventional control viewing area.This Application Program Interface The arrangement mode of viewing area and this conventional control viewing area does not limit, can be arranged above and below, left-right situs Etc. the arrangement mode that can distinguish two viewing areas.This Application Program Interface viewing area is displayed for application The interface of program.Each interface can comprise icon and/or the widget desktop control of at least one application program The interface elements such as part.This Application Program Interface viewing area can also be the empty interface not comprising any content.Should Conventional control viewing area is for showing the control that utilization rate is higher, such as, and settings button, interface numbering, rolling The dynamic application icon etc. such as bar, phone directory icon.

Wherein, processor 1160 is the control centre of mobile terminal 1100, utilizes various interface and circuit even Connect the various piece of whole mobile phone, be stored in the software program in first memory 1121 by running or performing And/or module, and call the data being stored in second memory 1122, perform mobile terminal 1100 Various functions and process data, thus mobile terminal 1100 is carried out integral monitoring.Optionally, processor 1160 One or more processing unit can be included.

In embodiments of the present invention, by calling the software program and/or mould stored in this first memory 1121 Data in block and/or this second memory 1122, wherein, include in first memory 1121 and arrange mould Block and configuration file.Processor 1160 is used for: receive first instruction unlocking Kato of input；According to described First instruction, sends the first control signal to described first control circuit, and sends out to described second control circuit Send the second control signal, so that described first control circuit controls described first according to described first control signal Drive mechanism unlocks described Kato, and makes described second control circuit control institute according to described second control signal State the second drive mechanism and eject described Kato when described Kato is in released state.

Alternatively, processor 1160 is additionally operable to: receive and store the second instruction of the locking Kato of input；Root According to described second instruction, send the 3rd control signal to described first control circuit, so that described first controls Circuit controls Kato described in described first drive mechanism locking according to described 3rd control signal.

Alternatively, as another embodiment, processor 1160 is additionally operable to: when resilient contact and described Kato When contacting, send the 3rd control signal to described first control circuit, so that described first control circuit root Kato described in described first drive mechanism locking is controlled according to described 3rd control signal.

Alternatively, as another embodiment, processor 1160 is additionally operable to: judge that the instruction that user inputs is No and described first instruction is consistent；If being consistent, then enter described according to described first instruction, to described first Control circuit sends the first control signal, and sends the step of the second control signal to described second control circuit.

The mobile terminal provided in the above embodiment of the present invention, by arranging Kato ejecting structure and control The control method of Kato ejecting structure, solves existing mobile terminal and can not take out electronics the most at any time The problem of card, it is to avoid the situation that cannot take out the electronic cards on Kato when not having card taking pin occurs；Additionally, The current state of Kato is controlled by the first instruction and the second instruction, when solving existing mobile terminal loss, The problem that electronic cards on Kato can be replaced at any time, adds the safety of power taking subcard.

Mobile terminal 1100 is capable of each process that in previous embodiment, mobile terminal realizes, for avoiding weight Multiple, repeat no more here.

Those of ordinary skill in the art are it is to be appreciated that combine the disclosed embodiments in the embodiment of the present invention and retouch The unit of each example stated and algorithm steps, it is possible to electronic hardware or computer software and electronic hardware Be implemented in combination in.These functions perform with hardware or software mode actually, depend on technical scheme Application-specific and design constraint.Professional and technical personnel can use not Tongfang to each specifically should being used for Method realizes described function, but this realization is it is not considered that beyond the scope of this invention.

Those skilled in the art is it can be understood that arrive, for convenience and simplicity of description, and foregoing description The specific works process of system, device and unit, be referred to the corresponding process in preceding method embodiment, Do not repeat them here.

In embodiment provided herein, it should be understood that disclosed apparatus and method, Ke Yitong The mode crossing other realizes.Such as, device embodiment described above is only schematically, such as, The division of described unit, is only a kind of logic function and divides, and actual can have other division side when realizing Formula, the most multiple unit or assembly can in conjunction with or be desirably integrated into another system, or some features can To ignore, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or logical Letter connection can be the INDIRECT COUPLING by some interfaces, device or unit or communication connection, can be electrical, Machinery or other form.

The described unit illustrated as separating component can be or may not be physically separate, as The parts that unit shows can be or may not be physical location, i.e. may be located at a place, or Can also be distributed on multiple NE.Can select therein some or all of according to the actual needs Unit realizes the purpose of embodiment of the present invention scheme.

It addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, Can also be that unit is individually physically present, it is also possible to two or more unit are integrated in a unit In.

If described function is using the form realization of SFU software functional unit and as independent production marketing or use, Can be stored in a computer read/write memory medium.Based on such understanding, the technical side of the present invention Part or the part of this technical scheme that prior art is contributed by case the most in other words can be with softwares The form of product embodies, and this computer software product is stored in a storage medium, including some fingers Make with so that a computer equipment (can be personal computer, server, or the network equipment etc.) performs All or part of step of method described in each embodiment of the present invention.And aforesaid storage medium includes: USB flash disk, The various media that can store program code such as portable hard drive, ROM, RAM, magnetic disc or CD.

The above, the only detailed description of the invention of the present invention, but protection scope of the present invention is not limited to This, any those familiar with the art, in the technical scope that the invention discloses, can readily occur in Change or replacement, all should contain within protection scope of the present invention.Therefore, protection scope of the present invention should It is as the criterion with scope of the claims.

Claims (21)

1. a Kato ejecting structure, including Kato and flexible clamp piece, described Kato includes for placing electronics The draw-in groove of card, it is characterised in that described Kato ejecting structure also includes the first drive mechanism and the second driving machine Structure, wherein, described first drive mechanism is for locking and unlocks described Kato, and described second drive mechanism is used In time being in released state at described Kato, eject described Kato.

Kato ejecting structure the most according to claim 1, it is characterised in that described Kato is near described The side of the first drive mechanism is provided with a groove, described first drive mechanism include the first direct current generator, first Threaded shaft and the latch piece with described groove clamping, one end of described first threaded shaft and described first straight Stream motor connects, and the other end of described first threaded shaft and described latch piece connect, described first unidirectional current Machine drives described latch piece horizontal reciprocating movement by described first threaded shaft；Wherein, when described first straight Stream motor towards first direction rotate time, latch piece described in described first DC motor Driver moves to described groove In, Kato described in described latch piece locking；When described first direct current generator rotates towards second direction, described Latch piece described in first DC motor Driver departs from described groove, and described latch piece unlocks described Kato.

Kato ejecting structure the most according to claim 2, it is characterised in that described latch piece is square column Body structure, and described latch piece is provided with a screwed hole, described card near the one side of described first threaded shaft Latch fitting passes through described screw hole on described first threaded shaft.

Kato ejecting structure the most according to claim 2, it is characterised in that described first threaded shaft One end of described first direct current generator is provided with the first gear, the rotating shaft of described first direct current generator is leaned on One end of the most described first threaded shaft is provided with the second gear, and described first gear and the second gear are meshed.

Kato ejecting structure the most according to claim 4, it is characterised in that described first threaded shaft One end of described first gear is provided with the first nut, and between described first gear and the first nut Described first threaded shaft on be provided with the first threaded shaft holder.

Kato ejecting structure the most according to claim 2, it is characterised in that described first threaded shaft One end and the connected mode of described first direct current generator include welding or riveting.

Kato ejecting structure the most according to claim 1, it is characterised in that described second drive mechanism Including the second direct current generator, connector and for ejecting the transfer bar mechanism of described Kato, described transfer bar mechanism bag Include the first push rod, the second push rod and rotating shaft, described first push rod and described second push rod one-body molded, and institute State the first push rod and the second push rod and form an angle more than 90 ° and less than 180 °, described first push rod and Described second the formed angle of push rod has one for plugging the through hole of described rotating shaft, the one of described first push rod End contacts with described Kato, and one end of described second push rod is fixing with described connector to be connected；Described second straight Stream motor, by described connector, drives described first push rod and the second push rod to rotate around described rotating shaft, Described first push rod ejects described Kato.

Kato ejecting structure the most according to claim 7, it is characterised in that described connector includes Two threaded shafts, spring and nut, one end of described second threaded shaft and described second direct current generator connection, Described nut sleeve is located on the other end of described second threaded shaft, and one end of described spring and described nut Fixing connection, the other end of described spring and described second push rod are fixing to be connected；Wherein, at described Kato When released state, when described second direct current generator rotates towards first direction, described second direct current generator leads to Spring described in overstretching, drive described first push rod and the second push rod around described axis of rotation, described first Push rod ejects described Kato；When described second direct current generator rotates towards second direction, described second unidirectional current Machine drives described spring to be recovered to initial condition by extended state.

Kato ejecting structure the most according to claim 8, it is characterised in that described second push rod is close One end of described spring is provided with a jack, and described spring is inserted through described near one end of described second push rod Hole, and be bolted on described second push rod by one.

Kato ejecting structure the most according to claim 8, it is characterised in that described second screw thread turns Axle is provided with the 3rd gear near one end of described second direct current generator, in the rotating shaft of described second direct current generator One end of described second threaded shaft is provided with the 4th gear, and described 3rd gear and the 4th gear are nibbled mutually Close.

11. Kato ejecting structures according to claim 10, it is characterised in that described second screw thread turns Axle is provided with the second nut near one end of described 3rd gear, and described 3rd gear and the second nut it Between described second threaded shaft on be provided with the second threaded shaft holder.

12. Kato ejecting structures according to claim 8, it is characterised in that described second screw thread turns One end of axle and the connected mode of described second direct current generator include welding or riveting.

13. 1 kinds of mobile terminals, including housing, it is characterised in that described mobile terminal also includes such as right Requiring the Kato ejecting structure according to any one of 1 to 12, described Kato ejecting structure is arranged at described housing In, described mobile terminal also includes:

Operational order receives unit, for receiving the second instruction of the first instruction or the locking Kato unlocking Kato；

First control circuit, for controlling the first drive mechanism locking Kato or unlocking Kato；

Second control circuit, ejects institute for controlling the second drive mechanism when described Kato is in released state State Kato；

Processor, receives unit, first control circuit and second control circuit with described operational order and is connected, Described processor receives, for receiving operational order, the first instruction or the second instruction that unit sends, according to described First instruction sends the first control signal controlling the first drive mechanism unblock Kato to first control circuit, and Send control the second drive mechanism to second control circuit and eject described card when described Kato is in released state Second control signal of torr；Control the first drive mechanism locking is sent to first control circuit according to the second instruction 3rd control signal of Kato.

14. mobile terminals according to claim 13, it is characterised in that with described card in described housing Relative position is ask to be provided with a resilient contact；Wherein, after described processor receives storage the second instruction, And when described resilient contact contacts with described Kato, send to described first control circuit and control described first 3rd control signal of Kato described in drive mechanism locking.

15. mobile terminals according to claim 14, it is characterised in that described first control circuit with First direct current generator connects, and described first control circuit is used for receiving the first control signal or the 3rd control signal, Control the first direct current generator according to the first control signal to rotate the very first time towards second direction, and according to the 3rd control Signal processed controls the first direct current generator and rotates the very first time towards first direction；Wherein, when the first direct current generator court When second direction rotates the very first time, described first drive mechanism unlocks described Kato, when the first direct current generator During towards the first direction rotation very first time, Kato described in described first drive mechanism locking.

16. mobile terminals according to claim 13, it is characterised in that described second control circuit with Second direct current generator connects, and described second control circuit is for receiving the second control signal, and according to described the Two control signals control the second direct current generator and rotated for the second time towards first direction；Wherein, when described second straight Stream motor towards first direction rotated for the second time time, first push rod eject described Kato.

17. mobile terminals according to claim 16, it is characterised in that described second control circuit is also For controlling after described second direct current generator rotated for the second time towards first direction, rotate the towards second direction Two times；Wherein, when the second direct current generator rotated for the second time towards second direction, spring is by extended state Recover to initial condition.

The control method of 18. 1 kinds of Kato ejecting structures, is applied to as any one of claim 13 to 17 Described mobile terminal, it is characterised in that described control method includes:

Receive first instruction unlocking Kato of input；

According to described first instruction, send the first control signal to described first control circuit, and to described the Two control circuits send the second control signal, so that described first control circuit is according to described first control signal Control described first drive mechanism and unlock described Kato, and make described second control circuit according to described second control Signal processed controls described second drive mechanism and ejects described Kato when described Kato is in released state.

19. control methods according to claim 18, it is characterised in that the unblock of described reception input Before first instruction of Kato, described control method also includes:

Receive and store the second instruction of the locking Kato of input；

According to described second instruction, send the 3rd control signal to described first control circuit, so that described the One control circuit controls Kato described in described first drive mechanism locking according to described 3rd control signal.

20. control methods according to claim 19, it is characterised in that described reception also stores input Locking Kato second instruction after, described control method also includes:

When resilient contact contacts with described Kato, send the 3rd control signal to described first control circuit, So that described first control circuit controls described in described first drive mechanism locking according to described 3rd control signal Kato.

21. control methods according to claim 19, it is characterised in that described according to described first finger Order, sends the first control signal to described first control circuit, and sends second to described second control circuit Before control signal, described control method also includes:

Judge whether the instruction that user inputs is consistent with described first instruction；

If being consistent, then enter described according to described first instruction, send the first control to described first control circuit Signal processed, and the step of the second control signal is sent to described second control circuit.