CN109120293A - Kato component, electronic equipment and Kato assembly control method - Google Patents

Abstract

The application provides a kind of Kato component, electronic equipment and Kato assembly control method.The Kato component, applied to electronic equipment, the electronic equipment includes shell, the shell offers ejection hole, the Kato component includes Kato and the first ejecting mechanism, first ejecting mechanism includes first motor and the first ejection piece for being sheathed on the first output shaft of the first motor, first ejection piece is fixedly connected with the Kato, first output shaft of the first motor makes rotating motion to drive first ejection piece to move along a straight line, and the Kato is stretched out to or retracted the ejection hole.The technical solution of the application helps to improve the convenience of Kato component operation.

Description

Kato component, electronic equipment and Kato assembly control method

Technical field

This application involves technical field of electronic products more particularly to a kind of Kato components, electronic equipment and Kato component control Method processed.

Background technique

With advances in technology and the diversity of people's demand, electronic equipment type currently on the market is more and more, example Such as mobile phone, palm PC.These electronic equipments need to carry smart card, such as SIM (Subscriber Identification Module client identification module) card, storage card etc..These smart cards are generally arranged at electronic equipment On Kato component, user can realize the installation and removal of smart card by operation Kato component during use.Currently, The Kato component of electronic equipment mainly includes Kato, deck, the first push rod and the second push rod, and Kato blocks for accommodating smart card Seat is installed on the inside of the shell of electronic equipment, and Kato can be slidably arranged on deck.Ejection is opened up on Kato or shell Hole, the first push rod are slidably mounted on the inside of shell, and the second push rod is rotatablely installed in the inside of shell.When needing card taking, user Holding thimble protrudes into thimble in ejection hole, and thimble applies active force to the first push rod, so that the first push rod pushes the second push rod One end, the second push rod can rotate, and the other end of the second push rod can apply active force to Kato at this time, so that card Support pop-up.It follows that, in order to realize the ejection operation of Kato, need additionally to configure thimble when using traditional Kato component, The thimble would generally be separated with electronic equipment, causes to implement to be not easily found thimble when Kato ejection operation, causes Kato Ejection operation is inconvenient.

Summary of the invention

The application provides a kind of Kato component, is applied to electronic equipment, the electronic equipment includes shell, and the shell is opened Equipped with ejection hole, the Kato component includes Kato and the first ejecting mechanism, first ejecting mechanism include first motor and The first ejection piece being sheathed on the first output shaft of the first motor, first ejection piece and the Kato are fixed to be connected It connects, the first output shaft of the first motor makes rotating motion to drive first ejection piece to move along a straight line, will be described Kato stretches out or retracts the ejection hole.

The Kato component of the application, the first ejection piece is set on the first output shaft of first motor, first motor is worked as When controlling the first output shaft and make rotating motion, the first output shaft drives the first ejection piece to move in a straight line, due to the first top Part and Kato are using being fixedly connected out, and therefore, the first ejection piece also will drive Kato and move in a straight line, thus Kato is stretched out or Person is the ejection hole retracted on shell, the Electronic control to Kato is realized, compared to the manual operation side of conventionally employed thimble The technical solution of formula, the application is not necessarily to thimble, improves the operational convenience of Kato component.

The application also provides a kind of electronic equipment, and the electronic equipment includes shell and Kato component as described above.

The application also provides a kind of Kato assembly control method, and the Kato component is applied to electronic equipment, the electronics Equipment includes shell, and the shell offers ejection hole, and the Kato component includes Kato and the first ejecting mechanism, and described first Ejecting mechanism includes first motor and the first ejection piece for being sheathed on the first output shaft of the first motor, first top Part is fixedly connected with the Kato out, and the Kato assembly control method includes:

When the first motor provides First Driving Force to first output shaft, first output shaft does rotation fortune It moves to drive first ejection piece to move along a straight line, the Kato is stretched out into the ejection hole；

When the first motor provides the second driving force to first output shaft, first output shaft does rotation fortune It moves to drive first ejection piece to move along a straight line, the Kato is retracted into the ejection hole.

Detailed description of the invention

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the application embodiment Attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is some embodiments of the application, for this field For those of ordinary skill, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Fig. 1 (a) is the structural schematic diagram for a kind of electronic equipment that the embodiment of the present application one provides.

Fig. 1 (b) is the structural schematic diagram for the Kato component that the embodiment of the present application one provides.

Fig. 2 is the structural schematic diagram for the Kato component that the embodiment of the present application two provides.

Fig. 3 is the structural schematic diagram for the Kato component that the embodiment of the present application three provides.

Fig. 4 is the structural schematic diagram for the Kato component that the embodiment of the present application four provides.

Fig. 5 is the structural schematic diagram for the Kato component that the embodiment of the present application five provides.

Fig. 6 is the structural schematic diagram for the Kato component that the embodiment of the present application six provides.

Fig. 7 is the structural schematic diagram of the first electronic equipment provided by the embodiments of the present application.

Fig. 8 is the structural schematic diagram of second of electronic equipment provided by the embodiments of the present application.

Fig. 9 is the structural schematic diagram of the third electronic equipment provided by the embodiments of the present application.

Figure 10 is the flow chart of the first Kato assembly control method provided by the embodiments of the present application.

Figure 11 is the flow chart of second of Kato assembly control method provided by the embodiments of the present application.

Specific embodiment

Below in conjunction with the attached drawing in the application embodiment, the technical solution in the application embodiment is carried out clear Chu is fully described by, it is clear that described embodiment is only a part of embodiment of the application, rather than whole realities Apply mode.Based on the embodiment in the application, those of ordinary skill in the art institute under that premise of not paying creative labor The every other embodiment obtained, shall fall in the protection scope of this application.

It is the knot for a kind of electronic equipment that the embodiment of the present application one provides also referring to Fig. 1 (a) and Fig. 1 (b), Fig. 1 (a) Structure schematic diagram.Fig. 1 (b) is the structural schematic diagram for the Kato component that the embodiment of the present application one provides.In the present embodiment, the card Component 10 is ask to be applied to electronic equipment 1, the electronic equipment 1 includes shell 20, and the shell 20 offers ejection hole 20a, institute Stating Kato component 10 includes Kato 100 and the first ejecting mechanism 200, and first ejecting mechanism 200 includes 210 He of first motor The first ejection piece 230 being sheathed on the first output shaft 220 of the first motor 210, first ejection piece 230 and described Kato 100 is fixedly connected, and the first output shaft 220 of the first motor 210 makes rotating motion to drive first ejection piece 230 move along a straight line, and stretch out or retract the ejection hole 20a for the Kato 100.

Optionally, the electronic equipment 1 can be any equipment for having communication and store function.Such as: tablet computer, Mobile phone, electronic reader, remote controler, personal computer (Personal Computer, PC), laptop, mobile unit, Web TV, wearable device etc. have the smart machine of network function.

Wherein, shell 20 can be the center of the electronic equipment 1.Kato 100 is for installing client identification module card (Subscriber Identification Module, SIM), storage card etc..First motor 210 can be linear motor, when When first output shaft 220 of first motor 210 makes rotating motion, the first ejection piece 230 being sheathed on the first output shaft 220 is done Linear motion, since the first ejection piece 230 is fixedly connected with Kato 100, the first ejection piece 230 drives Kato 100 to do directly Line movement, Kato 100 is stretched out and either retracts the ejection hole 20a opened up on the shell 20.

Optionally, in one embodiment, first output shaft 220 has the first external screw thread, first ejection Part 230 has the first internal screw thread, first output shaft 220 and first ejection piece 230 by first external screw thread with And first internal screw thread cooperates.

Wherein, " external screw thread " refers to the screw thread in cylinder or external conical surface, if the screw thread of bolt surface is outer spiral shell Line." internal screw thread " refers to the screw thread of the inner surface of nut, as internal screw thread.

Specifically, the screw pitch of the first external screw thread and the first internal screw thread is consistent, so that the first external screw thread and first Cooperation can be formed between internal screw thread, so that the first ejection piece 230 can reciprocatingly slide compared to the first output shaft 220. Wherein, " screw pitch " is measured along hand of helix, and the distance between adjacent two screw thread refers generally in thread pitch on screw thread Adjacent two tooth corresponds to the axial distance of point-to-point transmission on middle line.

Optionally, in another embodiment, first ejection piece 230 includes the first lantern ring 232 being fixedly connected With first connecting rod 233, first lantern ring 232 is sheathed on first output shaft 220, and with first output shaft 220 Clearance fit is formed, the first connecting rod 233 is connected to the Kato 100.

Wherein, the first lantern ring 232 can be welding, riveting either screw with the mode that is fixedly connected of first connecting rod 233 It locks.The first connecting rod 233 is connected to the outside of first lantern ring 232, first lantern ring 232 and first output Cooperation is formed between axis 220, when first output shaft 220 makes rotating motion, first lantern ring 232 can be compared to described First output shaft 220 does reciprocal sliding linear motion.Further, first connecting rod 233 is also to be fixedly connected with Kato 100, First connecting rod 233 can be welding, riveting either screw locking with the mode that is fixedly connected of Kato 100.Therefore, work as first set When ring 232 does linear reciprocating motion compared to first output shaft 220, the Kato 100 can also follow first lantern ring 232 do the linear reciprocating motion of same form, either retract the ejection hole 20a to realize and stretch out the Kato 100 Function.

First ejection piece 230 is set in the first output of first motor 210 by the Kato component 10 that the technical program provides On axis 220, when first motor 210, which controls the first output shaft 220, to make rotating motion, the first output shaft 220 drives first Ejection piece 230 moves in a straight line, and is fixedly connected since the first ejection piece 230 is used with Kato 100, the first ejection piece 230 Also it will drive Kato 100 to move in a straight line, so that Kato 100 to be stretched out to the ejection hole 20a either retracted on shell 20, realize To the Electronic control of Kato 100, the Kato group provided compared to the manual manipulation mode of conventionally employed thimble, the technical program Part 10 is not necessarily to thimble, improves the operational convenience of Kato component 10.

It is the structural schematic diagram for the Kato component that the embodiment of the present application two provides also referring to Fig. 1 (a) and Fig. 2, Fig. 2. The structure of embodiment two and the structure of embodiment one are essentially identical, the difference is that, in the present embodiment, the Kato component 10 further include the second ejecting mechanism 300 being oppositely arranged with first ejecting mechanism 200, and second ejecting mechanism 300 wraps Including second motor 310 and the second ejection piece 330 for being sheathed on the second output shaft 320 of second motor 310, and described second Ejection piece 330 is fixedly connected with the Kato 100, and second motor 310 can drive second ejection piece 330 to move, institute The second motor 310 is stated to cooperate with the first motor 210 to stretch out or retract the ejection hole for the Kato 100 20a。

Wherein, the second motor 310 can be linear motor, or rotating electric machine.

Specifically, second motor 310 drives the second output shaft 320 to do rotation fortune when the second motor 310 is opened It is dynamic, since the second ejection piece 330 is sheathed on the second output shaft 320, and is formed and cooperated with the second output shaft 320, so that For second ejection piece 330 compared to the second output shaft 320, the extending direction along the second output shaft 320 does linear reciprocating motion.Due to Second ejection piece 330 is fixedly connected with Kato 100, so that Kato 100 be driven to do back and forth along the extending direction of the second output shaft 320 Linear motion.Pass through the mutual cooperation of the either closure of the unlatching between first motor 210 and the second motor 310, so that it may real Kato 100 is now stretched out to or is retracted the function of the ejection hole 20a.And by between first motor 210 and the second motor 310 Mutual cooperation, help to ensure that 100 stress of Kato is more uniform, single motor avoided to be easy to cause 100 stress of Kato Non-uniform drawback helps to improve smooth degree when Kato 100 moves.

Further, by the chronological order to first motor 210 and the unlatching of the second motor 310, or lead to The speed of service after overregulating first motor 210 and the unlatching of the second motor 310, so that it may realize the direction moved to Kato 100 It is finely adjusted, so that ejection hole 20a described in 100 face of Kato is stretched out and either retracted, avoids Kato 100 and electronic equipment 1 Shell 20 between generate biggish frictional force, facilitate to Kato component 10 formed protect.And pass through first motor 210 and the The control to the motion state of Kato 100 is realized in the mutual cooperation of two motors 310, is increased the flexibility ratio in control, is improved The operational convenience of Kato component 10.

It is the structural schematic diagram for the Kato component that the embodiment of the present application three provides also referring to Fig. 1 (a) and Fig. 3, Fig. 3. The structure of embodiment three and the structure of embodiment two are essentially identical, the difference is that, in the present embodiment, the Kato component 10 further include speed adjusting gear 400, and the speed adjusting gear 400 is used to adjust the first motor 210 and second motor 310 Relative velocity, so that ejection hole 20a described in 100 face of the Kato is stretched out and either retracted.

Specifically, the speed adjusting gear 400 can carry out speed adjusting to first motor 210 and the second motor 310 simultaneously, So that the first motor 210 and the speed of second motor 310 are mutually matched, and then to the motion state of Kato 100 It is controlled, is either retracted so that Kato 100 can be stretched out with ejection hole 20a described in face, to reduce Kato 100 and electronics Frictional force between the shell 20 of equipment 1 avoids the Kato 100 by biggish abrasion, helps to form Kato 100 and protect Shield.

For example, Kato 100 stretch out either retract ejection hole 20a during, when detecting 100 direction of Kato When the side offset of first motor 210, the speed adjusting gear 400 will adjust the first motor 210 and second motor 310 relative velocity, so that the speed of the first motor 210 is slightly larger than the speed of second motor 310, thus to Kato 100 direction of motion is finely adjusted, and stretches out either retraction to ensure that Kato 100 can eject hole 20a with face.

It is the structural schematic diagram for the Kato component that the embodiment of the present application four provides also referring to Fig. 1 (a) and Fig. 4, Fig. 4. The structure of example IV and the structure of embodiment one are essentially identical, the difference is that, in the present embodiment, first ejection Mechanism 200 is located at the ejection side of the hole 20a far from the Kato 100, and first ejection piece 230 includes being oppositely arranged Second connecting rod 234 and third connecting rod 235 and second set between the second connecting rod 234 and the third connecting rod 235 Ring 236, the second connecting rod 234 and the third connecting rod 235 are fixedly connected with second lantern ring 236, and described second Connecting rod 234 and the third connecting rod 235 are fixedly connected with the Kato 100, and second lantern ring 236 is sheathed on described first On output shaft 220, and is formed and cooperated with first output shaft 220.

Optionally, the second connecting rod 234 and the third connecting rod 235 are fixed on the outside of second lantern ring 236.It can Choosing, the second connecting rod 234 and the third connecting rod 235 and the fixed form of second lantern ring 236 can be welding, riveting Either screw locking is connect, and the second connecting rod 234 and the third connecting rod 235 are fixedly connected with the Kato 100.Institute It states the second lantern ring 236 to be sheathed on the first output shaft 220, and is formed and cooperated with the first output shaft 220.When first motor 210 is opened Qi Shi, the first output shaft 220 of control makes rotating motion, and then the second lantern ring 236 is driven to do back and forth compared to the first output shaft 220 Linear motion, and then drive second connecting rod 234 and third connecting rod 235 do the linear reciprocating motion of same form, due to the second company Bar 234 and third connecting rod 235 are fixedly connected with the Kato 100, so as to drive the Kato 100 to do reciprocating linear fortune It is dynamic, the Kato 100 is stretched out and either retracts the ejection hole 20a.

Optionally, in a better embodiment, the center of the center line of second lantern ring 236 and the Kato 100 Line is consistent, and helps so that the Kato 100 is more uniformly stressed, and avoids the shell of the Kato 100 and electronic equipment 1 Frictional force is generated between 20, is helped to form Kato 100 and be protected.

And it is further, in the technical scheme, first ejecting mechanism 200 is arranged remote in the ejection hole 20a Side from the Kato 100, first ejection piece 230 include the second connecting rod 234 and third connecting rod 235 being oppositely arranged, The Kato 100 is formed simultaneously by second connecting rod 234 and third connecting rod 235 and is supported, the Kato 100 is helped to improve and transports Stability when dynamic, and help to ensure that being more uniformly stressed for the Kato 100, avoid the Kato 100 and electronic equipment 1 Shell 20 between generate frictional force, facilitate to Kato 100 formed protect.

Further, in a better embodiment, the second connecting rod 234 and the third connecting rod 235 are that can stretch Contracting bar, thus the movement during Kato 100 stretches out and either retracts the ejection hole 20a, to the Kato 100 Direction is adjusted in real time, so that ejection hole 20a described in 100 face of the Kato is stretched out and either retracted, helps to reduce Frictional force between the Kato 100 and the shell 20 of the electronic equipment 1, and then Kato 100 is formed and is protected, help to prolong The service life of long Kato 100.

It is the structural schematic diagram for the Kato component that the embodiment of the present application five provides also referring to Fig. 1 (a) and Fig. 5, Fig. 5. The structure of embodiment five and the structure of embodiment one are essentially identical, the difference is that, in the present embodiment, first ejection Mechanism 200 further includes angle demodulator 500, and the angle demodulator 500 is for adjusting first output shaft 220 compared to institute The angle between the center line of Kato 100 is stated, so that ejection hole 20a described in 100 face of the Kato is stretched out and either retracted.

Optionally, in one embodiment, the angle demodulator 500 is mounted in the first motor 210, described The rotation angle of the first motor 210 is adjusted in angle demodulator 500, and then realizes the court to first output shaft 220 To adjusting.When the centerline parallel of the center line of first output shaft 220 and the Kato 100 or described first When angle between the center line of output shaft 220 and the center line of the Kato 100 is located within the scope of predetermined angle, at this point, can So that ejection hole 20a described in 100 face of Kato is stretched out and either retracted, help to reduce the Kato 100 and described Frictional force between the shell 20 of electronic equipment 1 improves the smoothness that the Kato component 10 moves.And avoid the Kato 100 by biggish abrasion, helps to form Kato 100 and protect.

Optionally, in another embodiment, the angle demodulator 500 is used to adjust the rotation of the Kato 100 Angle.The angle demodulator 500 includes resonator, and the resonator is used to carry out micro-displacement adjusting to the Kato 100.It can Choosing, the resonator be mounted on the Kato 100 adjacent to it is described ejection hole 20a side wall on, for the Kato 100 into Row adjustment in real time helps to reduce the card so that ejection hole 20a described in 100 face of the Kato is stretched out and either retracted Frictional force between support 100 and the shell 20 of the electronic equipment 1 improves the smoothness that the Kato component 10 moves.And it keeps away Exempt from the Kato 100 by biggish abrasion, helps to form Kato 100 and protect.

It is the structural schematic diagram for the Kato component that the embodiment of the present application six provides also referring to Fig. 1 (a) and Fig. 6, Fig. 6. The structure of embodiment six and the structure of embodiment one are essentially identical, the difference is that, in the present embodiment, the Kato component 10 further include deck 600, and the deck 600 has container 600a, and the container 600a is for the receiving Kato 100, the container 600a have opening 600b, and ejection hole 20a, the Kato 100 described in the opening 600b face pass through The opening 600b, which stretches out, either retracts the ejection hole 20a.

Optionally, in one embodiment, the Kato 100 and the deck 600 are gap-matched, the Kato Lubrication part 610 is provided between 100 and the deck 600, the lubrication part 610 is for reducing the Kato 100 and the card Frictional force between seat 600.

Wherein, the lubrication part 610 can be lubricating oil, to reduce rubbing between the Kato 100 and the deck 600 Power is wiped, helps to reduce the abrasion between the Kato 100 and the deck 600, the Kato 100 is formed and is protected, is helped In the service life for extending the Kato 100.

Further, in a better embodiment, it is provided with sliding rail between the Kato 100 and the deck 600, institute It states Kato 100 to slide by the sliding rail compared to the deck 600, the Kato 100 be stretched out described in either retracting Eject hole 20a.And finite place piece is set on the sliding rail, the locating part is used to the Kato 100 being fixed on the deck On 600 predeterminated position, the Kato 100 is avoided to generate uncontrollable displacement.

It is the first electronic equipment provided by the embodiments of the present application also referring to Fig. 1 (a), Fig. 1 (b) and Fig. 7, Fig. 7 Structural schematic diagram.The electronic equipment 1 includes shell 20 and the Kato component 10 that any embodiment as above provides.

Optionally, the electronic equipment 1 can be any equipment for having communication and store function.Such as: tablet computer, Mobile phone, electronic reader, remote controler, personal computer (Personal Computer, PC), laptop, mobile unit, Web TV, wearable device etc. have the smart machine of network function.

Wherein, the shell 20 is the center of the electronic equipment 1.The material of the shell 20 can for plastic cement, glass, Ceramics, metal either timber.

Optionally, in one embodiment, the shell 20 forms accommodating chamber 20b, and the accommodating chamber 20b is for accommodating The Kato component 10, the shell 20 offer ejection hole 20a, the Kato 100 can by the ejection hole 20a stretching or Person is to retract the accommodating chamber 20b.

Wherein, the Kato component 10 is applied to electronic equipment 1, and the electronic equipment 1 includes shell 20, the shell 20 Ejection hole 20a is offered, the Kato component 10 includes Kato 100 and the first ejecting mechanism 200, first ejecting mechanism 200 include first motor 210 and the first ejection piece 230 being sheathed on the first output shaft 220 of the first motor 210, institute It states the first ejection piece 230 to be fixedly connected with the Kato 100, the first output shaft 220 of the first motor 210 makes rotating motion To drive first ejection piece 230 to move along a straight line, the Kato 100 is stretched out or is retracted the ejection hole 20a.

Optionally, the electronic equipment 1 can be any equipment for having communication and store function.Such as: tablet computer, Mobile phone, electronic reader, remote controler, personal computer (Personal Computer, PC), laptop, mobile unit, Web TV, wearable device etc. have the smart machine of network function.

Specifically, the first motor 210 is fixedly connected with the shell 20, the Kato 100 and the shell 20 are living Dynamic connection, first ejection piece 230 can do linear reciprocating motion compared to first output shaft 220, to drive the card Support 100 does linear reciprocating motion, and then the Kato 100 is stretched out and either retracts the ejection hole 20a.

Further, in another embodiment, the electronic equipment 1 further includes sealing ring 30, the sealing ring 30 Seal protection is formed in the ejection hole 20a, and to the Kato component 10.

Wherein, the sealing ring 30 can be rubber ring, and the sealing ring 30 has elasticity.The sealing ring 30 with it is described The shape for ejecting hole 20a is adapted, and is located on the 20a inner wall of the ejection hole, when the Kato 100 is contained in the ejection hole When 20a, the sealing ring 30 is bonded the Kato 100 and is arranged, to form seal protection to the Kato component 10.

The electronic equipment 1 that the technical program provides includes Kato component 10 and shell 20, and the shell 20 offers ejection Hole 20a, the Kato component 10 include Kato 100 and the first ejecting mechanism 200, and first ejecting mechanism 200 includes first Motor 210 and the first ejection piece 230 being sheathed on the first output shaft 220 of the first motor 210, first ejection piece 230 are fixedly connected with the Kato 100, and the first output shaft 220 of the first motor 210 makes rotating motion to drive described One ejection piece 230 moves along a straight line, and stretches out or retract the ejection hole 20a for the Kato 100.Compared to conventionally employed The manual manipulation mode of thimble, the Kato component 10 that the technical program provides are not necessarily to thimble, improve in the operation of Kato component 10 Convenience.

It is second of electronic equipment provided by the embodiments of the present application also referring to Fig. 1 (a), Fig. 1 (b) and Fig. 8, Fig. 8 Structural schematic diagram.The structural schematic diagram of second of electronic equipment and the structural schematic diagram of the first electronic equipment are essentially identical, no It is with place, the electronic equipment 1 further includes gravity sensor 710 and controller 720, when the gravity sensor 710 is examined When measuring the Kato component 10 and being in state of weightlessness, the gravity sensor 710 issues the first signal, the controller 720 First signal is received, and the Kato component 10 is controlled according to first signal and retracts the accommodating chamber 20b.

Wherein, gravity sensor 710 is that cantilevered shifter is made using elastic sensing element, elastic sensitive first with using Energy-stored spring made of part drives electric contact, completes the conversion from Gravity changer to electric signal, is widely used in middle and high end intelligence In energy mobile phone peace plate computer, gravity sensor 710 can be passed through and measure the acceleration due to caused by gravity.

Wherein, controller 720 or central processing unit (Central Processing Unit, CPU), are one piece Ultra-large integrated circuit is the arithmetic core (Core) and control core (Control Unit) of an electronic equipment.It Function be mainly execute electronic equipment in computer instruction and the data in processing software.

When gravity sensor 710 detects that the acceleration of Kato 100 is acceleration of gravity, it is believed that Kato component at this time 10 in weightless state, at this point, gravity sensor 710 issues the first signal, the controller 720 receives the first signal, And the Kato component 10 is controlled according to the first signal and retracts the accommodating chamber 20b, to realize to the Kato component 10 Dropproof protection avoids Kato component 10 from damaging due to falling.

Wherein, weightlessness refers to that object has quality without showing weight or weight lesser one in gravitational field when free movement Kind state, also known as zero-g.Weightlessness refers to zero-g and microgravity environment sometimes.Specifically, when acceleration straight down when For state of weightlessness.

It should be understood that in other embodiments, the electronic equipment 1 can also include other kinds of sensor, When the sensor detects that the Kato component 10 has a unexpected acceleration, that is, send distress signal, the control Device 720 processed receives the danger signal, and controls the Kato component 10 according to the danger signal and retract the accommodating chamber 20b avoids Kato component 10 since sudden surge damages.

It is the third electronic equipment provided by the embodiments of the present application also referring to Fig. 1 (a), Fig. 1 (b) and Fig. 9, Fig. 9 Structural schematic diagram.The structural schematic diagram of the third electronic equipment and the structural schematic diagram of the first electronic equipment are essentially identical, no It is with place, the electronic equipment 1 further includes gear shifting mechanism 800, and the gear shifting mechanism 800 is used for the first motor 210 carry out gear adjusting, when the gear shifting mechanism 800, which adjusts the first motor 210, is in the first gear, the Kato 100 stretch out first distance compared to the shell 20；Second is in when the gear shifting mechanism 800 adjusts the first motor 210 When gear, the Kato 100 compared to the shell 20 stretch out second distance, wherein the first distance with described second away from From differ.

Optionally, the gear shifting mechanism 800 can be realized by controlling the opening time of the first motor 210, be passed through The duration of the first motor 210 is opened in control, to realize the adjusting for the distance for stretching out the shell 20 to the Kato 100. For example, when the gear shifting mechanism 800 control 210 opening time of first motor is 0.3s, the Kato 100 can be compared to The shell 20 stretches out 15cm, at this point, the first motor 210 is in the first gear, when the Kato 100 is outer compared to described When shell 20 stretches out 15cm, the SIM card installed in the Kato 100 can be replaced；When the gear shifting mechanism 800 control the When 210 opening time of one motor is 0.6s, the Kato 100 can stretch out 30cm compared to the shell 20, at this point, described first Motor 210 is in the second gear, can be to the Kato 100 when the Kato 100 stretches out 30cm compared to the shell 20 The SIM card and RAM card of interior installation are replaced.

It should be understood that in other embodiments, the implementation of the gear shifting mechanism 800 is not limited solely to pass through The opening time for adjusting first motor 210 realizes, can also by the speed of service of first motor 210 to preset duration into Row regulation.The application is not construed as limiting the specific implementation form of gear shifting mechanism 800, any gear shifting mechanism 800 of can be realized The form of function all this application claims in the range of.

It is the first Kato component provided by the embodiments of the present application also referring to Fig. 1 (a), Fig. 1 (b) and Figure 10, Figure 10 The flow chart of control method.In the present embodiment, the Kato component 10 is applied to electronic equipment 1, and the electronic equipment 1 includes Shell 20, the shell 20 offer ejection hole 20a, and the Kato component 10 includes Kato 100 and the first ejecting mechanism 200, First ejecting mechanism 200 includes first motor 210 and is sheathed on the first output shaft 220 of the first motor 210 First ejection piece 230, first ejection piece 230 are fixedly connected with the Kato 100, the 10 control method packet of Kato component It includes but is not limited to step S100 and S200, about being described in detail as follows for step S100 and S200.

S100: when the first motor 210 provides First Driving Force F1 to first output shaft 220, described first Output shaft 220 makes rotating motion to drive first ejection piece 230 to move along a straight line, and the Kato 100 is stretched out described Eject hole 20a.

S200: when the first motor 210 provides the second driving force F2 to first output shaft 220, described first Output shaft 220 makes rotating motion to drive first ejection piece 230 to move along a straight line, and the Kato 100 is retracted described Eject hole 20a.

Optionally, in a better embodiment, the size of the First Driving Force F1 and the second driving force F2 are permanent It is fixed constant, and equal in magnitude, the First Driving Force F1 of the size of the First Driving Force F1 and the second driving force F2 Direction described in the second driving force F2 it is contrary.

Optionally, in another embodiment, nonlinear change is presented in the First Driving Force F1, and first increases and subtract afterwards It is small, first increase First Driving Force F1, the speed that the Kato 100 stretches out the ejection hole 20a can be improved, shorten the Kato 100 stretch out the time of the ejection hole 20a；Reduce First Driving Force F1 afterwards, helps to provide buffering to the Kato 100, keep away Exempt from the Kato 100 to be damaged by unexpected acceleration.Similarly, non-linear change can also be presented in the second driving force F2 Change, i.e. first increases and then decreases, helps to improve the Kato 100 and retract the efficiency of the ejection hole 20a, and facilitate to described Kato 100 forms buffer protection.

It is second of Kato provided by the embodiments of the present application also referring to Fig. 1 (a), Fig. 1 (b), Fig. 5 and Figure 11, Figure 11 The flow chart of assembly control method.Second of 10 control method of Kato component and the first basic phase of 10 control method of Kato component Together, the difference is that, in the present embodiment, first ejecting mechanism 200 includes angle demodulator 500, the Kato group 10 control method of part further includes but is not limited to step S300 and S400, about being described in detail as follows for step S300 and S400.

S300: when the first motor 210 drives first ejection piece 230 to move, the Kato 100 and institute are detected Shell 20 is stated adjacent to the extruding force size at the ejection position hole 20a.

S400: extruding force is preset when the extruding force that the Kato 100 is located at the first side wall of the shell 20 is greater than, and is held When continuous preset duration, the angle demodulator 500 adjust the first motor 210 towards the shell 20 second sidewall side To deflection, so that ejection hole 20a described in 100 face of the Kato is stretched out and is either retracted, wherein the first side wall and institute It states second sidewall and encloses the both ends for setting to form the ejection hole 20a, and opposite positioned at the ejection hole 20a.

Wherein, the size for detecting extruding force can be realized by pressure sensor.By the way that the is arranged at the first side wall Second pressure sensor is arranged in one pressure sensor at second sidewall, by detecting the first side wall and described second side Pressure size at wall to judge the offset direction of the Kato 100, and then fits the direction of motion of the Kato 100 Answering property adjusts, so that ejection hole 20a described in 100 face of the Kato is stretched out and either retracted, to reduce the Kato 100 and institute The frictional force between the shell 20 of electronic equipment 1 is stated, helps to form the Kato 100 and protect, extend the Kato 100 Service life.

Optionally, in one embodiment, the angle demodulator 500 is mounted in the first motor 210, described The rotation angle of the first motor 210 is adjusted in angle demodulator 500, and then realizes the court to first output shaft 220 To adjusting.When the centerline parallel of the center line of first output shaft 220 and the Kato 100 or described first When angle between the center line of output shaft 220 and the center line of the Kato 100 is located within the scope of predetermined angle, at this point, can So that ejection hole 20a described in 100 face of Kato is stretched out and either retracted, help to reduce the Kato 100 and described Frictional force between the shell 20 of electronic equipment 1 improves the smoothness that the Kato component 10 moves.And avoid the Kato 100 by biggish abrasion, helps to form Kato 100 and protect.

Optionally, in another embodiment, the angle demodulator 500 is used to adjust the rotation of the Kato 100 Angle.The angle demodulator 500 includes resonator, and the resonator is used to carry out micro-displacement adjusting to the Kato 100.It can Choosing, the resonator be mounted on the Kato 100 adjacent to it is described ejection hole 20a side wall on, for the Kato 100 into Row adjustment in real time helps to reduce the card so that ejection hole 20a described in 100 face of the Kato is stretched out and either retracted Frictional force between support 100 and the shell 20 of the electronic equipment 1 improves the smoothness that the Kato component 10 moves.And it keeps away Exempt from the Kato 100 by biggish abrasion, helps to form Kato 100 and protect.

The embodiment of the present application is described in detail above, specific case used herein to the principle of the application and Embodiment is expounded, the description of the example is only used to help understand the method for the present application and its core ideas； At the same time, for those skilled in the art can in specific embodiments and applications according to the thought of the application There is change place, in conclusion the contents of this specification should not be construed as limiting the present application.

Claims (16)

1. a kind of Kato component is applied to electronic equipment, the electronic equipment includes shell, and the shell offers ejection hole, It is characterized in that, the Kato component includes Kato and the first ejecting mechanism, first ejecting mechanism include first motor and The first ejection piece being sheathed on the first output shaft of the first motor, first ejection piece and the Kato are fixed to be connected It connects, the first output shaft of the first motor makes rotating motion to drive first ejection piece to move along a straight line, will be described Kato stretches out or retracts the ejection hole.

2. Kato component as described in claim 1, which is characterized in that first output shaft has the first external screw thread, described First ejection piece has the first internal screw thread, first output shaft and first ejection piece by first external screw thread and First internal screw thread cooperates.

3. Kato component as described in claim 1, which is characterized in that first ejection piece includes the first set being fixedly connected Ring and first connecting rod, the first set ring set are set on first output shaft, and are formed gap with first output shaft and matched It closes, the first connecting rod is connected to the Kato.

4. Kato component as described in claim 1, which is characterized in that the Kato component further includes and first ejector The second ejecting mechanism that structure is oppositely arranged, second ejecting mechanism include the second motor and are sheathed on the of second motor The second ejection piece on two output shafts, second ejection piece are fixedly connected with the Kato, and second motor can drive institute The movement of the second ejection piece is stated, second motor and the first motor cooperate so that the Kato to be stretched out to or be retracted institute State ejection hole.

5. Kato component as claimed in claim 4, which is characterized in that the Kato component further includes speed adjusting gear, the tune Fast mechanism is used to adjust the relative velocity of the first motor and second motor, so that ejecting described in the Kato face Hole, which is stretched out, either to be retracted.

6. Kato component as described in claim 1, which is characterized in that it is separate that first ejecting mechanism is located at the ejection hole The side of the Kato, first ejection piece include the second connecting rod being oppositely arranged and third connecting rod and be located at described second The second lantern ring between connecting rod and the third connecting rod, the second connecting rod and the third connecting rod are solid with second lantern ring Fixed connection, and the second connecting rod and the third connecting rod are fixedly connected with the Kato, second lantern ring is sheathed on institute It states on the first output shaft, and is formed and cooperated with first output shaft.

7. Kato component as described in claim 1, which is characterized in that first ejecting mechanism further includes angle demodulator, The angle demodulator is for adjusting first output shaft compared to the angle between the center line of the Kato, so that institute It states ejection hole described in Kato face and stretches out either retraction.

8. Kato component as described in claim 1, which is characterized in that the Kato component further includes deck, the deck tool There is container, for the container for the receiving Kato, the container has opening, pushes up described in the opening face Portal, the Kato is stretched out by the opening either retracts the ejection hole.

9. Kato component as claimed in claim 8, which is characterized in that the Kato and the deck are gap-matched, institute It states and is provided with lubrication part between Kato and the deck, the lubrication part is for reducing rubbing between the Kato and the deck Wipe power.

10. a kind of electronic equipment, which is characterized in that the electronic equipment includes shell and as described in claim any one of 1-9 Kato component.

11. electronic equipment as claimed in claim 10, which is characterized in that the shell forms accommodating chamber, and the accommodating chamber is used In accommodating the Kato component, the shell offers ejection hole, and the Kato can be stretched out by the ejection hole and either be contracted Return the accommodating chamber.

12. electronic equipment as claimed in claim 11, which is characterized in that the electronic equipment further includes sealing ring, described close Seal is located in the ejection hole, and forms seal protection to the Kato component.

13. electronic equipment as claimed in claim 11, which is characterized in that the electronic equipment further includes gravity sensor and control Device processed, when the gravity sensor detects that the Kato component is in state of weightlessness, the gravity sensor issues first Signal, the controller receives first signal, and controls the Kato component according to first signal and retract the receipts Cavity.

14. electronic equipment as claimed in claim 11, which is characterized in that the electronic equipment further includes gear shifting mechanism, described Gear shifting mechanism is used to carry out gear adjusting to the first motor, is in first when the gear shifting mechanism adjusts the first motor When gear, the Kato stretches out first distance compared to the shell；It is in when the gear shifting mechanism adjusts the first motor When the second gear, the Kato stretches out second distance compared to the shell, wherein the first distance and the second distance Differ.

15. a kind of Kato assembly control method, the Kato component is applied to electronic equipment, and the electronic equipment includes shell, The shell offers ejection hole, and the Kato component includes Kato and the first ejecting mechanism, and first ejecting mechanism includes First motor and the first ejection piece being sheathed on the first output shaft of the first motor, first ejection piece and the card Support is fixedly connected, which is characterized in that the Kato assembly control method includes:

When the first motor to first output shaft provide First Driving Force when, first output shaft make rotating motion with It drives first ejection piece to move along a straight line, the Kato is stretched out into the ejection hole；

When the first motor to first output shaft provide the second driving force when, first output shaft make rotating motion with It drives first ejection piece to move along a straight line, the Kato is retracted into the ejection hole.

16. Kato assembly control method as claimed in claim 15, which is characterized in that first ejecting mechanism includes angle Adjuster, the Kato assembly control method further include:

When the first motor drives first ejection piece movement, the Kato and the shell are detected adjacent to the ejection The extruding force size at hole position；

When the extruding force that the Kato is located at the first side wall of the shell is greater than default extruding force, and continues preset duration, The direction that the angle demodulator adjusts the first motor towards the second sidewall of the shell deflects, so that the Kato Ejection hole, which is stretched out, described in face either retracts, wherein the first side wall and the second sidewall enclose and set to form the ejection Hole, and it is located at the opposite both ends in the ejection hole.