WO2018145507A1 - Card tray ejection structure, terminal, card tray ejection method and device - Google Patents

Abstract

Provided are a card tray ejection structure, a terminal, a card tray ejection method and device. The card tray ejection structure comprises a card slot (10), a card tray (12) inserted within the card slot (10), and an electromagnetic ejection component (14). At least part of the electromagnetic ejection component (14) abuts against the card tray (12), such that, when the electromagnetic ejection component (14) is triggered by being powered on, the card tray (12) is ejected from the card slot (10) under the action of the electromagnetic ejection component (14).

Description

Cato pop-up structure and terminal, card tray pop-up method and device Technical field

The present disclosure relates to the field of communications, and in particular, to a card tray pop-up structure and a terminal, a card tray pop-up method and apparatus.

Background technique

There are two types of mobile phone card loading methods:

The first type: no card type, Subscriber Identity Module (SIM) card / mobile storage (Trans Flash, TF for short) card is directly inserted into the SIM card / TF card holder, such a card loading method is usually The battery cover of the mobile phone is made into a detachable form to facilitate the loading and unloading of the card. This method is mostly used on the low-end machine, and as the appearance and structure of the mobile phone are higher and higher, the card-taking method is less and less adopted. .

The second type: There is a Cato form. Most of the mid-to-high-end models adopt this type of pickup card design. The SIM card/TF card is loaded into the card tray. The card tray has various forms, but is similar. In this type of card loading, a card ejector pin is often provided. The appearance of the card end or the opening of the housing is inserted into the card, and the SIM card/TF card is ejected.

In view of the above-mentioned second method of loading and unloading, the following drawbacks are exposed in the process of use: a. The card pin is a small sharp object that is not easy to carry and is easily lost, and often finds that the card pin is missing when the card is being replaced. Can only find other alternatives such as needles and other paper clips, etc., the operation is very inconvenient; b, to open holes in the deck or shell, there is a risk of light leakage, and it is easy to enter water or dust.

Summary of the invention

The following is an overview of the topics detailed in this document. This Summary is not intended to limit the scope of the claims.

Embodiments of the present disclosure provide a card tray pop-up structure and a terminal, a card tray pop-up method and device.

According to an aspect of the present disclosure, a card tray ejecting structure is provided, including a card slot (10) and a card tray (12) inserted in the card slot (10), the card tray pop-up structure further comprising: Electromagnetic bomb Outgoing assembly (14), at least part of the electromagnetic ejection assembly (14) abutting the card holder (12) to cause the card holder (12) when the electromagnetic ejection assembly (14) is energized Ejected from the card slot (10) by the electromagnetic ejection assembly (14).

In an exemplary embodiment, the electromagnetic pop-up assembly (14) includes: a first electromagnet (142), and a first pushing portion (144) disposed corresponding to the position of the first electromagnet (142), wherein At least a portion of the first pushing portion (144) abuts the card holder (12), and the first pushing portion (144) is configured to push the first electromagnet (142) when the first electromagnet (142) is energized. The card tray (12) is ejected from the card slot (10).

In an exemplary embodiment, when the first electromagnet (142) is triggered by energization, an end near the first pushing portion (144) is generated close to the first electromagnetic portion with the first pushing portion (144). One end of the iron (142) has the same magnetic pole, so that the first pushing portion (144) pushes the card holder (12) out of the card slot (10) under the action of the same-sex repulsive force.

In an exemplary embodiment, the first pushing portion (144) includes a first push rod (146) having a magnetic property, and a first lever (148) abutting at least a portion of the first push rod (146). At least part of the first lever (148) abuts the card holder (12), wherein when the first electromagnet (142) is triggered by energization, the first is pushed by a same-sex repulsive force The push rod (146), in turn, pushes the first lever (148) to push the card holder (12) out of the card slot (10).

In an exemplary embodiment, the electromagnetic ejection assembly (14) further includes: a component holder (150) for mounting on the main board (16), one end of the first push rod (146) from the assembly bracket One end of the (150) is extended, and the other end of the component holder (150) is fixedly provided with the first electromagnet (142).

In an exemplary embodiment, the electromagnetic ejection assembly (14) further includes: a spring (152) sleeved on the first electromagnet (142), wherein one end of the spring (152) is The component holder (150) is fixedly coupled and the other end is coupled to the first push rod (146).

In an exemplary embodiment, the first lever (148) includes a short arm end (1480) and a long arm end (1482), at least a portion of the short arm end (1480) and the first push rod (146) Abutting, at least a portion of the long arm end (1482) abuts the card holder (12).

In an exemplary embodiment, the electromagnetic pop-up assembly (14) includes:

a button (154) disposed on the terminal housing, a second electromagnet (156), a second lever abutting at least a portion of the button (154) and axially coupled to the second electromagnet (156) (158) a second pushing portion (160), wherein the button (154) applies a pushing force to the second lever (158), and pushes the second lever (158) to drive the second pushing portion (160) The card tray (12) is ejected from the card slot (10).

In an exemplary embodiment, the second lever (158) is not at the same level as the initial position of the second pushing portion (160), and the second electromagnet (156) generates an electromagnetic force under the energization trigger. The second lever (158), and thus the second lever (158), is located on the same level as the second pushing portion (160).

In an exemplary embodiment, the second pushing portion (160) includes a pull rod (162) that abuts at least a portion of the second lever (158), abutting at least a portion of the pull rod (162) a connecting rod (164), a second push rod (166) abutting at least a portion of the connecting rod (164), at least part of the second push rod (166) resisting the card holder (12) Connecting, wherein the second lever (158) drives the pull rod (162) to move, the pull rod (162) drives the connecting rod (164) to move, thereby pushing the second push rod (166) to push the The card tray (12) is ejected from the card slot (10).

In an exemplary embodiment, the cartridge ejection structure further includes a return spring (168) disposed between the second electromagnet (156) and the second lever (158).

In an exemplary embodiment, the card slot (10) further includes: a protrusion structure (100), the card holder (12) further includes a groove (120) corresponding to the protrusion structure (100), The protrusion structure is caught in the groove (120) to fix the card holder (12).

According to another aspect of the present disclosure, there is also provided a terminal comprising the above-described card tray ejecting structure.

According to another aspect of the present disclosure, a method for popping up a card is provided, including: receiving, by the terminal, a pop-up instruction, wherein the pop-up instruction is used to pop up a card tray of a built-in card of the terminal, and the card tray is disposed at the terminal The terminal is ejected from the card slot by a force generated by an electromagnetic ejecting component disposed in the terminal under the trigger of the pop-up command.

In an exemplary embodiment, the terminal releases the card tray from the card slot by a force generated by an electromagnetic pop-up component disposed in the terminal under the trigger of the pop-up command. The method further includes: the terminal receiving an input password, wherein, when the input password is consistent with a preset password, the terminal is triggered by the pop-up instruction by an electromagnetic pop-up component disposed in the terminal The generated force ejects the card tray from the card slot.

According to another aspect of the present disclosure, there is also provided a card ejection device, which is applied to a terminal, comprising: a first receiving module configured to receive a pop-up instruction, wherein the pop-up instruction is used to pop up a card tray of a terminal built-in card The card tray is disposed in the card slot of the terminal; the pop-up module is configured to: the card tray is removed from the electromagnetic pop-up component disposed in the terminal by a force generated by the pop-up command The card slot is ejected.

In an exemplary embodiment, the apparatus further includes: a second receiving module configured to receive the input password, wherein the terminal is disposed in the terminal when the input password is consistent with a preset password The force generated by the electromagnetic pop-up assembly under the trigger of the pop-up command ejects the card tray from the card slot.

In an embodiment of the present disclosure, there is also provided a computer storage medium, wherein the computer storage medium may store an execution instruction for performing the implementation of the card tray pop-up method in the above embodiment.

Through the present disclosure, at least part of the electromagnetic ejection assembly (14) abuts the card holder (12), and when the electromagnetic ejection assembly (14) is energized, the card holder (12) is pushed by the electromagnetic ejection assembly (14). The card slot (10) is ejected, which solves various problems caused by mechanically taking out the built-in card from the outside of the terminal, and improves the convenience and security of the card.

Other aspects will be apparent upon reading and understanding the drawings and detailed description.

DRAWINGS

1 is a schematic diagram of a cartridge pop-up structure according to Example 1 of the present disclosure;

2 is a schematic view (1) of a cartridge ejection structure according to Example 1 of the present disclosure.

3 is a schematic diagram (2) of a cartridge ejection structure according to Example 1 of the present disclosure;

4 is a flowchart (1) of a card tray ejecting method according to Example 2 of the present disclosure;

5 is a flowchart (2) of a card tray ejecting method according to Example 2 of the present disclosure;

6 is a structural block diagram (1) of a card tray ejecting apparatus according to Example 2 of the present disclosure;

7 is a structural block diagram (2) of a card tray ejecting apparatus according to Example 2 of the present disclosure;

8 is a flowchart (1) of a method for automatically popping a SIM card/TF card of a mobile phone according to an exemplary implementation of the present disclosure;

9 is a flowchart (2) of a mobile phone SIM card/TF card automatic pop-up method according to an exemplary implementation manner of the present disclosure;

FIG. 10 is a schematic structural diagram of an electromagnetic pop-up assembly according to an exemplary implementation 2 of the present disclosure; FIG.

11 is a schematic structural view of a first push rod according to an exemplary implementation 2 of the present disclosure;

12 is a schematic structural view of a first electromagnet according to an exemplary implementation 2 of the present disclosure;

FIG. 13 is a schematic structural diagram of a card tray being ejected according to an exemplary implementation 2 of the present disclosure; FIG.

14 is an enlarged side view (1) of a second lever and a second pushing portion according to an exemplary implementation 3 of the present disclosure;

15 is a schematic structural view of a card tray being ejected according to an exemplary implementation of the present disclosure;

16 is an enlarged side view (ii) of a second lever and a second pushing portion according to an exemplary implementation 3 of the present disclosure;

17 is a flowchart (1) of a method for automatically popping a SIM card/TF card of a mobile phone according to Example 3 of the present disclosure;

18 is a flowchart (2) of a method for automatically popping a SIM card/TF card of a mobile phone according to Example 3 of the present disclosure.

Description of the reference numerals

10, card slot; 100, protruding structure; 12, Cato; 120, groove; 14, pop-up assembly; 16, main board; 142, first electromagnet; 144, first pushing portion; 146, first push rod; 1460, magnetic end; 1462, non-magnetic end; 148, first lever; 1480, short arm end; 1482, long arm end; 150, component bracket; 152, spring; 154, button; 156, second electromagnet; , second lever; 160, second pushing portion; 162, tie rod; 164, connecting rod; 166, second push rod; 168, return spring; 170, SIM card / TF card.

detailed description

The present disclosure will be described in detail below with reference to the drawings in conjunction with the examples.

The terms "first", "second" and the like in the specification and claims of the present disclosure and the above-mentioned figures are used to distinguish similar objects, and are not necessarily used to describe a particular order or order. It is to be understood that the data so used may be interchanged as appropriate, such that the embodiments of the present disclosure described herein can be implemented in a sequence other than those illustrated or described herein. In addition, the terms "comprises" and "comprises" and "the" and "the" are intended to cover a non-exclusive inclusion, for example, a process, method, system, product, or device that comprises a series of steps or units is not necessarily limited to Those steps or units may include other steps or units not explicitly listed or inherent to such processes, methods, products or devices.

Example 1

1 is a schematic diagram of a cartridge pop-up structure according to Example 1. As shown in FIG. 1 , an embodiment of the present disclosure provides a card tray ejecting structure, including a card slot 10 and a card tray 12 inserted in the card slot 10. The card tray pop-up structure further includes: an electromagnetic pop-up assembly 14 and an electromagnetic pop-up At least a portion of the assembly 14 abuts the card tray 12 to cause the card tray 12 to be ejected from the card slot 10 by the electromagnetic ejection assembly 14 when the electromagnetic ejection assembly 14 is energized.

Through the above structure, at least part of the electromagnetic pop-up assembly 14 abuts the card tray 12, and when the electromagnetic pop-up assembly 14 is triggered by the power-on, the card tray 12 is ejected from the card slot 10 under the push of the electromagnetic pop-up assembly 14, thereby solving the current use. The various problems caused by the mechanical removal of the built-in card from the outside of the terminal improve the convenience and safety of the card.

When the electromagnetic pop-up assembly 14 is triggered by the power-on, the tray 12 is ejected from the card slot 10 by the electromagnetic pop-up assembly 14, and the electromagnetic pop-up assembly 14 can generate a driving force when the power-on trigger is triggered, so that the tray 12 is electromagnetically popped. The component 14 is ejected from the card slot 10 under the push.

Embodiments of the present disclosure provide two structures to implement the functions of the electromagnetic ejection assembly 14.

First structure

2 is a schematic view (1) of a cartridge ejection structure according to Example 1. Referring to FIG. 2, in an exemplary implementation of the embodiment of the present disclosure, the electromagnetic ejection assembly 14 includes: a first electromagnet 142, and a first pushing portion 144 corresponding to the position of the first electromagnet 142, wherein the first At least part of the pushing portion 144 abuts the card tray 12, and the first pushing portion (144) is used for the first electromagnet (142) Push the card tray (12) out of the card slot (10) when triggered by power.

In an implementation manner, when the first electromagnet 142 is triggered by the energization, one end of the first pushing portion 144 may generate the same magnetic pole as the end of the first pushing portion 144 adjacent to the first electromagnet 142, so that the first pushing The portion 144 pushes the card tray 12 out of the card slot 10 by the same-sex repulsive force.

In an exemplary implementation of an embodiment of the present disclosure, the first pushing portion 144 includes: a first push rod 146 having magnetic properties, a first lever 148 abutting at least a portion of the first push rod 146, and a first lever 148 At least partially abutting the card tray 12, wherein when the first electromagnet 142 is energized, the first push rod 146 is pushed by the same-sex repulsive force, thereby pushing the first lever 148 to push the card holder (12) from the card slot 10. pop up.

In an exemplary implementation of the embodiment of the present disclosure, the electromagnetic ejection assembly 14 further includes: a component holder 150 for mounting on the main board 16, one end of the first push rod 146 protruding from an opening of the assembly bracket 150, The other end of the component holder 150 is fixedly provided with a first electromagnet 142. The main board here may be an integrated circuit board inside the terminal, and the first electromagnet 142 may be fixed inside the end of the component holder 150.

In an exemplary implementation of the embodiment of the present disclosure, the electromagnetic ejection assembly 14 further includes: a spring 152 sleeved on the first electromagnet 142, wherein one end of the spring 152 is fixedly connected to the component holder 150, and the other end is A push rod 146 is connected. Wherein, one end of the spring 152 can be fixedly disposed inside the component holder 150.

In an exemplary implementation of an embodiment of the present disclosure, the first lever 148 includes a short arm end 1480 and a long arm end 1482, at least a portion of the short arm end 1480 abutting the first push rod 146, and at least a long arm end 1482 Part of the connection with the Cato 12

Second structure

3 is a schematic view (2) of a cartridge ejection structure according to Example 1. Referring to FIG. 3, in another exemplary implementation of the embodiment of the present disclosure, the electromagnetic pop-up assembly 14 includes: a button 154 disposed on the terminal housing, the second electromagnet 156 abutting at least a portion of the button 154, and a second lever 158 coupled to the second electromagnet 156, the second pushing portion 160, wherein the button 154 applies a pushing force to the second lever 158, and the second lever 158 is pushed to drive the second pushing portion 160 to move the card tray 12 from the card. The slot 10 is ejected.

The second lever 158 and the second pushing portion 160 are not in the same horizontal position, and the second electromagnet 156 generates an electromagnetic force to act on the second lever 158 under the energization triggering, so that the second lever 158 and the second pushing portion 160 are located in the same On the horizontal surface, the second lever 158 pushes the second lever 158 to push the second pushing portion 160 to push the card tray 12 out of the card slot 10 under the action of the pushing force of the button 154. In an implementation manner, the second electromagnet 156 can generate an electromagnetic force to act on the second lever 158 under the energization triggering, and the second electromagnet 156 can generate an electromagnetic force that adsorbs the downward movement of the second lever 158.

In an exemplary implementation of an embodiment of the present disclosure, the second pushing portion 160 includes a pull rod 162 that abuts at least a portion of the second lever 158, a link 164 that abuts at least a portion of the pull rod 162, and a connecting rod At least a portion of the second push rod 166 abutting at least a portion of the second push rod 166 abuts against the card holder 12, wherein the second lever 158 drives the pull rod 162 to move, and the pull rod 162 drives the link 164 to move, thereby pushing the first The second push rod 166 pushes the card tray 12 out of the card slot 10. A return spring 168 is disposed between the second electromagnet 156 and the second lever 158.

In an exemplary implementation of the embodiment of the present disclosure, the card slot 10 further includes: a protrusion structure 100, the card tray 12 further includes a groove 120 corresponding to the protrusion structure 100, and the protrusion structure is stuck in the groove 120, To fix the card tray.

The embodiment of the present disclosure further provides a terminal, including the card tray pop-up structure involved in the above examples and exemplary implementation manners.

Example 2

In accordance with an embodiment of the present disclosure, there is also provided an embodiment of a cartridge ejection method, the steps illustrated in the flowchart of the accompanying drawings being executable in a computer system such as a set of computer executable instructions, and, although in a flowchart The logical order is shown, but in some cases the steps shown or described may be performed in an order different than that herein.

4 is a flowchart (1) of a card tray pop-up method according to Example 2 of the present disclosure, as shown in FIG. 4, including the following steps:

Step S302, the terminal receives a pop-up instruction, wherein the pop-up instruction is used to pop up the terminal built-in card. Cato, Cato is placed in the card slot of the terminal;

Step S304, the terminal ejects the card tray from the card slot by the force generated by the electromagnetic pop-up component disposed in the terminal under the trigger of the pop-up instruction.

Through the above steps, the terminal receives the pop-up instruction, wherein the pop-up instruction is used to eject the card tray of the terminal built-in card, and the card tray is disposed in the card slot of the terminal; the terminal generates the electromagnetic pop-up component disposed in the terminal by triggering the pop-up instruction. The driving force that pushes the Cato to pop out of the card slot. The utility model solves various problems caused by mechanically taking out the built-in card from the outside of the terminal by using the ejector pin, and improves the convenience and safety of the card taking.

In actual application, there may be a loss of the mobile phone, and the person who finds the mobile phone can easily take out the terminal built-in card (for example, SIM card/TF card) to know the sensitive private content inside, and in order to solve the above problem, the present disclosure The embodiment also provides the following solutions:

FIG. 5 is a flowchart (2) of a card tray ejecting method according to Example 2 of the present disclosure. As shown in FIG. 5, before step S304, step S306 may be further added: the terminal receives the input password, wherein when the input password is consistent with the preset password, the terminal is configured by the electromagnetic pop-up component disposed in the terminal. The force generated by the triggering of the pop-up command will eject the card tray from the card slot. That is, before the card tray pop-up operation is performed, the user is prompted to input a password, and only when the password is input correctly, can the user pop the card tray, and then The user's personal information is guaranteed not to be leaked.

The preset password can be set when the terminal receives the pop-up command for the first time, and can set the gesture password, digital password, voice password, fingerprint password, pupil password or facial recognition password.

Through the description of the above implementation manners, those skilled in the art can clearly understand that the method according to the foregoing embodiment can be implemented by means of software plus a necessary general hardware platform, and of course, can also be through hardware, but in many cases, the former is selected. to realise. Based on this understanding, the solution of the present disclosure may be embodied in the form of a software product stored in a storage medium (such as a ROM/RAM, a magnetic disk, an optical disk), and includes a plurality of instructions for making one The terminal device (which may be a cell phone, computer, server, or network device, etc.) performs the methods of various embodiments of the present disclosure.

In the embodiment of the present disclosure, a card ejector device is also provided, which is used to implement the foregoing method embodiments and exemplary implementation manners, and details are not described herein. As used below, The term "module" can implement a combination of software and/or hardware for a predetermined function. Although the devices described in the following embodiments may be implemented in software, hardware, or a combination of software and hardware, is also possible and contemplated.

6 is a structural block diagram (1) of a card tray ejecting apparatus according to Example 2 of the present disclosure, as shown in FIG. 6, including:

The first receiving module 50 is configured to receive a pop-up command, wherein the pop-up command is used to eject the card tray of the terminal built-in card, and the card tray is disposed in the card slot of the terminal;

The pop-up module 52 is configured to eject the card tray from the card slot by a force generated by the electromagnetic pop-up component disposed in the terminal under the trigger of the pop-up command.

Through the above device, the receiving module receives the pop-up command, wherein the pop-up command is used to pop up the card tray of the terminal built-in card, the card tray is set in the card slot of the terminal, and the push module triggers the pop-up instruction through the electromagnetic pop-up component disposed in the terminal. Under the driving force, the card tray is pushed out from the card slot. The utility model solves various problems caused by mechanically taking out the built-in card from the outside of the terminal by using the ejector pin, and improves the convenience and safety of the card taking.

7 is a structural block diagram (2) of a card tray ejecting apparatus according to Example 2 of the present disclosure. As shown in FIG. 7, in an exemplary implementation of the embodiment of the present disclosure, the apparatus further includes a second receiving module 54 configured In order to receive the input password, when the input password is consistent with the preset password, the terminal ejects the card tray from the card slot by the force generated by the electromagnetic pop-up component disposed in the terminal under the trigger of the pop-up instruction.

Example 3

In order to better understand the solution in the above embodiments, the present disclosure provides a design flow including a function definition module and an external system structure inside the mobile phone by using the mobile phone terminal and the built-in SIM card/TF card as an example. It mainly includes the following steps: in the [SIM card] option menu inside the mobile phone system, there is a [Eject SIM card/TF card] option, and the user clicks the [Eject SIM card/TF card] item to complete the SIM card/TF conveniently. The card is loaded and loaded, and the user can perform selective encryption operation on the [Eject SIM card/TF card] item to improve the security of private data information.

The automatic pop-up of the SIM card/TF card in the example 3 of the present disclosure is set by the external system structure (with The body structure is completed as shown in the exemplary implementations 2 and 3 below. When the system command [Eject SIM card/TF card] is received, the electromagnet is energized to provide power to eject the SIM card/TF card.

The solution provided by the embodiment of the present disclosure is to issue a command from the internal system of the mobile phone to complete the automatic pop-up of the SIM card/TF card, thereby avoiding the mechanical card-taking mode from the outside, facilitating the user operation, and greatly improving the security of the user data information. Sex, but also can improve the design flaws of existing mobile phones. Specific aspects regarding embodiments of the present disclosure are illustrated by the following exemplary implementations.

Exemplary implementation 1

FIG. 8 is a flowchart (1) of a mobile phone SIM card/TF card automatic pop-up method according to an exemplary implementation manner of the present disclosure. As shown in Figure 8, the method includes:

Step S702, setting a [Eject SIM card/TF card] option under the [SIM card] option menu of the mobile phone system;

Step S704, the user clicks the [Eject SIM card/TF card] item;

Step S706, the SIM card/TF card automatically pops up;

In step S708, the user performs a card loading operation.

The embodiment of the present disclosure is directed to the process of picking up a SIM card/TF card for many smart phones at present, and still requires the user to use the card pin to take out the card tray first, and then take the SIM card, the operation is very inconvenient, and the card pin is small. It is extremely easy to lose, which greatly limits the user's operation of taking SIM card/TF card when losing the card pin or no card pin, making the smart phone no longer smart. The embodiment of the present disclosure provides an automatic pop-up SIM card/TF card function in a smart phone system, thereby eliminating the user's inconvenience in the traditional card loading process, and greatly prompting the user experience and Smart phone smart, you can easily take out the SIM card / TF card with a finger or voice command.

In an exemplary implementation manner of the embodiment of the present disclosure, step S702 may perform an encryption operation by setting an [Eject SIM card/TF card] option, and the encryption operation may be directly set by the user in the system setting, or may be the first time in the user setting. When step S704 is performed, the encryption option is jumped out to perform encryption setting.

The flow of performing the encryption setting operation in step S704 will be described in detail below, but is not intended to limit the embodiments of the present disclosure.

9 is a mobile phone SIM card/TF card automatic pop-up method according to an exemplary implementation 1 of the present disclosure. Flow chart (2). The method includes:

Step S802, setting a [Eject SIM card/TF card] option under the [SIM card] option menu of the mobile phone system;

Step S804, the user first clicks the [Eject SIM card/TF card] item;

Step S806, popping up the [set password] option;

Step S808, the user sets a password for the [Eject SIM card/TF card] option;

Step S8010, the user clicks the [Eject SIM card/TF card] item;

In step S8012, the system verifies the password input by the user. If the password is correct, step S8014 is performed, and if the password is incorrect, step S8016 is performed;

In step S8014, the SIM card/TF card is automatically popped up, and the user performs a card loading operation;

In step S8016, the SIM card/TF card does not pop up.

In the embodiment of the present disclosure, the [Eject SIM card/TF card] item is encrypted, which greatly improves the security of the user data. Compared with the traditional mechanical card-picking operation, the user's mobile phone is lost, although the mobile phone system itself has Encryption, for non-professionals who want to crack the password of the mobile phone system, it is very difficult, but it is very convenient to take out the SIM card / TF card, the data stored by the user on the SIM card / TF card is very easy to lose, but for the intention to steal SIM Card/TF card people have no security for mechanical pick-and-place operations. For the embodiment of the present disclosure, the pop-up SIM card/TF card operation is controlled by the user system, and the [Eject SIM card/TF card] item can be encrypted, which is equivalent to having the encryption of the system itself and the pop-up SIM card/ The special encryption of the TF card item and the triple encryption operation of the SM card/TF card itself enhance the security of the user data, and greatly avoid the leakage of sensitive information in the mobile phone TF card/SIM card.

Exemplary implementation 2

In order to better understand the contents of the exemplary implementation 1 of the present disclosure, the transmission mode one will be described herein.

As shown in FIG. 2, the SIM card/TF card 170 is loaded into the corresponding card slot of the three-selection two card trays, and the card tray 12 with the SIM card/TF card is inserted into the card slot 10 of the main board 16, and the card slot is inserted. 10 sides have a convex The protruding structure 100 can be caught in the recess 120 reserved by the card tray 12 to fix the card tray 12, and the electromagnetic pop-up assembly 14 provides the pop-up power for the card tray 12.

FIG. 10 is a schematic structural view of an electromagnetic ejection assembly according to an exemplary implementation 2 of the present disclosure. As shown in FIG. 10, the electromagnetic ejection assembly 14 is mounted on the main board 16 via the assembly bracket 150. The first electromagnet 142 is fixed on the assembly bracket 150, and the spring 152 sleeved on the first electromagnet 142 is fixed at one end thereof. The other end of the bracket 150 is connected to the magnetic end 1460 of the first push rod 146, and the other end of the first push rod is a non-magnetic end 1462.

11 is a schematic structural view of a first push rod according to an exemplary implementation 2 of the present disclosure. As shown in FIG. 11, the magnetic poles on both sides of the magnetic end 1460 of the first push rod 146 are different, and one side facing the first electromagnet 142 is an N pole. FIG. 12 is a schematic structural view of a first electromagnet according to an exemplary implementation 2 of the present disclosure. As shown in FIG. 12, it can be determined that one side of the first electromagnet 142 facing the first push rod 146 is an N pole according to the current direction of the first electromagnet 142. As long as the magnetic electromagnet 142 and the magnetic opposite end of the first push rod 146 are ensured to be magnetically identical, both of them may be S poles. When the electromagnet is energized, the first electromagnet 142 and the first push rod 146 are repulsive.

FIG. 13 is a schematic structural diagram of a card tray being ejected according to an exemplary implementation 2 of the present disclosure. As shown in FIG. 13, when the system receives the user [Eject SIM card/TF card] command, the first electromagnet 142 is energized, and according to the principle of homosexual repelling, the first electromagnet 142 and the first push rod 146 magnetic end 1460 The generated repulsive force, together with the elastic force generated by the spring 152, pushes the first push rod 146 to move to the left as shown in FIG. 13, and the non-magnetic end 1462 of the first push rod 146 is moved from the point a to the left to the point b, and is pushed. The first lever 148 can be rotated. The first lever 148 is a labor-saving lever. The first lever 148 pushes the card tray 12 to move outward, and removes the outside of the housing for the user to replace the card.

Exemplary implementation 3

In order to better understand the solution in the exemplary implementation 1 of the present disclosure, the transmission mode 2 will be described herein with reference to the accompanying drawings. 14 is an enlarged side view (1) of a second lever and a second pushing portion according to an exemplary implementation 3 of the present disclosure.

As shown in Figures 3 and 14, the upper end of the button 154 can be fixed to the handset casing, and the lower end is a free end. The button 154 here can be a power source or a volume button or other function keys, and the button 154 can also be up and down. The ends are all free ends. The second electromagnet 156 is fixed on the main board 16, and the second lever 158 is sleeved on the shaft of the second electromagnet 156 and rotatable around the axis of the second electromagnet. The second lever 158 here is ferromagnetic. Material, a return spring 168 is mounted between the second lever 158 and the second electromagnet 156 for resetting the second lever 158. 3 and FIG. 14 show the initial position where the second electromagnet 156 is not energized in the present configuration. At this time, the second lever 158 and the second pushing portion 160 are offset from each other and are not in the same plane. If the button 154 is pressed at this time, the button 154 drives the second lever 158 to rotate about the axis of the second electromagnet 156, but the second lever 158 cannot act on the second pushing portion 160.

15 is a schematic structural view of a card tray being ejected according to an exemplary implementation 3 of the present disclosure, and FIG. 16 is an enlarged side view (2) of a second lever and a second pushing portion according to an exemplary implementation 3 of the present disclosure. As shown in FIGS. 15 and 16, the second pushing portion 160 includes a pull rod 162 that abuts at least a portion of the second lever 158, and a link 164 that abuts at least a portion of the pull rod 162 abuts at least a portion of the link 164. a second push rod 166, at least part of the second push rod 166 abuts the card holder 12, wherein the second lever 158 drives the pull rod 162 to move, and the pull rod 162 drives the link 164 to move, thereby pushing the second push rod The 166 pushes the card tray 12 to eject from the card slot 10.

If the second electromagnet 156 is energized, the electromagnetic force is generated to adsorb the second lever 158 to move downward, so that the second lever 158 and the pull rod 162 are on the same plane. If the lower end of the button 154 is pressed at this time, the user applies the button 154. The thrust pushes the second lever 158 to rotate about the second electromagnet axis, while the second lever 158 rotates, the pull rod 162 is moved to the right, and the pull rod 162 simultaneously drives the link 164 to rotate about the set axis, the link 164 The lever arm drives the second push rod 166 to push the card tray 12 to the right, and takes out the SIM card/TF card to complete the card taking action. When the button 154 is released, the second electromagnet 156 is powered off, and the second lever 158 is returned to the initial position by the return spring 168 for the next loading and unloading action.

As shown in FIG. 15, the system issues a command, the second electromagnet 156 is energized, and the second lever 158 is in the same plane as the pull rod 162. The user presses the button 154 to push the second lever 158 to rotate, and the rod 162 is moved from the point A to the point. At point B, the tie rod 162 acts on the link 164 at the same time, so that the link 164 moves from the point C to the point D, and the second push rod 166 moves from the point E to the point F under the action of the link 164, pushing the tray 12 to make it When the button is released, the second lever 158 is reset by the return spring 168 for the next loading and unloading action.

Two transmission modes are provided in the example 3 of the disclosure: the transmission mode one, the phase provided by the electromagnet itself The magnetic force is used as the power to launch the SIM card/TF card; the transmission mode 2, the electromagnet is energized, the electromagnetic force acts as the transmission power on the transmission rod, and the transmission rod is used to connect the first button and the card seat, and the first button is pressed by the user. Provide power pop-up SIM card / TF card. The first button here may be a power button, a volume adjustment button, a home button, and the like.

Compared with the scheme one, the scheme II is relatively complicated, but the power of the card is provided by the user pressing the power button. The electromagnetic force is only used as the transmission force, and the force flexibility is large, which can be compared with the motor or the electromagnet. Big thrust.

In order to better understand the solution in the above embodiment, in combination with the design of the function definition module and the external system structure inside the mobile phone in the above exemplary implementation manner, the following mobile phone SIM card/TF card automatic pop-up method is provided.

17 is a flowchart (1) of a method for automatically popping a SIM card/TF card of a mobile phone according to Example 3 of the present disclosure. As shown in FIG. 17, the method includes:

Step S1602, setting the [Eject SIM card/TF card] option under the [SIM card] option menu of the mobile phone system;

Step S1604, the user clicks the [Eject SIM card/TF card] item, and the system issues a command to pop up the SIM card/TF card;

Step S1606, the first electromagnet or the second electromagnet is energized;

In step S1608, the SIM card/TF card automatically pops up, and the user performs a card loading operation.

18 is a flowchart (2) of a method for automatically popping a SIM card/TF card of a mobile phone according to Example 3 of the present disclosure. As shown in FIG. 18, the method includes:

Step S1702, setting the [Eject SIM card/TF card] option under the [SIM card] option menu of the mobile phone system;

Step S1704, the user first clicks the [Eject SIM card/TF card] item;

Step S1706, popping up the [set password] option;

Step S1708, the user sets a password for the [Eject SIM card/TF card] option;

Step S1710, the user clicks the [Eject SIM card/TF card] item;

In step S1712, the system verifies the password input by the user, and if the password is correct, the step is executed. Step S1714, if the password is wrong, step S1716 is performed;

In step S1714, the first electromagnet or the second electromagnet is energized, and the SIM card/TF card is automatically ejected, and the user performs a card loading operation;

In step S1716, the first electromagnet or the second electromagnet is not energized, and the SIM card/TF card does not pop out.

Example 4

Embodiments of the present disclosure also provide a storage medium. In the embodiment of the present disclosure, the foregoing storage medium may be used to save the program code executed by the card tray pop-up method provided in the above example 1.

In the embodiment of the present disclosure, the foregoing storage medium may be located in any one of the computer terminal groups in the computer network, or in any one of the mobile terminal groups.

In an embodiment of the present disclosure, the storage medium may be configured to store program code for performing the following steps:

S1, the terminal receives the pop-up instruction, wherein the pop-up instruction is used to eject the card tray of the built-in card of the terminal, and the card tray is disposed in the card slot of the terminal;

S2. The terminal pushes the card tray to eject from the card slot by the driving force generated by the electromagnetic pop-up component disposed in the terminal under the trigger of the pop-up instruction.

The above-described examples of the present disclosure are merely for the purpose of description and do not represent the advantages and disadvantages of the examples.

In the above-mentioned embodiments of the present disclosure, the descriptions of the various embodiments are all focused, and the parts that are not detailed in a certain embodiment can be referred to the related descriptions of other embodiments.

Those of ordinary skill in the art will appreciate that all or some of the steps, systems, and functional blocks/units of the methods disclosed above may be implemented as software, firmware, hardware, and suitable combinations thereof. In a hardware implementation, the division between functional modules/units mentioned in the above description does not necessarily correspond to the division of physical components; for example, one physical component may have multiple functions, or one function or step may be composed of several physical The components work together. Some or all of the components may be implemented as software executed by a processor, such as a digital signal processor or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit. Such software may be distributed on a computer readable medium, which may comprise a computer storage medium (or non-transitory Physical medium) and communication medium (or temporary medium). As is well known to those of ordinary skill in the art, the term computer storage medium includes volatile and nonvolatile, implemented in any method or technology for storing information, such as computer readable instructions, data structures, program modules or other data. Sex, removable and non-removable media. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital versatile disc (DVD) or other optical disc storage, magnetic cartridge, magnetic tape, magnetic disk storage or other magnetic storage device, or may Any other medium used to store the desired information and that can be accessed by the computer. Moreover, it is well known to those skilled in the art that communication media typically includes computer readable instructions, data structures, program modules, or other data in a modulated data signal, such as a carrier wave or other transport mechanism, and can include any information delivery media. .

The above description is only exemplary embodiments of the present disclosure, and is not intended to limit the disclosure, and various changes and modifications may be made to the present disclosure. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and scope of the present disclosure are intended to be included within the scope of the present disclosure.

Industrial applicability

Through the present disclosure, at least part of the electromagnetic ejection assembly (14) abuts the card holder (12), and when the electromagnetic ejection assembly (14) is energized, the card holder (12) is pushed by the electromagnetic ejection assembly (14). The card slot (10) is ejected, which solves various problems caused by mechanically taking out the built-in card from the outside of the terminal, and improves the convenience and security of the card. The present disclosure therefore has industrial applicability.

Claims (17)

1. A card tray ejecting structure includes a card slot (10) and a card tray (12) inserted in the card slot (10), wherein the tray pop-up structure further comprises: an electromagnetic pop-up assembly (14), At least a portion of the electromagnetic ejection assembly (14) abuts the card holder (12) to cause the card holder (12) to be in the electromagnetic ejection assembly when the electromagnetic ejection assembly (14) is energized. (14) is ejected from the card slot (10).
2. The cartridge ejection structure of claim 1 wherein said electromagnetic ejection assembly (14) comprises:

   a first electromagnet (142), a first pushing portion (144) disposed corresponding to the position of the first electromagnet (142), wherein at least a portion of the first pushing portion (144) and the card holder ( 12) Abutting, the first pushing portion (144) is configured to push the card holder (12) to be ejected from the card slot (10) when the first electromagnet (142) is triggered by power.
3. The cartridge ejecting structure according to claim 2, wherein when the first electromagnet (142) is triggered by energization, an end adjacent to the first pushing portion (144) is generated with the first pushing portion (144). a magnetic pole close to one end of the first electromagnet (142) such that the first pushing portion (144) pushes the card holder (12) from the card slot under the action of the same repulsive force (10) )pop up.
4. The cartridge ejection structure of claim 3, wherein the first pushing portion (144) comprises:

   a first push rod (146) having a magnetic force, a first lever (148) abutting at least a portion of the first push rod (146), at least a portion of the first lever (148) and the cap (12) abutting, wherein when the first electromagnet (142) is triggered by energization, the first push rod (146) is pushed by the same-sex repulsive force, thereby pushing the first lever (148) to push the The card tray (12) is ejected from the card slot (10).
5. The cartridge ejection structure of claim 4, wherein the electromagnetic ejection assembly (14) further comprises:

   a component holder (150) for mounting on a main board (16), one end of the first push rod (146) projecting from an opening of the assembly bracket (150), the assembly bracket (150) The other end is fixedly provided with the first electromagnet (142).
6. The cartridge ejection structure of claim 5, wherein the electromagnetic ejection assembly (14) further comprises:

   a spring (152) sleeved on the first electromagnet (142), wherein one end of the spring (152) is fixedly connected to the component bracket (150), and the other end is connected to the first push rod ( 146) Connection.
7. The cartridge ejection structure of claim 4 wherein said first lever (148) includes a short arm end (1480) and a long arm end (1482), at least a portion of said short arm end (1480) The first push rod (146) abuts, and at least a portion of the long arm end (1482) abuts the card holder (12).
8. The cartridge ejection structure of claim 1 wherein said electromagnetic ejection assembly (14) comprises:

   a button (154) disposed on the terminal housing, a second electromagnet (156), a second lever abutting at least a portion of the button (154) and axially coupled to the second electromagnet (156) (158) a second pushing portion (160), wherein the button (154) applies a pushing force to the second lever (158), and pushes the second lever (158) to drive the second pushing portion (160) The card tray (12) is ejected from the card slot (10).
9. The cartridge ejecting structure according to claim 8, wherein the second lever (158) is not at the same level as the initial position of the second pushing portion (160), and the second electromagnet (156) is The electromagnetic force generates an electromagnetic force acting on the second lever (158), and the second lever (158) is located on the same level as the second pushing portion (160).
10. The cartridge ejecting structure according to claim 8, wherein the second pushing portion (160) comprises: a tie rod (162) abutting at least a portion of the second lever (158), and the tie rod ( The at least partially abutting link (164) of 162) is at least partially offset from the link (164) a second push rod (166), at least part of the second push rod (166) abutting the card holder (12), wherein the second lever (158) drives the pull rod (162) Movement, the pull rod (162) drives the connecting rod (164) to move, thereby pushing the second push rod (166) to push the card holder (12) to eject from the card slot (10).
11. The cartridge ejection structure of claim 8, wherein the cartridge ejection structure further comprises: a return spring (168) disposed between the second electromagnet (156) and the second lever (158) ).
12. The card tray ejection structure according to any one of claims 1 to 11, wherein the card slot (10) further comprises: a protrusion structure (100), the card holder (12) further comprising the protrusion structure ( 100) In the corresponding groove (120), the protruding structure is caught in the groove (120) to fix the card holder (12).
13. A terminal comprising the card tray pop-up structure of any one of claims 1-12.
14. A card tray pop-up method, including:

    The terminal receives the pop-up command, wherein the pop-up command is used to eject the card tray of the terminal built-in card, and the card tray is disposed in the card slot of the terminal (S302);

    The terminal ejects the card tray from the card slot by a force generated by the electromagnetic pop-up component disposed in the terminal under the trigger of the pop-up command (S304).
15. The method according to claim 14, wherein the terminal ejects the card tray from the card slot by a force generated by an electromagnetic pop-up component disposed in the terminal under the trigger of the pop-up instruction (S304), the method further includes:

    Receiving, by the terminal, an input password, wherein, when the input password is consistent with a preset password, the terminal generates a force generated by the electromagnetic pop-up component disposed in the terminal under the trigger of the pop-up instruction, The card tray is ejected from the card slot (S306).
16. A card tray ejecting device, wherein the application is applied to a terminal, including:

    a first receiving module (50) configured to receive a pop-up instruction, wherein the pop-up instruction is used The card tray of the terminal built-in card is ejected, and the card tray is disposed in the card slot of the terminal;

    The pop-up module (52) is configured to eject the card tray from the card slot by a force generated by the electromagnetic pop-up assembly disposed in the terminal under the trigger of the pop-up command.
17. The apparatus of claim 16 wherein said apparatus further comprises:

    The second receiving module (54) is configured to receive the input password, wherein when the input password is consistent with the preset password, the terminal triggers the pop-up instruction by using an electromagnetic pop-up component disposed in the terminal The force generated is to eject the card tray from the card slot.

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