CN110611186A - Mobile terminal and card support device thereof - Google Patents

Abstract

The invention provides a card support device, which comprises a first card support frame and a second card support frame for bearing an electronic card, wherein the card support device comprises a laminated state and an unfolded state, when the card support device is in the laminated state, the first card support frame is laminated on the second card support frame, when the card support device is in the unfolded state, the first card support frame and the second card support frame are horizontally spread, and the first card support frame is positioned at the front end of the second card support frame. The invention also provides a mobile terminal. The card support device provided by the invention is suitable for assembling a plurality of electronic cards, and can realize the lamination state and the expansion state of the card support device, so that the use state of the card support device can be adjusted according to the design of the installation space in the mobile terminal, and the utilization rate of the internal space of the mobile terminal is optimized.

Description

Mobile terminal and card support device thereof

Technical Field

The invention relates to the technical field of electronic equipment, in particular to a mobile terminal and a card holder device thereof.

Background

With the continuous development of science and technology, electronic equipment as an important device has become a vital part in the life of people. Taking electronic equipment as an example of a mobile phone, the mobile phone in the market is developing towards diversification and lightness, so the limitation of the placement position of the SIM card is more and more strict, and at present, most of thinner mobile phones adopt a card holder to load the SIM card, and the card holder is installed on the side surface of the mobile phone.

Chinese patent document No. 201610109614.2 discloses a digital card fixing device, and the assembly positions of two cards are set perpendicularly to overlap each other, so that a Nano SIM card and a Micro SD card can be compatible without increasing layout space, but only one of them can be selected for assembly in the actual use process, and the number of digital cards is limited, which cannot meet the flexibility requirement of users. In order to meet the requirements of different users, not only the dual-card dual-standby mode is used, but also the memory needs to be expanded, the number of electronic cards to be accommodated by the mobile phone needs to be adjusted, for example, the mobile phone card holder includes dual SIM cards or a single SIM card plus a memory card (Micro SD/TF card) or the types of the dual SIM cards plus the memory card. The stacking mode of the mobile phone card holder and the structure of the mobile phone card holder have higher requirements, and the smaller the overall dimension of the mobile phone card holder is, the more diversified the functions are, the more the market needs are met.

Generally, in the market, electronic cards are placed in a single-layer mode aiming at a multi-card support device, three cards can be used at the same time, and the card support is too long, so that the internal space of a mobile phone is seriously occupied. In the prior art, a card support device capable of accommodating multiple cards generally adopts an integrated double-sided card support, namely two electronic cards are respectively assembled in card support frames on the front side and the back side, so that the length direction of the card support is shortened, but the electronic cards are not firmly fixed, the risk of card falling is caused, the card support device is not beneficial to matching various irregular cards in actual use of a user, the folding function is not provided, and the product versatility is reduced.

Another foldable multi-card holder device in the prior art generally adopts a hinge mode at a door panel to realize rotation and folding of an upper card holder frame and a lower card holder frame, but the maximum rotation angle of the upper card holder frame and the lower card holder frame at the door panel for unfolding is not more than 90 degrees, so that the card holder device cannot be inserted into a card holder in the unfolding state (the upper card holder frame and the lower card holder frame are 90 degrees), and therefore the foldable multi-card holder device can only be used in the stacking state, and the structural strength is poor, thereby easily causing the risk of product fracture. When the upper and lower card support frames are in a stacked state, the electronic cards positioned at the upper and lower positions cannot be mutually limited, and the cards may fall off. The number and types of cards can be contained, and most of the cards can only be assembled with two cards, and the types of the cards are single.

Disclosure of Invention

The invention aims to provide a card support device and a mobile terminal with the same, wherein the card support device is suitable for assembling a plurality of electronic cards and can realize the stacking state and the unfolding state of the card support device, so that the use state of the card support device can be adjusted according to the design of an installation space in the mobile terminal, and the utilization rate of the internal space of the mobile terminal is optimized.

The invention provides a card support device, which comprises a first card support frame and a second card support frame for bearing an electronic card, wherein the card support device comprises a laminated state and an unfolded state, when the card support device is in the laminated state, the first card support frame is laminated on the second card support frame, when the card support device is in the unfolded state, the first card support frame and the second card support frame are horizontally laid, and the first card support frame is positioned at the front end of the second card support frame.

Further, when in the unfolded state, the first card support frame and the second card support frame are located on the same plane.

Further, the first card support frame and the second card support frame are rotatably connected through a rotating structure, and the first card support frame can be turned and folded relative to the second card support frame.

Further, revolution mechanic includes first pivot, second pivot and a plurality of rotation connecting block, and every rotation connecting block includes first connecting portion and second connecting portion, first connecting portion with first card holds in the palm the frame and is equipped with the confession first shaft hole that first pivot passed, second connecting portion with second card holds in the palm the frame and is equipped with the confession the second shaft hole that the second pivot passed.

Further, the first card holds in the palm the frame with the second card holds in the palm the frame and is equipped with a plurality of first grooves of dodging and a plurality of second grooves of dodging respectively, and every first connecting portion set up in a corresponding first groove of dodging, and every second connecting portion set up in a corresponding second groove of dodging.

Furthermore, each rotary connecting block is of an integral structure, one side of the first connecting portion is connected with one side of the second connecting portion, and the axis of the first shaft hole of the first connecting portion is parallel to the axis of the second shaft hole of the second connecting portion.

Furthermore, the number of the rotary connecting blocks is two, and the rotary connecting points between the first card support frame and the second card support frame are symmetrically arranged.

Further, the second card holds in the palm the frame and has relative front end edge and the rear end edge that sets up, the card holds in the palm the device and still includes the card and holds in the palm the door plant, the rear end edge with the card holds in the palm the door plant and is connected, first card holds in the palm the frame and rotationally connects in on the front end edge.

Furthermore, the second card support frame has two opposite sides, and the first card support frame is rotatably connected to one of the two sides.

Further, the first card support frame is connected with the second card support frame in a sliding mode, and the first card support frame can slide in a horizontal plane relative to the second card support frame.

Furthermore, two parallel sliding grooves are formed in each opposite side edge of the first card support frame, sliding rails are arranged on two opposite sides of the second card support frame, the sliding rails are contained in the sliding grooves, and the first card support frame slides relative to the second card support frame through the sliding rails and the sliding grooves.

Further, the first card support frame is connected with the second card support frame in a horizontal rotating mode, and the first card support frame can rotate relative to the second card support frame in a horizontal plane.

Furthermore, a connecting shaft is fixedly arranged at the midpoint of one side edge of the second clamping support frame, a shaft sleeve is fixedly arranged at one end of the first clamping support frame, the shaft sleeve is sleeved on the connecting shaft, and the first clamping support frame can horizontally rotate around the axis of the connecting shaft through the shaft sleeve.

Furthermore, the connecting shaft is perpendicular to the second clamping support frame, and the shaft sleeve can move up and down along the axial direction of the connecting shaft.

Furthermore, the first card support frame and the second card support frame are respectively provided with at least one accommodating groove for accommodating the electronic card, and the bottom of the inner wall of the accommodating groove is provided with a bearing part for bearing the electronic card.

Furthermore, each accommodating groove is used for accommodating one electronic card of a subscriber identity module SIM card, a micro subscriber identity module Mirco-SIM card, a Nano subscriber identity module Nano-SIM card or a mobile phone memory card.

Furthermore, the first card support frame and the second card support frame are respectively provided with one accommodating groove, or the first card support frame is provided with one accommodating groove, and the second card support frame is provided with two accommodating grooves.

A card support device comprises a first card support frame and a second card support frame which are used for bearing a storage card and/or an electronic card, wherein the card support device comprises a retraction state and an expansion state; when in the unfolded state, the first card support frame is used for accommodating the storage card and/or the electronic card.

Further, the first card support frame is connected with the second card support frame in a sliding mode, the first card support frame can slide in a horizontal plane relative to the second card support frame, and when the first card support frame is in the retracted state, the first card support frame is integrally accommodated in the second card support frame.

Furthermore, two parallel sliding grooves are formed in each opposite side edge of the first card support frame, sliding rails are arranged on two opposite sides of the second card support frame, the sliding rails are contained in the sliding grooves, and the first card support frame slides relative to the second card support frame through the sliding rails and the sliding grooves.

Furthermore, the first card support frame is provided with an elastic component, when the first card support frame is in an expansion state, the elastic component of the first card support frame is stretched, and when the first card support frame is in a retraction state, the elastic component of the first card support frame is compressed, so that the first card support frame is retracted beside the second card support frame.

Furthermore, the second card support frame is provided with a memory card slot for accommodating the memory card and an electronic card slot for accommodating the electronic card, the memory card slot and the electronic card slot are provided with partially overlapped card slot areas, and an included angle is formed between the length direction of the memory card slot and the length direction of the electronic card slot.

A card support device comprises a first card support frame and a second card support frame which are used for bearing a storage card and/or an electronic card, wherein the first card support frame is connected with the second card support frame through a movable mechanism, and the first card support frame can move relative to the second card support frame so as to adjust the using state of the first card support frame.

Furthermore, the movable mechanism is one or more of a turnover mechanism, a horizontal rotating mechanism, a sliding mechanism and a telescopic mechanism.

Further, the first card support frame and/or the second card support frame are provided with a memory card slot for accommodating the memory card and an electronic card slot for accommodating the electronic card, the memory card slot and the electronic card slot have partially overlapped card slot areas, and an included angle is formed between the length direction of the memory card slot and the length direction of the electronic card slot.

Further, the included angle is less than or equal to 90 °.

The invention also provides a mobile terminal which comprises a terminal shell and the card support device, wherein the card support device is assembled in the terminal shell.

The card support device provided by the invention is suitable for assembling a plurality of electronic cards, and the first card support frame and the second card support frame for bearing the electronic cards are arranged, and the first card support frame and the second card support frame can realize the stacking state and the unfolding state of the card support device, so that the using state of the card support device can be adjusted according to the design of the installation space in the mobile terminal, and the utilization rate of the internal space of the mobile terminal is optimized.

Drawings

Fig. 1 is a schematic diagram of a disassembled structure of a card holder device according to an embodiment of the present invention;

fig. 2a to 2c are schematic views of orientation structures of a card holder device in an expanded state according to an embodiment of the invention;

fig. 3a to 3d are schematic views of orientation structures of a stacked state of a pallet device according to an embodiment of the invention;

fig. 4a to 4c are schematic structural views of a card holder device according to a second embodiment of the present invention;

fig. 5a to 5b are schematic structural views of a card holder device according to a third embodiment of the present invention;

fig. 6a to 6c are schematic views of orientation structures of a laminated structure of a pallet device according to a fourth embodiment of the present invention;

fig. 7a to 7c are schematic views of orientation structures of the card-holding device in the expanded state according to the fourth embodiment of the present invention;

FIGS. 8a to 8c are schematic side views of a fifth embodiment of a card holder device according to the present invention;

fig. 9a to 9b are schematic structural views of a card-holding device in the sixth embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

The card holder device provided by the embodiment of the invention is applied to a mobile terminal, optionally, the mobile terminal can be one of a mobile phone, a personal data assistant, a tablet computer, a laptop computer, a vehicle and the like, and the embodiment takes the mobile phone as an example, but is not limited thereto. Specifically, referring to fig. 1 to 3d, the card support device includes a first card support frame 1 and a second card support frame 2 for supporting an electronic card 10, the first card support frame 1 and the second card support frame 2 are rotatably connected by a rotating structure 3, and the first card support frame 1 can be turned and folded relative to the second card support frame 2.

Specifically, the rotating structure 3 includes a first rotating shaft 31, a second rotating shaft 32, and a plurality of rotating connecting blocks 33. In the present embodiment, the number of the rotation connecting blocks 33 is two, and the rotation connecting points between the first card-holding frame 1 and the second card-holding frame 2 are symmetrically arranged. Each of the rotary connecting blocks 33 includes a first connecting portion 331 and a second connecting portion 332, the first connecting portion 331 and the first card holder frame 1 are provided with a first shaft hole 333 for the first rotating shaft 31 to pass through, the first connecting portion 331 and the first card holder frame 1 are connected through the first rotating shaft 31, the second connecting portion 332 and the second card holder frame 2 are provided with a second shaft hole 334 for the second rotating shaft 32 to pass through, and the second connecting portion 332 and the second card holder frame 2 are connected through the second rotating shaft 32.

Further, the first card holds in the palm frame 1 and holds in the palm the frame 2 with the second card and is equipped with a plurality of first grooves 34 and a plurality of second grooves 35 of dodging respectively to the first groove 34 and the second groove 35 of dodging are the same with the quantity of rotation connecting block 33. Preferably, the first and second avoiding grooves 34 and 35 are respectively disposed at edges of a pair of sides of the first and second card-holding frames 1 and 2, which are close to each other, but not limited thereto. Each of the first connecting portions 331 is disposed in a corresponding one of the first escape grooves 34, and each of the second connecting portions 332 is disposed in a corresponding one of the second escape grooves 35. In the present embodiment, each of the rotary connection blocks 33 is an integral structure, one side of the first connection portion 331 is connected to one side of the second connection portion 332, the first connection portion 331 and the second connection portion 332 are axially symmetrically disposed, and the axes of the first shaft hole 333 of the first connection portion 331 and the second shaft hole 334 of the second connection portion 332 are parallel to each other.

The card holds in the palm the device and includes the lamination state and opens up the state, when being in the lamination state, as shown in fig. 3a to 3d, first card holds in the palm frame 1 and superposes on second card holds in the palm frame 2 and both are parallel from top to bottom, and first card holds in the palm frame 1 and rotates and superposes to second card and holds in the palm frame 2 top through rotating-structure 3, and both are range upon each other and laminate. It can be understood that, since the rotating structure 3 includes the first rotating shaft 31, the second rotating shaft 32 and the plurality of rotating bushings 33, the first card-holding frame 1 can also be rotated and stacked below the second card-holding frame 2 by the rotating structure 3. When the mobile phone is used in a stacked state, the area occupied by the plug-in card is reduced, and the internal space of the mobile phone is improved. When the card holder is in the unfolded state, as shown in fig. 2a to fig. 2c, the first card holder frame 1 rotates through the rotating structure 3 and is horizontally laid with the second card holder frame 2, and the first card holder frame 1 is located at the front end of the second card holder frame 2, at this time, the first card holder frame 1 and the second card holder frame 2 are located on the same plane, that is, are arranged in a coplanar manner. The front end of the second card holder frame 2 is an insertion end at which the second card holder frame 2 is attached.

In the present embodiment, the types of the electronic cards 10 placed in the containing slot 4 may be the same or different. The shapes and sizes of the receiving grooves 4 in the first card-holding frame 1 and the second card-holding frame 2 are determined by the shapes and sizes of the electronic cards 10, and the shapes and sizes of the receiving grooves 4 are matched with the shapes and sizes of the electronic cards 10.

Specifically, the electronic card 10 may be one of a subscriber identity module SIM card, a micro subscriber identity module Mirco-SIM card, a Nano subscriber identity module Nano-SIM card, or a mobile phone memory card.

The first card support frame 1 and the second card support frame 2 are respectively provided with at least one accommodating groove 4, the number of the accommodating grooves 4 can be set according to the needs of users, the shape and the size of the accommodating groove 4 for accommodating the electronic card 10 are set according to the actual situation, that is, the SIM cards (which can be the SIM cards with the same size or different sizes) can be selected to be simultaneously arranged, or the SIM cards and the memory cards can be arranged. In this embodiment, the card support device is provided with two accommodating grooves 4 respectively located in the first card support frame 1 and the second card support frame 2.

In the present embodiment, a supporting portion 41 for supporting the electronic card 10 is disposed at the bottom of the inner wall of each accommodating slot 4. Specifically, the bearing portion 41 is formed by horizontally extending from the bottom of the inner wall of the accommodating groove 4 to the inside of the accommodating groove 4, and has a narrow-edge structure. The thickness of the bearing part 41 is less than 0.3mm, when the electronic card 10 is placed in the containing groove 4, the upper surface of the electronic card 10 can be basically flush with the surface of the card support frame, and the design principle of the thickness is that the thickness is as small as possible on the premise of meeting the structural strength of the bearing part 41, so that the thickness and the volume of the whole card support device are reduced. The width of the supporting portion 41 should be less than 0.8mm to expose the metal contact of each electronic card 10, so as to prevent the metal fingers of the corresponding card seat (not shown) of the electronic card 10 from being contacted. The bearing portions 41 are disposed at the bottom ends of the inner walls of the two opposite long sides of the accommodating slot 4, and it can be understood that the bearing portions 41 may also be disposed at the bottom ends of the inner walls of the two opposite short sides of the accommodating slot 4.

As shown in fig. 3a to 3d, in the stacked state, the first card support frame 1 is stacked on the second card support frame 2 through the rotating structure 3, the electronic card 10 loaded in the accommodating slot 4 is clamped between the first card support frame 1 and the second card support frame 2 stacked mutually, and the bearing portion 41 at the bottom of the inner wall of the accommodating slot 4 limits the electronic card 10, so as to fix the electronic card 10 well and prevent the electronic card 10 from falling off. For example, when the first card support frame 1 is located above the second card support frame 2 is located below the first card support frame 1, the non-effective areas of the electronic cards 10 may directly contact each other, and correspondingly, the electronic card 10 mounted in the receiving slot 4 of the first card support frame 1 and the metal contact of the electronic card 10 mounted in the receiving slot 4 of the second card support frame 2 are located at a side away from the other side, so as to be electrically connected to the gold fingers located at the upper and lower sides of the card seat inside the mobile phone, so as to implement the communication function of the electronic card 10, and meanwhile, the two electronic cards 10 are clamped between the bearing portion 41 of the first card support frame 1 and the bearing portion 41 of the second card support frame 2, so as to implement good fixation of the two electronic cards 10.

As shown in fig. 2a to 2c, in the unfolded state, the first card-holding frame 1 is turned over by the rotating structure 3 to be located on the same plane as the second card-holding frame 2, and the bearing portion 41 is located at the bottom of the electronic card 10 for bearing the electronic card 10, so as to achieve good fixing of the electronic card 10. When the electronic card 10 is located on the same plane, the metal contacts of the electronic card 10 can be electrically connected with the gold fingers on the lower side of the card seat, so as to realize the communication function of the electronic card 10.

Optionally, the material of the card holder 1 and the rotating structure 3 may be a metal material, and certainly, may also be a non-metal material, as long as the hardness thereof meets the actual requirement. For example, the material may be an aluminum alloy material, a zinc alloy material, or a cemented carbide. Here, the material of the two components may be specifically set according to actual needs, and the embodiment of the present invention is not further limited.

Further, the second card-holding frame 2 includes a front end edge 21, and the first card-holding frame 1 is rotatably connected to the front end edge 21. The second card holds in palm frame 2 still includes rear end edge 23, and the card holds in the palm the device and still includes card and holds in the palm door plant 5, and rear end edge 23 holds in the palm door plant 5 with the card and is connected, and rear end edge 23 sets up with preceding end edge 21 relatively. In the present embodiment, the first card-holding frame 1 is rotatably connected to the front end edge 21, i.e. the first card-holding frame 1 is disposed in a direction away from the card-holding door panel 5.

According to the card support device provided by the invention, the first card support frame 1 and the second card support frame 2 for bearing the electronic card 10 are arranged, and the first card support frame 1 and the second card support frame 2 are rotatably connected through the rotating structure 3, so that the stacking state and the unfolding state of the card support device can be realized, the use state of the card support device can be adjusted according to the design of the installation space in the mobile terminal, and the utilization rate of the internal space of the mobile terminal is optimized. When the card support frame is in a laminated state, the first card support frame 1 can be completely folded on the second card support frame 2, namely the first card support frame 1 and the second card support frame 2 are mutually attached and parallel, and an included angle is not formed between the first card support frame 1 and the second card support frame 2; when in the unfolded state, the first card-holding frame 1 and the second card-holding frame 2 are located on the same plane. The card is used in a stacked state, so that the occupied area of the card is reduced, and the internal space of the mobile terminal is improved.

The invention further provides a mobile terminal, which comprises a terminal shell (not shown) and the card support device, wherein the card support device is assembled in the terminal shell. Specifically, a side wall of the terminal housing is generally provided with a jack, and the card support device can extend into the terminal housing along the jack and form a clamping connection with the terminal housing. A card seat matched with the card support device is arranged in the jack, and when the card support device is assembled in the terminal shell, the golden finger on the card seat is connected with the metal contact of each electronic card 10 on the card support device so as to realize the function of each electronic card 10.

Example two

This embodiment is the same as the embodiment, and the description of the same parts is omitted here, and the differences include: as shown in fig. 4a to 4c, the number of the receiving slots 4 may be three, that is, three electronic cards 10 can be assembled. Specifically, the number of the accommodating grooves 4 in the first card support frame 1 is one, the number of the accommodating grooves 4 in the second card support frame 2 is two, the second card support frame 2 is arranged close to the card support door plate 5, and the first card support frame 1 is far away from the card support door plate 5 and is located at the front end of the second card support frame 2.

Taking the case that one accommodating groove 4 is located in the first card support frame 1, and two accommodating grooves 4 are located in the second card support frame 2, the length of the second card support frame 2 is twice that of the first card support frame 1, the two accommodating grooves 4 on the second card support frame 2 are respectively arranged in sequence along the length direction (pushing direction) of the card support device, the accommodating groove 4 on the first card support frame 1 is located at the front end of the second card support frame 2, and thus the three accommodating grooves 4 are arranged in a straight line. First card holds in palm frame 1 and second card and holds in the palm frame 2 and equal in the width direction, and first card holds in the palm frame 1 and second card and holds in the palm the side of frame 2 length direction and parallel and level mutually. Compared with the first embodiment, the length of the card holder device of the present embodiment is increased by the length of one receiving slot 4, and the width and thickness do not need to be changed, thereby increasing the number of electronic cards 10. When the first card support frame 1 is folded on the second card support frame 2, the first card support frame and one accommodating groove 4 of the second card support frame 2 are mutually overlapped for limiting, so that the electronic cards 10 in the two mutually overlapped accommodating grooves 4 can be prevented from falling off. Fig. 4a illustrates the first card-holding frame 1 and the second card-holding frame 2 in the unfolded state, and the two frames are located on the same plane; the dotted line structures in fig. 4b and fig. 4c illustrate a state where the first card-holding frame 1 is folded with respect to the second card-holding frame 2, and at this time, the first card-holding frame 1 is stacked on one of the accommodating grooves 4 of the second card-holding frame 2.

Preferably, the groove wall of the accommodating groove 4 may further protrude toward the accommodating groove 4 to form a plurality of limiting fixture blocks (not shown), and when the electronic card 10 is placed in the accommodating groove 4, the limiting fixture blocks may limit the electronic card 10, so as to prevent the electronic card 10 from falling off due to displacement.

EXAMPLE III

This embodiment is the same as the embodiment, and the description of the same parts is omitted here, and the differences include: as shown in fig. 5a and 5b, the second card-holding frame 2 further includes two side edges 22, the two side edges 22 are connected between the front end edge 21 and the rear end edge 23, the first card-holding frame 1 is rotatably connected to any one side edge 22 of the second card-holding frame 2, that is, the first card-holding frame 1 is rotatably connected to one side of the second card-holding frame 2. Wherein fig. 5a illustrates that the first card-holding frame 1 is rotatably connected to the left side of the second card-holding frame 2, and fig. 5b illustrates that the first card-holding frame 1 is rotatably connected to the right side of the second card-holding frame 2.

It can be understood that the rotation direction of the first card-holding frame 1 of the present embodiment is perpendicular to the rotation direction of the first card-holding frame 1 of the first embodiment. When in a stacked state, the first card support frame 1 is folded on the second card support frame 2 along the side 22, the thickness of the first card support frame 1 is the thickness of the first card support frame 1 and the second card support frame 2, that is, the thickness of the first card support frame 1 or the second card support frame 2 is twice of the thickness of the first card support frame 1 or the second card support frame 2, and the length and the width of the first card support frame 1 or the second card support frame 2 are the same as those of the single first card support frame 1 or the single second card support frame 2. When the card is in the unfolded state, the first card support frame 1 and the second card support frame 2 are located on the same plane, the thickness and the length of the first card support frame 1 are the same as those of the single first card support frame 1 or the single second card support frame 2, the width of the first card support frame 1 is twice of that of the single first card support frame 1 or the single second card support frame 2, and the first card support frame 1 and the card support door panel 5 connected to the rear end edge 23 are located on the same side.

Example four

This embodiment is the same as the embodiment, and the description of the same parts is omitted here, and the differences include: the embodiment provides a card support device, which includes a first card support frame 1 and a second card support frame 2 for supporting an electronic card 10, wherein the first card support frame 1 is slidably connected to the second card support frame 2, and the first card support frame 1 can slide in a horizontal plane relative to the second card support frame 2. The card support device comprises a laminated state and an unfolded state, when in the laminated state, the first card support frame 1 slides relative to the second card support frame 2 to be arranged in an up-and-down overlapping manner with the second card support frame 2, as shown in fig. 6a to 6 c; when in the unfolded state, the first card-holding frame 1 horizontally slides out from the inside of the second card-holding frame 2 to the front end of the second card-holding frame 2, and the first card-holding frame 1 and the second card-holding frame 2 are located on the same plane, as shown in fig. 7a to 7 c.

Specifically, two parallel sliding grooves (not shown) are disposed on two opposite sides of the first card support frame 1, and sliding rails 25 are disposed on two opposite sides of the second card support frame 2, and the sliding rails 25 are accommodated in the sliding grooves, so that the first card support frame 1 slides relative to the second card support frame 2 through the sliding rails 25 and the sliding grooves. When the first card holds in the palm frame 1 and holds in the palm the frame 2 roll-off for the second card, the length of whole card holds in the palm the length sum of frame 1 and second card support frame 2 for the first card, when first card holds in the palm frame 1 and holds in the palm the frame 2 withdrawal for the second card, the length of whole card holds in the palm the length of frame 1 or second card support frame 2 for the first card. In this embodiment, the number of the receiving slots is not specifically limited, and the distribution of the receiving slots on the first card support frame 1 and the second card support frame 2 may be adjusted according to actual requirements, for example, one receiving slot is respectively disposed on the first card support frame 1 and the second card support frame 2, or one receiving slot is disposed on the first card support frame 1, and two receiving slots are disposed on the second card support frame 2 (that is, the second card support frame 2 is a double-slot design, see fig. 4 a).

EXAMPLE five

This embodiment is the same as the embodiment, and the description of the same parts is omitted here, and the differences include: as shown in fig. 8a to 8c, the card support device of the present embodiment includes a first card support frame 1 and a second card support frame 2 for supporting an electronic card (not shown), the first card support frame 1 and the second card support frame 2 are connected in a horizontal rotation manner, and the first card support frame 1 can rotate in a horizontal plane relative to the second card support frame 2. The card support device comprises a stacking state and an unfolding state, when the card support device is in the stacking state, the first card support frame 1 rotates relative to the second card support frame 2 in a horizontal plane to be arranged in an up-and-down stacking mode with the second card support frame 2, and the first card support frame 1 is stacked on the second card support frame 2 in the thickness direction; when the card holder frame is in the unfolded state, the first card holder frame 1 rotates relative to the second card holder frame 2 in the horizontal plane to be staggered with the second card holder frame 2 and located at the front end of the second card holder frame 2, and at the moment, the first card holder frame 1 and the second card holder frame 2 are on the same plane.

In this embodiment, the card support device further includes a connecting shaft 6, an extending block 24 is disposed on the second card support frame 2, the extending block 24 is formed by extending the bottom edge of the second card support frame 2, the connecting shaft 6 is fixed on the extending block 24, the connecting shaft 6 is located at the midpoint of one side edge of the second card support frame 2, and the connecting shaft 6 is perpendicular to the second card support frame 2. The fixed axle sleeve 11 that is equipped with of one end of first card support frame 1, be equipped with the connecting hole (not shown) that supplies connecting axle 6 to pass on the axle sleeve 11, axle sleeve 11 is located on connecting axle 6 through the connecting hole cover, and first card support frame 1 can wind the axle center horizontal rotation of connecting axle 6 through axle sleeve 11, namely, the axial of connecting axle 6 is perpendicular to the direction of rotation of first card support frame 1, and wherein, the horizontal direction of rotation of first card support frame 1 is unrestricted.

When in the stacked state, the first card-holding frame 1 is stacked on the second card-holding frame 2, as shown in fig. 8 a; when the card support device needs to be unfolded, the first card support frame 1 horizontally rotates around the axis of the connecting shaft 6 through the shaft sleeve 11, and is unfolded to the position where the first card support frame 1 and the second card support frame 2 are staggered and located at the front end of the second card support frame 2, as shown in fig. 8b, and then the first card support frame 1 can move downwards along the axial direction of the connecting shaft 6 until the first card support frame 1 and the second card support frame 2 are located on the same plane, as shown in fig. 8 c. When the stacking state needs to be returned, the first card support frame 1 firstly moves upwards along the axial direction of the connecting shaft 6, and then the first card support frame 1 can be returned to the stacking state through the shaft sleeve 11 and then horizontally rotates around the axis of the connecting shaft 6.

EXAMPLE six

The present embodiment is the same as the four parts of the embodiment, and the description of the same parts is omitted here, and the different parts are as follows: the embodiment provides a card support device, which comprises a first card support frame 1 and a second card support frame 2 for bearing a memory card and/or an electronic card, wherein the card support device comprises a retraction state and an expansion state, when the card support device is in the retraction state, the first card support frame 1 is accommodated in the second card support frame 2 and/or arranged beside the second card support frame 2; when in the unfolded state, the first card-holding frame 1 can accommodate a memory card and/or an electronic card therein.

In this embodiment, the first card-holding frame 1 is accommodated in the second card-holding frame 2 and disposed beside the second card-holding frame 2, that is, the first card-holding frame 1 is partially accommodated in the second card-holding frame 2, and the part not accommodated in the second card-holding frame 2 is disposed beside the second card-holding frame 2. Preferably, the first card-holding frame 1 may be integrally accommodated in the second card-holding frame 2, and an embodiment thereof may be as shown in fig. 6a to 7c, the first card-holding frame 1 is slidably connected to the second card-holding frame 2, the first card-holding frame 1 may slide in a horizontal plane with respect to the second card-holding frame 2, and when in a retracted state, the first card-holding frame 1 is integrally accommodated in the second card-holding frame 2.

Specifically, a cavity (not shown) is provided in the second card-holding frame 2, and the cavity is disposed along the length direction of the second card-holding frame 2. The second card holds in the palm frame 2 can be for all around closed, both ends open-ended cavity structure, and first card holds in the palm frame 1 can slide in the cavity relative to second card holds in the palm frame 2, and first card holds in the palm frame 1 can follow the tip of second card and holds in the palm frame 2 and withdraw or retract.

Two parallel sliding grooves (not shown) are arranged on two opposite side edges of the first card support frame 1, sliding rails 25 are arranged on two opposite sides of the second card support frame 2, and the sliding rails 25 are contained in the sliding grooves, so that the first card support frame 1 can slide relative to the second card support frame 2 through the matching of the sliding rails 25 and the sliding grooves. When the first card holds in the palm frame 1 and holds in the palm the frame 2 roll-off for the second card, the length of whole card holds in the palm the length sum of frame 1 and second card support frame 2 for the first card, when first card holds in the palm frame 1 and holds in the palm the frame 2 withdrawal for the second card, the length of whole card holds in the palm the length of frame 1 or second card support frame 2 for the first card. It can be understood that two parallel sliding grooves may be disposed on two opposite side edges of the second card support frame 2, and two sliding rails 25 are disposed on two opposite sides of the first card support frame 1 and are accommodated in the sliding grooves through the sliding rails 25, so that the first card support frame 1 can slide relative to the second card support frame 2 through the cooperation of the sliding rails 25 and the sliding grooves.

In this embodiment, the number of the receiving slots 4 is not specifically limited, and the distribution of the receiving slots 4 on the first card support frame 1 and the second card support frame 2 may be adjusted according to actual requirements, for example, one receiving slot 4 is respectively disposed on the first card support frame 1 and the second card support frame 2, or one receiving slot 4 is disposed on the first card support frame 1, and two receiving slots 4 are disposed on the second card support frame 2 (that is, the second card support frame 2 is a double-slot design, see fig. 4 a). Optionally, the receiving groove 4 of the second card holder frame 2 is located at the top of the second card holder frame 2, and when the electronic card is placed in the second card holder frame 2, the conductive surface of the electronic card faces a direction away from the second card holder frame 2.

As shown in fig. 9a and 9b, the first card-holding frame 1 is disposed beside the second card-holding frame 2. Specifically, the first card support frame 1 is provided with an elastic component 7, when the first card support frame 1 is in an expanded state, the elastic component 7 of the first card support frame 1 is stretched, and when the first card support frame 1 is in a retracted state, the elastic component 7 of the first card support frame 1 is compressed, so that the first card support frame 1 is retracted beside the second card support frame 2. Preferably, the elastic member 7 may employ a spring.

The first card-holding frame 1 is made of foldable material or foldable structure, i.e. flexible material, such as metal mesh. When the card holder is folded, the first card holder frame 1 is folded at one side of the second card holder frame 2, which can be understood as that the first card holder frame 1 is stacked at one side of the second card holder frame 2, and the thickness of the first card holder frame 1 is not changed and does not occupy the thickness of the mobile terminal. It should be noted that the side edge may be any side edge except for the connecting card tray panel 5, and is not limited in this embodiment. At this time, the second card support frame 2 may be used as a frame for accommodating the electronic card, and the overall length is the sum of the second card support frame 2 and the folded first card support frame 1, so that the overall length is shortened. When the card holder frame 1 needs to be unfolded for use, the first card holder frame 1 can be extended to be a plane structure, and the electronic card can be respectively placed on the first card holder frame 1 and the second card holder frame 2.

Further, the second card holder frame 2 is provided with a memory card slot 12 for accommodating a memory card and an electronic card slot 20 for accommodating an electronic card, the memory card slot 12 and the electronic card slot 20 have partially overlapped card slot regions, and a length direction of the memory card slot 12 and a length direction of the electronic card slot 20 form an included angle, wherein the included angle is smaller than or equal to 90 °.

Specifically, the length direction of the memory card slot 12 is perpendicular to the length direction of the electronic card slot 20, that is, the length direction of the memory card slot 12 is perpendicular to the length direction of the electronic card slot 20, and the included angle is 90 ° at this time, it can be understood that the length direction of the memory card slot 12 is parallel to the width direction of the electronic card slot 20.

In the present embodiment, as shown in fig. 9a and 9b, the angle formed between the longitudinal direction of the memory card slot 12 and the longitudinal direction of the electronic card slot 20 is less than 90 °. It will be appreciated that the electronic card is not placed orthogonally to the memory card slot 12 when placed in the electronic card slot 20. Preferably, the included angle may be 80 ° to 89 °.

Compared with the prior art, the same card slot can only accommodate a single type of card, the mode does not need to additionally increase the layout space of the whole electronic card on the second card support frame 2, fully utilizes the compact structure of the card seat connector, and saves the space for arranging a plurality of cards. When a memory card or an electronic card is placed in the second card-holding frame 2, the memory card or the electronic card is carried by the bottom of the memory card slot 12 or the electronic card slot 20 on the second card-holding frame 2, and the placing positions of the two cards are perpendicular to each other.

When a memory card or an electronic card is accommodated in the memory card slot 12 or the electronic card slot 20 of the second card holder frame 2, the partially overlapped card slot area is a common area for two cards, which saves the area for additionally arranging the card slots. The depth of the storage card slot 12 is the same as that of the electronic card slot 20, and the storage card slot and the electronic card slot are located on the same plane, so that the second card support frame 2 can respectively accommodate cards of two different specifications under the condition that the thickness and the length of the card slot are not increased, and a user can flexibly match the types of the cards suitable for the user according to actual use conditions.

Specifically, by adopting the structure, one memory card can be accommodated in the second card support frame 2, one electronic card can be accommodated in the first card support frame 1, or one electronic card can be accommodated in the second card support frame 2 and one electronic card can be accommodated in the first card support frame 1, so that different use requirements of users can be met. It should be noted that the number of the memory card slots 12 and the number of the electronic card slots 20 provided in the first card-holding frame 1 and the second card-holding frame 2 are selected according to actual situations.

EXAMPLE seven

The embodiment provides a card support device, which comprises a first card support frame 1 and a second card support frame 2 for bearing a storage card and/or an electronic card, wherein the first card support frame 1 is connected with the second card support frame 2 through a movable mechanism, and the first card support frame 1 moves relative to the second card support frame 2 to adjust the using state of the first card support frame 1. Specifically, the card support device includes a stacked state, a retracted state or an extended state, and it can be understood that the usage state of the first card support frame 1 is correspondingly stacked on the second card support frame 2, or accommodated in the second card support frame 2, or disposed beside the second card support frame 2, and the first card support frame 1 and the second card support frame 2 are located on the same plane.

Wherein, the movable mechanism can be one or more of a turnover mechanism, a horizontal rotating mechanism, a sliding mechanism and a telescopic mechanism. In practical applications, the selection of the movable mechanism can be selected from various types to realize different connection modes of the first card-holder frame 1 and the second card-holder frame 2.

Further, the first card holder frame 1 and/or the second card holder frame 2 are provided with a memory card slot 12 for accommodating a memory card and an electronic card slot 20 for accommodating an electronic card, the memory card slot 12 and the electronic card slot 20 have partially overlapped slot regions, and an included angle is formed between the length direction of the memory card slot 12 and the length direction of the electronic card slot 20. The included angle is less than or equal to 90 deg.

Specifically, the length direction of the memory card slot 12 is perpendicular to the length direction of the electronic card slot 20, that is, the length direction of the memory card slot 12 is perpendicular to the length direction of the electronic card slot 20, and the included angle is 90 ° at this time, it can be understood that the length direction of the memory card slot 12 is parallel to the width direction of the electronic card slot 20. Or, the included angle formed between the length direction of the memory card slot 12 and the length direction of the electronic card slot 20 is smaller than 90 °, and the electronic card is not orthogonal to the memory card slot 12 when being placed in the electronic card slot 20. Preferably, the included angle may be 80 ° to 89 °.

When the first card holder frame 1 and the second card holder frame 2 are connected by the turnover mechanism, the specific implementation manner is as described in the first embodiment, and details are not described herein;

when the first card holder frame 1 and the second card holder frame 2 are connected by the sliding mechanism, the specific implementation manner thereof is as described in the fourth embodiment, and details are not described herein;

when the first card holder frame 1 and the second card holder frame 2 are connected by the horizontal rotation mechanism, the specific implementation manner thereof is as described in the fifth embodiment, and details are not described herein;

when the first card-holding frame 1 and the second card-holding frame 2 are connected by the telescopic mechanism, the specific implementation is as described in the sixth embodiment, and details are not described herein.

Reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic may be included in at least one implementation of the invention. In the description of the present invention, it is to be understood that the terms "upper", "top", "bottom", and the like, as used herein, refer to an orientation or positional relationship based on that shown in the drawings, which is for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be taken as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. Moreover, the terms "first," "second," and the like are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein.

As used herein, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, including not only those elements listed, but also other elements not expressly listed.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (27)

1. The card support device is characterized by comprising a first card support frame and a second card support frame which are used for bearing an electronic card, wherein the card support device comprises a stacking state and an unfolding state, when the card support device is in the stacking state, the first card support frame is stacked on the second card support frame, when the card support device is in the unfolding state, the first card support frame and the second card support frame are horizontally spread, and the first card support frame is positioned at the front end of the second card support frame.

2. The card tray apparatus of claim 1, wherein the first card tray frame and the second card tray frame are in a same plane when in the unfolded state.

3. The card tray apparatus of claim 1, wherein said first card tray frame is rotatably coupled to said second card tray frame by a rotating structure, said first card tray frame being foldable in a flip-over manner with respect to said second card tray frame.

4. The card holder device according to claim 3, wherein the rotation structure includes a first rotation shaft, a second rotation shaft, and a plurality of rotation connection blocks, each rotation connection block includes a first connection portion and a second connection portion, the first connection portion and the first card holder frame are provided with a first shaft hole through which the first rotation shaft passes, and the second connection portion and the second card holder frame are provided with a second shaft hole through which the second rotation shaft passes.

5. The card tray device according to claim 4, wherein the first card tray frame and the second card tray frame are respectively provided with a plurality of first avoidance grooves and a plurality of second avoidance grooves, each of the first connecting portions is provided in a corresponding one of the first avoidance grooves, and each of the second connecting portions is provided in a corresponding one of the second avoidance grooves.

6. The card tray device according to claim 4, wherein each of the rotary connecting blocks is of an integral structure, one side of the first connecting portion is connected to one side of the second connecting portion, and the first shaft hole of the first connecting portion and the second shaft hole of the second connecting portion have axes parallel to each other.

7. The card tray device according to claim 4, wherein the number of the rotation connecting blocks is two, and the rotation connecting points between the first card tray frame and the second card tray frame are symmetrically arranged.

8. The card support device of claim 3, wherein said second card support frame has oppositely disposed front and rear edges, said card support device further comprising a card support door panel, said rear edge being connected to said card support door panel, said first card support frame being pivotally connected to said front edge.

9. The card tray apparatus of claim 3, wherein said second card tray frame has two oppositely disposed sides, and said first card tray frame is rotatably connected to one of said two sides.

10. The card tray apparatus of claim 1, wherein said first card tray frame is slidably connected to said second card tray frame, said first card tray frame being slidable in a horizontal plane relative to said second card tray frame.

11. The card support device of claim 10, wherein each of the opposing sides of the first card support frame has two parallel sliding slots, and the opposing sides of the second card support frame have sliding rails, the sliding rails being received in the sliding slots, the first card support frame sliding relative to the second card support frame via the sliding rails and the sliding slots.

12. The card support apparatus of claim 1, wherein said first card support frame is horizontally pivotally connected to said second card support frame, said first card support frame being pivotable in a horizontal plane relative to said second card support frame.

13. The card holder device according to claim 12, wherein a connecting shaft is fixedly provided at a midpoint position of one side edge of the second card holder frame, a shaft sleeve is fixedly provided at one end of the first card holder frame, the shaft sleeve is sleeved on the connecting shaft, and the first card holder frame is horizontally rotatable around an axis of the connecting shaft through the shaft sleeve.

14. The card tray device according to claim 13, wherein said connecting shaft is provided perpendicularly to said second card tray frame, and said sleeve is movable up and down in an axial direction of said connecting shaft.

15. The card tray device according to claim 1, wherein the first card tray frame and the second card tray frame are respectively provided with at least one receiving slot for receiving the electronic card, and a bottom portion of an inner wall of the receiving slot is provided with a carrying portion for carrying the electronic card.

16. The card tray apparatus of claim 15, wherein each receiving slot is adapted to receive an electronic card selected from a SIM card, a Mirco-SIM card, a Nano-SIM card, or a mobile phone memory card.

17. The card tray device according to claim 15, wherein said first card tray frame and said second card tray frame are each provided with one of said receiving grooves, or said first card tray frame is provided with one of said receiving grooves, and said second card tray frame is provided with two of said receiving grooves.

18. The card support device is characterized by comprising a first card support frame and a second card support frame which are used for bearing a storage card and/or an electronic card, wherein the card support device comprises a withdrawing state and an expanding state; when in the unfolded state, the first card support frame is used for accommodating the storage card and/or the electronic card.

19. The card tray device of claim 18, wherein said first card tray frame is slidably connected to said second card tray frame, said first card tray frame being slidable in a horizontal plane relative to said second card tray frame, said first card tray frame being entirely received within said second card tray frame when in a retracted state.

20. The card support device of claim 18, wherein each of the opposing sides of the first card support frame has two parallel sliding slots, and the opposing sides of the second card support frame have sliding rails, the sliding rails being received in the sliding slots, the first card support frame being slidable relative to the second card support frame via the sliding rails and the sliding slots.

21. The card tray device of claim 18, wherein said first tray frame is provided with a spring assembly that stretches said first tray frame spring assembly when in an expanded state and compresses said first tray frame spring assembly when in a retracted state such that said first tray frame is retracted adjacent said second tray frame.

22. The card tray device according to claim 21, wherein the second card tray frame is provided with a memory card slot for receiving the memory card and an electronic card slot for receiving the electronic card, the memory card slot and the electronic card slot having a partially overlapping slot area, and a length direction of the memory card slot forms an angle with a length direction of the electronic card slot.

23. The card support device is characterized by comprising a first card support frame and a second card support frame which are used for bearing a storage card and/or an electronic card, wherein the first card support frame is connected with the second card support frame through a movable mechanism, and the first card support frame can move relative to the second card support frame so as to adjust the using state of the first card support frame.

24. The card tray device according to claim 23, wherein the moving mechanism is one or more of a tilting mechanism, a horizontal rotating mechanism, a sliding mechanism, and a telescopic mechanism.

25. The card tray device according to claim 23, wherein the first card tray frame and/or the second card tray frame is provided with a memory card slot for receiving the memory card and an electronic card slot for receiving the electronic card, the memory card slot and the electronic card slot have a partially overlapping slot area, and a length direction of the memory card slot forms an angle with a length direction of the electronic card slot.

26. The card tray apparatus of claim 25, wherein said included angle is less than or equal to 90 °.

27. A mobile terminal, characterized by comprising a terminal housing and a card-holding device according to any one of claims 1 to 26, fitted in the terminal housing.