CN216599599U - Ejection mechanism and electronic equipment - Google Patents

Abstract

The utility model discloses a pop-up mechanism and electronic equipment, and relates to the technical field of electronic terminals. The ejection mechanism comprises a shell, a rotating assembly and a clamping cover; the shell is provided with an installation space for accommodating an electronic card and comprises an installation part, the installation part is provided with a hole penetrating through the installation part, and the hole is communicated with the installation space; the rotating assembly is installed on one side, facing the installation space, of the installation piece and connected with the clamping cover, and the clamping cover can rotate relative to the installation piece through the rotating assembly, so that the hole is in an open state and a closed state. The utility model solves the technical problem that the existing card taking mode is inconvenient for users.

Description

Ejection mechanism and electronic equipment

Technical Field

The present invention relates to the field of electronic terminals, and in particular, to an ejection mechanism and an electronic device.

Background

With the development of mobile technology, many conventional electronic devices begin to increase their functions in mobile, such as watches that only can be used to see time in the past, and also can be used to make calls through plug-in cards. The card cover of the existing electronic equipment is inconvenient to open and can be opened only by a specially-made card taking device, and the card taking device is pointed and small, is inconvenient to carry and easy to lose, and is inconvenient to use for users.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides an eject mechanism and an electronic device, which are used to solve the technical problem that the existing card-taking method is inconvenient for users.

In order to solve the technical problems, the first technical scheme adopted by the utility model is as follows:

an ejection mechanism comprises a shell, a rotating assembly and a clamping cover; the shell is provided with an installation space for accommodating an electronic card and comprises an installation part, the installation part is provided with a hole penetrating through the installation part, and the hole is communicated with the installation space; the rotating assembly is installed on one side, facing the installation space, of the installation piece and connected with the clamping cover, and the clamping cover can rotate relative to the installation piece through the rotating assembly, so that the hole is in an open state and a closed state.

In some embodiments of the pop-up mechanism, a clamping portion is disposed on the clamping cover, a clamping groove is disposed on a side wall of the hole, and the clamping portion can extend into the clamping groove and be clamped with the clamping groove, so that the hole can be kept in the closed state.

In some embodiments of the pop-up mechanism, the mounting member is provided with a supporting member, the supporting member is connected to a side wall forming the hole and forms a mounting groove with the side wall forming the hole, and the rotating member is mounted on the supporting member.

In some embodiments of the ejection mechanism, the rotation assembly includes a slider, an elastic member, a first transmission member, and a rotation member: the sliding block can slide relative to the mounting piece; one end of the elastic piece is connected with the sliding block, and the other end of the elastic piece is connected with the shell; the rotating piece is rotatably connected to the sliding block and is connected with the clamping cover; the first transmission piece is connected to the sliding block;

when the hole is switched from the closed state to the open state under external force, the clamping portion is separated from the clamping groove by the external force to drive the rotating piece to move, so that the sliding block is driven to move and the elastic piece is extruded, so that after the clamping portion is separated from the clamping groove, the elastic piece can drive the sliding block to move towards the clamping cover and drive the first transmission piece to move to drive the rotating piece to rotate towards the direction far away from the installation space;

the hole by under external force the open mode to when the closure state changes, external drive rotate the piece by to installation space, and compress the elastic component, so that joint portion can get into the draw-in groove, and joint portion gets into behind the draw-in groove, the elastic component can drive the slider orientation the card lid removes, and then drives rotate the piece and rotate, so that joint portion with the draw-in groove joint.

In some embodiments of the ejection mechanism, the rotating assembly further comprises a second transmission member, and the second transmission member is mounted on the rotating member and is in transmission connection with the first transmission member; the movement of the first transmission piece can drive the second transmission piece to rotate, so that the rotation piece rotates.

In some embodiments of the ejection mechanism, the rotating assembly further includes a third transmission member and a fourth transmission member, the third transmission member is rotatably mounted to the slider, and the third transmission member is in transmission connection with the first transmission member;

the fourth transmission member is mounted on the sliding block and connected with the third transmission member, so that when the elastic member drives the sliding block to move, the third transmission member rotates, and the first transmission member moves.

In some embodiments of the ejection mechanism, the rotating assembly further comprises a slide, a guiding direction of the slide being parallel to a driving direction of the elastic member; the fourth transmission part is arranged on the slide in a sliding mode, and the fourth transmission part can rotate along the slide in a sliding mode, so that the third transmission part rotates.

In some embodiments of the ejection mechanism, the slide includes a first section extending along a driving direction of the elastic member and a second section disposed at an angle to the first section; the fourth transmission part comprises a third section and a fourth section, the third section and the fourth section are arranged at an included angle, one end of the third section is connected with the third transmission part, the other end of the third section is connected with the fourth section, a protrusion is arranged at one end, far away from the third section, of the fourth section, the protrusion extends into the slide way, and when the protrusion slides along the guide direction of the second section, the protrusion can drive the fourth section to rotate so as to enable the third section to rotate, and further enable the third transmission part to rotate.

In some embodiments of the pop-up mechanism, the rotating assembly further includes a guide member, and the guide member is disposed through the slider and extends along a driving direction of the elastic member.

In some embodiments of the ejection mechanism,

in order to solve the technical problems, the utility model adopts the following technical scheme:

an electronic device comprising the ejection mechanism described in the above embodiments.

The embodiment of the utility model has the following beneficial effects:

the pop-up mechanism is applied to the electronic equipment, has the technical effect of conveniently opening and closing the card cover and also has the effect of converting the state of the card cover in a rotating mode, and particularly comprises a shell, a rotating assembly and the card cover, wherein the shell is provided with an installation space for accommodating an electronic card, the installation part of the shell is provided with a hole penetrating through the installation part, and the hole is communicated with the installation space; the rotating assembly is installed on one side of the installation part facing the installation space and is connected with the clamping cover, the clamping cover can rotate relative to the installation part through the rotating assembly, so that the hole is in an open state and a closed state, the clamping cover can be rotated through the rotating assembly, exposure and closing of the hole are achieved, the electronic card is convenient to take out and install, the card taking device is omitted, the hole can be drilled without the card taking device, and the technical problem that the existing card taking mode is inconvenient is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of an electronic device in one embodiment;

FIG. 2 is a schematic diagram illustrating an electronic device with an open hole according to an embodiment;

FIG. 3 is an enlarged view of the structure of portion A in FIG. 2;

FIG. 4 is a schematic diagram of a portion of an ejection mechanism in one embodiment;

FIG. 5 is an enlarged view of the structure of part B in FIG. 4;

fig. 6 is a cross-sectional view of C-C in fig. 4.

Wherein: 1. a housing; 11. a mounting member; 111. a card slot; 2. a watchband; 3. a hole; 4. a cover is clamped; 41. a clamping part; 5. a rotating assembly; 501. a first mounting plate; 502. a guide member; 503. a slider; 504. a slideway; 505. a strut; 506. a protrusion; 507. a fourth stage; 508. a third stage; 509. a third transmission member; 510. a connecting seat; 511. a first transmission member; 512. a guide seat; 513. an elastic member; 514. an installation part; 515. a rotating member; 516. a second transmission member; 517. a rotating shaft; 518. a second mounting plate; 6. mounting grooves; 7. and a support member.

Detailed Description

To facilitate an understanding of the utility model, the utility model will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. The utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The card cover of the existing electronic equipment is inconvenient to open and can be opened only by a specially-made card taking device, and the card taking device is pointed and small, is inconvenient to carry and easy to lose, and is inconvenient to use for users.

As shown in fig. 1-5, in one embodiment of the ejection mechanism, the ejection mechanism includes a housing 1, a rotating assembly 5, and a card cover 4. The shell 1 is provided with an installation space for accommodating an electronic card, the shell 1 comprises an installation part 11, the installation part 11 is provided with a hole 3 penetrating through the installation part 11, and the hole 3 is communicated with the installation space. The rotating assembly 5 is installed on one side, facing the installation space, of the installation part 11 and is connected with the clamping cover 4, and the clamping cover 4 can rotate relative to the installation part 11 through the rotating assembly 5 so that the hole 3 has an opening state and a closed state.

In this embodiment, can rotate card lid 4 through runner assembly 5 to realize exposing and sealing of hole 3, be convenient for take out and install the electronic card, thereby saved and got the card ware, thereby made the user need not get the card ware just can beat hole 3, solved the current inconvenient user's of card mode of getting technical problem.

In an embodiment of the pop-up mechanism, as shown in fig. 2-4 and fig. 6, the locking portion 41 is disposed on the locking cover 4, the locking groove 111 is disposed on the sidewall forming the hole 3, and the locking portion 41 can extend into the locking groove 111 and lock with the locking groove 111 to keep the hole 3 in a closed state.

In this embodiment, the clamping portion 41 and the clamping groove 111 can form the clamping connection between the clamping cover 4 and the mounting member 11, so that the phenomenon of the hole 3 opened by the clamping cover 4 due to simple collision, jolt or vibration can be avoided, and the stability of the structure is improved.

Specifically, the clamping portion 41 may be an L-shaped block structure, the clamping groove 111 is an L-shaped groove, a long section of the clamping portion 41 is connected to the body of the card cover 4, or the clamping portion 41 is integrally formed, and a short section of the clamping portion 41 is connected to an end of the long section away from the body of the card cover 4. The shape of the card slot 111 matches the shape of the card portion 41.

The opening direction of the clamping portion 41 is related to the setting position of the clamping cover 4, the clamping cover 4 in this embodiment is arranged on the mounting member 11, the direction of the external force application faces the mounting space inside the housing 1, the opening of the clamping portion 41 faces downward, and the short section of the clamping portion 41 is separated from the corresponding position of the clamping groove 111 in the rotation process of the clamping cover 4 towards the mounting space. The force that external force was exerted on card lid 4 all is pressure, and card lid 4 and rotating assembly 5 are installed on drain pan, top shell or side shell anyhow, and the direction is all towards the installation space to external force application, can understand, consequently can understand that the opening direction of joint portion 41 need deviate from the installation space setting.

The housing 1 may have a rectangular, square, cylindrical, or circular structure, and when the housing 1 is a rectangular or square housing 1, the mounting member 11 may be a bottom shell, a top shell, or a side shell, and for understanding, the following embodiments will describe the housing 1 as a rectangular housing 1 and the mounting member 11 as a bottom shell.

In an embodiment of the pop-up mechanism, as shown in fig. 4, the mounting member 11 is provided with a supporting member 7, the supporting member 7 is connected to a side wall forming the hole 3 and forms a mounting groove 6 with the side wall forming the hole 3, and the rotating member 5 is mounted on the supporting member 7.

In this embodiment, the thickness of the support 7 is smaller than the extension height of the hole 3. Specifically, when the hole 3 is a rectangular hole 3, the support 7 may be a rectangular plate-shaped structure, and three sides of the support 7 are fixedly connected with the side wall forming the hole 3, thereby forming the mounting groove 6. When the hole 3 is a circular hole 3, the support member 7 may be an arc plate or a fan-shaped plate, and the arc edge of the support member 7 is fixedly connected to the side wall forming the hole 3 to form the mounting groove 6. Through setting up mounting groove 6, rotating assembly 5 can be accommodated in mounting groove 6 to avoid rotating assembly 5 to occupy the installation space in casing 1.

In one embodiment of the ejection mechanism, as shown in fig. 5, the rotation assembly 5 includes a sliding block 503, an elastic member 513, a first transmission member 511, and a rotation member 515. The slider 503 is slidable relative to the mount 11. The elastic member 513 has one end connected to the slider 503 and the other end connected to the housing 1. The rotating member 515 is rotatably connected to the slider 503 and is connected to the card cover 4. The first transmission member 511 is connected to the slider 503. When the hole 3 is switched from the closed state to the open state under an external force, the external force causes the engaging portion 41 to disengage from the engaging groove 111, so as to drive the rotating member 515 to move, further drive the sliding block 503 to move and extrude the elastic member 513, so that after the engaging portion 41 disengages from the engaging groove 111, the elastic member 513 can drive the sliding block 503 to move towards the engaging cover 4, and drive the first driving member 511 to move, so as to drive the rotating member 515 to rotate away from the installation space. Hole 3 is by open mode when switching to the closure state under external force, and external drive rotates piece 515 by to installation space to compression elastic component 513, so that joint portion 41 can get into draw-in groove 111, and after joint portion 41 got into draw-in groove 111, elastic component 513 can drive slider 503 and move towards card lid 4, and then drive and rotate piece 515 and rotate, so that joint portion 41 and draw-in groove 111 joint.

In the present embodiment, it can be understood that, in the initial state that the clamping portion 41 is clamped in the clamping groove 111, the elastic member 513 may be in an original length or a stretching state. Hole 3 is by closed state to the open mode when changing, external force upwards presses card lid 4 to one side, make card lid 4 and rotate piece 515 and rotate the installation space and rotate, thereby make the short section portion of joint portion 41 break away from draw-in groove 111 earlier, make the whole draw-in groove 111 that breaks away from of joint portion 41 again, it can be understood, when joint portion 41 breaks away from in draw-in groove 111, card lid 4 has moved one section distance towards keeping away from draw-in groove 111 direction, and drive slider 503 and remove, compress elastic component 513, therefore after the external force uninstallation again, elastic component 513 can remove through promoting slider 503, make first transmission piece 511 remove, and drive and rotate piece 515 and rotate to keeping away from the installation space direction, and then drive card lid 4 and rotate.

The first transmission member 511 in this embodiment may be a transmission rod structure, the first transmission member 511 may be integrally formed with the sliding block 503, or fixedly installed on the sliding block 503, and one end of the first transmission member 511 abuts against the non-rotation center of the rotation member 515, so that the rotation member 515 can be pushed to rotate during the movement of the first transmission member 511.

In an embodiment of the ejection mechanism, as shown in fig. 5, the rotating assembly 5 further includes a second transmission member 516, and the second transmission member 516 is mounted on the rotating member 515 and is in transmission connection with the first transmission member 511. The movement of the first transmission member 511 can drive the second transmission member 516 to rotate, so as to rotate the rotation member 515.

In this embodiment, specifically, the second transmission member 516 may be a circular structure, the second transmission member 516 is connected to the rotation member 515 through a rotation shaft 517, the rotation shaft 517 is disposed through the rotation member 515 and the second transmission member 516, and the rotation shaft 517 may be provided with a key slot, so as to enable the rotation member 515 and the second transmission member 516 to rotate synchronously. The end of the first transmission member 511 close to the second transmission member 516 can be fixedly connected to the non-center position of the second transmission member 516 to form an eccentric link, so as to drive the second transmission member 516 to rotate. The second transmission member 516 may also have a rack structure, and the second transmission member 516 may also have a gear structure, so that the movement of the second transmission member 516 can rotate the second transmission member 516.

In an embodiment of the ejection mechanism, the rotating assembly 5 further comprises a third transmission member 509 and a fourth transmission member, the third transmission member 509 is rotatably mounted on the sliding block 503, and the third transmission member 509 is in transmission connection with the first transmission member 511. The fourth transmission member is mounted on the sliding block 503 and connected to the third transmission member 509, so that when the elastic member 513 drives the sliding block 503 to move, the third transmission member 509 rotates, and the first transmission member 511 moves.

In this embodiment, the first transmission member 511 can be released from the direct connection with the sliding block 503 by the third transmission member 509 and the fourth transmission member, so that the first transmission member 511 is a single part and is convenient for maintenance and replacement. Specifically, the third transmission member 509 may be a gear structure, the third transmission member 509 is rotatably mounted on the connection seat 510, and the connection seat 510 is fixedly mounted on the sliding block 503. The fourth transmission member can rotate when the sliding block 503 moves, for example, the fourth transmission member can be a rocker, so as to drive the third transmission member 509 to rotate, and further drive the first transmission member 511 to move.

In an embodiment of the ejection mechanism, as shown in fig. 5, the rotating assembly 5 further includes a guide seat 512, and the first transmission member 511 is disposed through the guide seat 512.

Specifically, the guide holder 512 is provided with a through hole penetrating through the guide holder 512 along the driving direction of the elastic member 513, the through hole comprises a first hole and a second hole, the first hole is communicated with the second hole, the second hole is arranged below the first hole, a step is arranged between the hole wall forming the first hole and the hole wall forming the second hole, the first transmission member 511 is arranged through the first hole, and the engaging teeth of the first transmission member 511 are arranged towards the second hole, and extends into the second hole, the first transmission piece 511 can be supported in the first hole by the steps, so that the extending direction of the hole wall of the first hole forms the guiding direction of the first transmission piece 511, which is convenient for guiding the movement of the first transmission piece 511, in the previous embodiment, since the third transmission member 509 and the fourth transmission member are provided, the first transmission member 511 may not be fixed to the slider 503, the first transmission piece 511 can be prevented from deviating and falling by the guide holder 512 of the present embodiment.

In an embodiment of the ejection mechanism, as shown in fig. 5, the rotating assembly 5 further includes a slide 504, and the guide direction of the slide 504 is parallel to the driving direction of the elastic member 513. The fourth transmission member is slidably disposed on the sliding channel 504, and the fourth transmission member can rotate by sliding along the sliding channel 504, so that the third transmission member 509 rotates.

In the embodiment, the sliding channel 504 is used to guide the movement of the fourth transmission member, and in the previous embodiment, the fourth transmission member may be a rocker structure, and a portion of the fourth transmission member can rotate under the guiding of the sliding channel 504, so that the fourth transmission member rotates integrally, thereby driving the third transmission member 509 to rotate.

Specifically, the slide 504 includes a first section extending along the driving direction of the elastic member 513 and a second section disposed at an angle to the first section. The fourth transmission member comprises a third section 508 and a fourth section 507, the third section 508 and the fourth section 507 are arranged at an included angle, one end of the third section 508 is connected with the third transmission member 509, the other end of the third section is connected with the fourth section 507, a protrusion 506 is arranged at one end, far away from the third section 508, of the fourth section 507, the protrusion 506 extends into the slideway 504, and when the protrusion 506 slides along the second section guiding direction, the fourth section 507 can be driven to rotate, so that the third section 508 rotates, and the third transmission member 509 rotates.

In this embodiment, specifically, the chute 504 may be formed by a strip-shaped hole, the chute 504 is mounted on the support 7 through a rod 505, and the chute 504 is fixedly connected with the rod 505, or integrally formed. The first section and the second section form an opening facing and the position of the matching protrusion 506 can enable the fourth transmission piece to rotate in different directions. For example, when the first section and the second section form an opening facing downward, and the protrusion 506 is located on the front side of the rotation center of the fourth transmission member, the protrusion 506 can rotate the fourth transmission member clockwise when sliding from the first section into the second section, so it can be understood that the opening direction formed by the first section, and the protrusion 506 is located on the front and rear sides of the rotation center of the fourth transmission member, these two factors change by one, then when the protrusion 506 slides from the first section into the second section, the rotation direction of the fourth transmission member becomes counterclockwise, and when both change, the rotation direction of the fourth transmission member remains clockwise.

In addition, the fourth transmission member is a rocker structure, and specifically includes a third section 508 extending axially along the third transmission member 509 and a fourth section 507 extending radially along the third transmission member 509, and the fourth section 507 can rotate when the protrusion 506 slides along the second section by extending into the protrusion 506 in the slideway 504, so as to drive the third section 508 to rotate, thereby forming the rocker structure.

In this embodiment, the sliding track 504 can guide the movement of the protrusion 506, and the third section 508 can drive the fourth section 507 to rotate through the second section arranged at an included angle with the first section, so that the rotation of the whole fourth transmission member is realized.

In an embodiment of the pop-up mechanism, as shown in fig. 5, the rotating assembly 5 further includes a guiding element 502, and the guiding element 502 is disposed through the sliding block 503 and extends along the driving direction of the elastic element 513.

In this embodiment, specifically, the rotating assembly 5 further includes a first mounting plate 501 and a second mounting plate 518, and the first mounting plate 501 and the second mounting plate 518 are spaced apart and fixedly mounted on the support 7 respectively. One end of the guide 502 is connected to the first mounting plate 501, the other end of the guide 502 is connected to the second mounting plate 518, the guide 502 may be inserted into the first mounting plate 501 and the second mounting plate 518, or both ends of the guide may be fixed to the first mounting plate 501 and the second mounting plate 518, preferably, the number of the guide 502 is two, and the movement of the guide sliding block 503 can be further stabilized by the guide 502.

One end of the elastic member 513 is fixedly connected to the first mounting plate 501, and thus is connected to the support member 7, and thus is fixedly connected to the housing 1.

The slider 503 is provided with a mounting portion 514 on a side away from the first mounting plate 501, the mounting portion 514 is a block-shaped structure, and the rotating member 515 is rotatably connected to the mounting portion 514 through a rotating shaft 517.

An electronic device, as shown in conjunction with fig. 1-6, includes the ejection mechanism in the above-described embodiments.

By applying the ejection mechanism in the above embodiment to electronic equipment, the electronic equipment may be equipment requiring an electronic card such as a telephone watch, a bracelet, a mobile phone, a telephone, a tablet, and the like, and the electronic card may be a SIM card, a chip card, and the like, and when the electronic card needs to be taken out and installed by setting the ejection mechanism, the existing needle type card taker is not needed, and the rotating member 515 can be ejected by simply pressing, so that the hole 3 on the installation member 11 is exposed, and the operation by a user is facilitated.

When electronic equipment is wrist-watch, bracelet, devices such as casing 1 still is used for installation circuit board, display screen, and watchband 2 then locates the both sides of casing 1 respectively.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An ejection mechanism, characterized in that the ejection mechanism comprises a housing, a rotating assembly and a card cover; the shell is provided with an installation space for accommodating an electronic card and comprises an installation part, the installation part is provided with a hole penetrating through the installation part, and the hole is communicated with the installation space; the rotating assembly is installed on one side, facing the installation space, of the installation piece and connected with the clamping cover, and the clamping cover can rotate relative to the installation piece through the rotating assembly, so that the hole is in an open state and a closed state.

2. The pop-up mechanism as claimed in claim 1, wherein the latch cover is provided with a latch portion, and a side wall forming the hole is provided with a latch slot, and the latch portion can extend into the latch slot and latch with the latch slot to keep the hole in the closed state.

3. The pop-up mechanism of claim 2, wherein the mounting member has a support member attached to and forming a mounting slot with the side wall defining the hole, the rotating assembly being mounted to the support member.

4. An ejection mechanism according to claim 2 or 3, wherein the rotary assembly comprises a slider, an elastic member, a first transmission member, and a rotary member: the sliding block can slide relative to the mounting piece; one end of the elastic piece is connected with the sliding block, and the other end of the elastic piece is connected with the shell; the rotating piece is rotationally connected to the sliding block and is connected with the clamping cover; the first transmission piece is connected to the sliding block;

when the hole is switched from the closed state to the open state under external force, the clamping portion is separated from the clamping groove by the external force to drive the rotating piece to move, so that the sliding block is driven to move and the elastic piece is extruded, so that after the clamping portion is separated from the clamping groove, the elastic piece can drive the sliding block to move towards the clamping cover and drive the first transmission piece to move to drive the rotating piece to rotate towards the direction far away from the installation space;

the hole by under external force the open mode to when the closure state changes, external drive rotate the piece by to installation space, and compress the elastic component, so that joint portion can get into the draw-in groove, and joint portion gets into behind the draw-in groove, the elastic component can drive the slider orientation the card lid removes, and then drives rotate the piece and rotate, so that joint portion with the draw-in groove joint.

5. The ejection mechanism of claim 4, wherein the rotating assembly further comprises a second transmission member mounted to the rotating member and drivingly connected to the first transmission member; the movement of the first transmission piece can drive the second transmission piece to rotate, so that the rotation piece rotates.

6. The eject mechanism of claim 5, wherein the rotating assembly further comprises a third transmission member and a fourth transmission member, the third transmission member being rotatably mounted to the slide, the third transmission member being drivingly connected to the first transmission member;

the fourth transmission member is mounted on the sliding block and connected with the third transmission member, so that when the elastic member drives the sliding block to move, the third transmission member rotates, and the first transmission member moves.

7. The ejection mechanism of claim 6, wherein the rotating assembly further comprises a slide, a guiding direction of the slide being parallel to a driving direction of the elastic member; the fourth transmission part is arranged on the slide in a sliding mode, and the fourth transmission part can rotate along the slide in a sliding mode, so that the third transmission part rotates.

8. The pop-up mechanism of claim 7, wherein the slide includes a first section extending in a driving direction of the resilient member and a second section disposed at an angle to the first section; the fourth transmission part comprises a third section and a fourth section, the third section and the fourth section are arranged at an included angle, one end of the third section is connected with the third transmission part, the other end of the third section is connected with the fourth section, a protrusion is arranged at one end, far away from the third section, of the fourth section, the protrusion extends into the slide way, and when the protrusion slides along the guide direction of the second section, the protrusion can drive the fourth section to rotate so as to enable the third section to rotate, and further enable the third transmission part to rotate.

9. The eject mechanism as claimed in claim 4, wherein the rotating assembly further comprises a guide member, the guide member is disposed through the slider and extends along the driving direction of the elastic member.

10. An electronic device, characterized in that the electronic device comprises an ejection mechanism according to any of claims 1-9.

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