WO2022022643A1 - 电子设备 - Google Patents
电子设备 Download PDFInfo
- Publication number
- WO2022022643A1 WO2022022643A1 PCT/CN2021/109304 CN2021109304W WO2022022643A1 WO 2022022643 A1 WO2022022643 A1 WO 2022022643A1 CN 2021109304 W CN2021109304 W CN 2021109304W WO 2022022643 A1 WO2022022643 A1 WO 2022022643A1
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- WO
- WIPO (PCT)
- Prior art keywords
- lever
- cover
- card
- cover body
- detection
- Prior art date
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Images
Classifications
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/62—Means for facilitating engagement or disengagement of coupling parts or for holding them in engagement
- H01R13/629—Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure electrical locking indicators, manufacturing tolerances
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R12/00—Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocks; Coupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structures; Terminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
- H01R12/70—Coupling devices
- H01R12/71—Coupling devices for rigid printing circuits or like structures
- H01R12/712—Coupling devices for rigid printing circuits or like structures co-operating with the surface of the printed circuit or with a coupling device exclusively provided on the surface of the printed circuit
- H01R12/714—Coupling devices for rigid printing circuits or like structures co-operating with the surface of the printed circuit or with a coupling device exclusively provided on the surface of the printed circuit with contacts abutting directly the printed circuit; Button contacts therefore provided on the printed circuit
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R12/00—Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocks; Coupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structures; Terminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
- H01R12/70—Coupling devices
- H01R12/71—Coupling devices for rigid printing circuits or like structures
- H01R12/712—Coupling devices for rigid printing circuits or like structures co-operating with the surface of the printed circuit or with a coupling device exclusively provided on the surface of the printed circuit
- H01R12/716—Coupling device provided on the PCB
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/46—Bases; Cases
- H01R13/502—Bases; Cases composed of different pieces
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/62—Means for facilitating engagement or disengagement of coupling parts or for holding them in engagement
- H01R13/629—Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure electrical locking indicators, manufacturing tolerances
- H01R13/633—Additional means for facilitating engagement or disengagement of coupling parts, e.g. aligning or guiding means, levers, gas pressure electrical locking indicators, manufacturing tolerances for disengagement only
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/66—Structural association with built-in electrical component
- H01R13/70—Structural association with built-in electrical component with built-in switch
- H01R13/703—Structural association with built-in electrical component with built-in switch operated by engagement or disengagement of coupling parts, e.g. dual-continuity coupling part
- H01R13/7035—Structural association with built-in electrical component with built-in switch operated by engagement or disengagement of coupling parts, e.g. dual-continuity coupling part comprising a separated limit switch
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R2201/00—Connectors or connections adapted for particular applications
- H01R2201/06—Connectors or connections adapted for particular applications for computer periphery
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R2201/00—Connectors or connections adapted for particular applications
- H01R2201/16—Connectors or connections adapted for particular applications for telephony
Definitions
- the present application relates to the technical field of communication devices, and in particular, to an electronic device.
- an electronic device is usually configured with a card tray, and the card tray is used to carry a smart card (such as a SIM card).
- a smart card such as a SIM card
- the current electronic equipment is equipped with an ejector mechanism and a detection mechanism.
- the detection mechanism can detect the state of the card tray (installation state and disassembly state), and the ejector mechanism is responsible for ejecting the card tray, thereby realizing subsequent disassembly of the card tray.
- the current ejector mechanism and the detection mechanism are independent mechanisms, and there is a problem of occupying a large space during the assembly process, which is not conducive to the integrated development of electronic equipment.
- the present application discloses an electronic device, which solves the problem that the ejection mechanism and the detection mechanism in the electronic device in the prior art take up a large space when installed as a separate structure.
- the present application discloses an electronic device, comprising a casing, a circuit board, a card tray holder, a card holder, a card tray and a detection and ejection mechanism, wherein:
- the housing has an inner cavity, a perforation and an ejector pin hole communicating with the inner cavity, the circuit board is arranged in the inner cavity, the card holder, the card seat and the detection ejection
- the mechanisms are all arranged on the circuit board, a first installation space is formed between the card seat and the card tray holder, and the card tray is assembled in the first installation space; the detection ejection mechanism spaced from the card tray holder;
- the detection and ejection mechanism includes a first cover, a second cover, a lever and a detection part, a second installation space is formed between the first cover and the second cover, and the lever rotates It is arranged in the second installation space, the detection part is arranged in the second installation space, the first cover body or the second cover body is connected with the circuit board, and the ejector pin hole is connected with the circuit board.
- the first end of the lever is arranged oppositely, the card holder includes a force applying portion and a force receiving portion, and the second end of the lever is opposite to the force receiving portion, and can be driven by the force receiving portion At least a part of the card tray protrudes out of the casing through the through hole, the force applying part is arranged opposite to the detection part, and when the card tray is in an assembled state, the force applying part is The urging part is in contact with the detection part, and the urging part is separated from the detection part when the card tray is in a detached state.
- the electronic device disclosed in this application improves the structure of the electronic device in the related art.
- the lever and the detection part are arranged in the second installation space formed by the first cover body and the second cover body.
- the card tray is designed to contain
- the structure of the force-applying part and the force-receiving part can make the force-applying part cooperate with the detection part, and the force-receiving part cooperates with the second end of the lever, so as to realize the functions of ejecting the tray and detecting the state.
- the detection and ejection mechanism in the electronic device disclosed in the embodiment of the present application combines the detection mechanism and the ejection mechanism.
- the mechanism is integrated into one body, which not only facilitates installation, but also reduces the occupied space, thereby helping to reduce the occupied space of the detection ejection mechanism on the circuit board.
- FIG. 1 is a schematic diagram of a partial structure of an electronic device disclosed in an embodiment of the application.
- Fig. 2 is A-A sectional view of Fig. 1;
- FIG. 3 and FIG. 4 are schematic structural diagrams of the detection and ejection mechanism disclosed in the embodiment of the application under different viewing angles;
- Fig. 5 is the partial enlarged schematic diagram of Fig. 3;
- FIG. 6 and FIG. 7 are schematic structural diagrams of the first cover body disclosed in the embodiment of the application under different viewing angles
- FIG. 8 is a schematic diagram of the assembly of the insulating portion and the first cover in the electronic device disclosed in the embodiment of the present application;
- FIG. 9 is a schematic structural diagram of a second cover body disclosed in an embodiment of the present application.
- 17 is a partial cross-sectional view of a lever disclosed in an embodiment of the application.
- 18-19 are respectively partial cross-sectional views of the electronic device disclosed in the embodiments of the application when the card tray is in different states;
- 21 is a cross-sectional view of a rivet disclosed in an embodiment of the application.
- FIG. 22 and FIG. 23 are respectively partial cross-sectional views of the electronic device disclosed in the embodiment of the application.
- 24-25 are schematic diagrams of the installation process of the electronic device disclosed in the embodiment of the present application on the card tray;
- 26 is a partial cross-sectional view of another electronic device disclosed in an embodiment of the application.
- 27-28 are respectively partial cross-sectional views of the electronic device disclosed in the embodiments of the application.
- 29-30 are schematic diagrams of the cooperation between the lever and the force-receiving part during the disassembly process of the card tray disclosed in the embodiment of the application;
- 31-32 are respectively partial cross-sectional views of the disassembly process of the electronic device disclosed in the embodiment of the application in the card tray;
- Fig. 33 and Fig. 34 are the partial schematic diagrams of the electronic device disposing the card tray of different structure respectively;
- FIG. 35 is a schematic structural diagram of a card tray disclosed in an embodiment of the present application.
- 810-first SIM card 820-second SIM card, 830-T card.
- an embodiment of the present application discloses an electronic device.
- the disclosed electronic device includes a housing 600 , a circuit board 100 , a card tray holder 200 , a card holder 300 , a card tray 400 and a detection and ejection mechanism 500.
- the housing 600 is the basic component of the electronic device.
- the housing 600 can not only provide protection for other electronic devices in the electronic device, but also provide a mounting basis for other electronic devices, for example, the circuit board 100, the card tray holder 200, the card The tray 400 and the detection and ejection mechanism 500 are installed in the casing 600 .
- the circuit board 100 , the card tray holder 200 and the detection and ejection mechanism 500 are all fixed in the casing 600 .
- the housing 600 has an inner cavity, a perforation and a thimble hole, and both the perforation and the thimble hole communicate with the inner cavity.
- the ejector pin hole can be used to cooperate with the ejector pin 700, for the ejector pin 700 to pass through to disassemble the card tray 400.
- the perforations allow the card tray 400 to pass through, thereby realizing the disassembly and assembly of the card tray 400 .
- the housing 600 includes a middle frame, and both perforations and thimble holes can be opened on the middle frame.
- the middle frame usually does not face the user, so the perforations and The thimble holes are opened on the middle frame, which can improve the appearance performance of the electronic device, and at the same time, can improve the user's visual experience.
- the circuit board 100 is the most direct installation base or power supply component for some electronic devices of the electronic device. At least a part of the electronic devices of the electronic device are mounted on the circuit board 100 and are electrically connected with the circuit board 100 .
- the circuit board 100 may be a main board of an electronic device, a sub-board of the electronic device, or other circuit boards in the electronic device, which is not limited in the embodiment of the present application.
- the circuit board 100 is arranged in the inner cavity, and the card tray holder 200, the card seat 300 and the detection and ejection mechanism 500 are all arranged on the circuit board 100.
- the card tray holder 200 , the card seat 300 and the detection and ejection mechanism 500 may be fixed on the circuit board 100 by at least one of welding, bonding, clamping, riveting, screw connection and the like.
- a first installation space is formed between the card seat 300 and the card tray holder 200 , the first installation space is arranged opposite to the through hole, and the card tray 400 is assembled in the first installation space.
- the smart card eg SIM card, T card
- the smart card can be assembled into the first installation space together with the card tray 400 , and the smart card is in electrical contact with the card holder 300 , thereby realizing the connection with the circuit board 100 The electrical connection between them finally realizes the communication connection with the chips on the circuit board 100 .
- the card holder 300 may include a first card holder 310, a second card holder 320 and a third card holder 330, and the card holder 400 may carry a first SIM card 810, a second SIM card 820 and a T card. 830 , after the card tray 400 is installed in place, the first SIM card 810 is matched with the first card holder 310 , the second SIM card 820 is matched with the second card holder 320 , and the T card 830 is matched with the third card holder 330 .
- the card tray 400 is assembled into the first installation space by elastic snap connection, so as to realize the fixed assembly in the first installation space.
- the card tray holder 200 includes an elastic arm 210, the elastic arm 210 includes an elastic protrusion 211, and the card tray 400 is provided with a clamping depression 430.
- the elastic arm 210 is elastically deformed, so that the elastic protrusion 211 is elastically clamped with the clamping depression 430 , and finally the fixing of the card tray 400 in the first installation space is realized.
- the card tray 400 can be further disassembled.
- the detection ejection mechanism 500 is provided on the circuit board 100 . Specifically, the detection ejection mechanism 500 may be disposed on the edge of the circuit board 100 facing the through hole.
- the detection ejection mechanism 500 and the card tray holder 200 are arranged at intervals, that is to say, the two are of a separate structure.
- the detection ejection mechanism 500 and the card tray holder 200 adopt a split structure, which can realize the independent manufacture of the two, which is beneficial to simplify the structure and facilitate the manufacture, and at the same time, the card tray holder 200 can be flexibly adapted according to the layout of the smart card.
- the structure is adjusted without changing the structure of the detection ejection mechanism 500, as shown in FIG. 34 and FIG. 35 .
- the use of a split structure is beneficial to achieve more flexible installation.
- the detection and ejection mechanism 500 includes a first cover body 510 , a lever 530 of the second cover body 520 and a detection part 540 , the first cover body 510 and the second cover body 520 are connected, and the first cover body 510 A second installation space is formed between it and the second cover body 520 .
- the first cover body 510 and the second cover body 520 can be fixedly assembled by welding, riveting, screw connection, etc., and the whole formed by the first cover body 510 and the second cover body 520 can be a detection ejection mechanism
- the other components of the 500 provide the installed base.
- the lever 530 is rotatably arranged in the second installation space, the detection part 540 is arranged in the second installation space, and the first cover body 510 or the second cover body 520 is connected with the circuit board 100 , thereby realizing the detection and ejection mechanism 500 Mounting on circuit board 100 .
- the ejector pin hole is disposed opposite to the first end of the lever 530 , and the ejector pin can pass through the ejector pin hole to press against the first end of the lever 530 , thereby driving the lever 530 to rotate.
- the card tray 400 includes a force-applying part 410 and a force-receiving part 420.
- the second end of the lever 530 is disposed opposite to the force-receiving part 420, and the force-receiving part 420 can drive at least part of the card tray 400 to protrude to the casing through the through hole.
- the disassembly of the card tray 400 is further realized.
- the urging portion 410 and the detecting portion 540 are disposed opposite to each other.
- the urging portion 410 is in contact with the detecting portion 540.
- the urging portion 410 and the detecting portion are in contact with each other.
- 540 is separated, in this case, the electronic device can determine the state of the card tray 400 by whether the force applying part 410 is in contact with the detecting part 540 or not, that is, when the force applying part 410 is in contact with the detecting part 540 , the card tray 400 is in the assembled state, that is, the card tray 400 is assembled in place.
- the force applying part 410 is separated from the detecting part 540 , the card tray 400 is in a disassembled state, that is, the card tray 400 is not assembled in place.
- the user pushes the card tray 400 carrying the smart card into the casing 600 from the perforation. Since the perforation is opposite to the first installation space, the card tray 400 can extend to the first installation space through the perforation.
- the card tray 400 will push up the elastic protrusion 211 until the engaging recess 430 moves to a position opposite to the elastic protrusion 211, and finally the elastic protrusion 211 and The snap-connecting recess 430 is elastically positioned and matched, and finally the card tray 400 is installed in the first installation space, and at the same time, the force applying part 410 will contact the detection part 540 to confirm that the card tray 400 is installed in place.
- the user uses the ejector pin 700 to pass through the ejector pin hole to push the first end of the lever 530, thereby making the lever 530 rotate, and the first end of the lever 530 rotates in the direction away from the ejector pin hole , since the second end of the lever 530 is disposed opposite to the force-receiving portion 420, and the rotation center of the lever 530 is located between its two ends, so during the rotation of the lever 530, the second end of the lever 530 faces toward Rotating in the direction close to the perforation can finally push the force-receiving portion 420 to achieve the purpose of pushing the tray 400 to protrude out of the casing 600 at least partially through the perforation.
- the second end of the lever 530 is applied to the force
- the thrust of the part 420 can overcome the elastic force between the elastic protrusions 211 and the engaging recesses 430 , so that the card tray 400 moves out of the casing 600 .
- the user can pull out the Cato 400.
- the force applying part 410 is separated from the detection part 540 , so that it is determined that the card tray 400 is in a disassembled state.
- the electronic device disclosed in the embodiment of the present application improves the structure of the electronic device in the related art, and the lever 530 and the detection part 540 are arranged in the second installation space formed by the first cover body 510 and the second cover body 520, and at the same time
- the card tray 400 is designed as a structure including a force applying part 410 and a force receiving part 420, so that the force applying part 410 can cooperate with the detecting part 540, and the force receiving part 420 can cooperate with the second end of the lever 530 to realize the matching of the card tray. 400 ejection and state detection functions.
- the detection and ejection mechanism in the electronic device disclosed in the embodiment of the present application combines the detection mechanism and the ejection mechanism.
- the mechanism is integrated into one body, which not only facilitates installation, but also reduces the occupied space, which is beneficial to reduce the occupied space of the detection ejection mechanism 500 on the circuit board 100 .
- the detection and ejection mechanism 500 is provided on the circuit board 100 .
- the detection and ejection mechanism 500 may be provided at multiple positions on the circuit board 100 as long as its working requirements can be met.
- the edge of the circuit board 100 facing the perforation may be provided with a notch, the detection ejection mechanism 500 may be arranged in the notch, and the card tray 400 covers at least part of the detection ejection mechanism 500.
- the circuit board 100 is adjacent to the through hole, and the area covered by the card tray 400 is difficult to use. Due to the influence of the card tray 400, this area cannot be installed with electronic components.
- the above design method can fully By utilizing the area on the circuit board 100 that is close to the perforation and covered by the card tray 400 , the space utilization rate of the circuit board 100 can be improved, thereby avoiding the detection of the ejector mechanism 500 from occupying a large amount of the circuit board 100 that is not covered by the card tray 400 . other areas covered.
- the card holder 400 may have a centerline extending along the through direction of the perforation, and the portion where the force receiving portion 420 contacts the second end of the lever 530 may be located on the centerline.
- the second end of the lever 530 can exert force on the position of the card holder 400 on its center line, so that the force on the card holder 400 can be balanced during the disassembly process, avoiding the need for the card holder 400.
- the unbalanced force causes it to be stuck with the casing 600 .
- the card tray 400 may have various structures, and the card tray 400 may include a card tray cap 400a, a card tray slot frame 400b and a card tray tray plate 400c, and the card tray tray frame 400b is supported on the card tray tray plate On 400c, the card holder cap 400a is fixedly connected with the card holder slot frame 400b, the card holder slot frame 400b and the card holder holder plate 400c can both be metal structural parts, specifically, the card holder cap 400a and the card holder slot frame 400b can be welded by welding Or fixed connection by injection molding.
- the card tray slot frame 400b and the card tray tray plate 400c can form a card slot for accommodating a smart card.
- the card tray cap 400a is matched with the through hole of the housing 600 and blocks the through hole.
- the card tray 400 with the above structure has the advantage of high strength, which can alleviate the deformation of the card tray 400 after being subjected to force, so as to better ensure the detection of the driving of the card tray 400 by the ejector structure 500 .
- the card tray 400 may include a force applying part 410 and a force receiving part 420.
- the card tray plate 400c may include a force applying part 410 and a force receiving part 420.
- the card tray The support plate 400c is located at the bottom of the entire card tray 400 , which is beneficial to cooperate with the corresponding part of the detection and ejection mechanism 500 covered by the card tray 400 .
- the card tray 400c may be a one-piece structure, for example, the card tray 400c is a metal cutting member formed by a cutting process (eg, CNC machining).
- the disassembly of the card tray 400 requires the user to grasp the ejector pin 700 and push the first end of the lever 530 to achieve.
- the end of the ejector pin 700 in contact with the lever 530 may slide and stab other parts of the electronic device.
- the surface of the first end of the lever 530 facing the thimble hole may be provided with a limiting groove 531, and the notch of the limiting groove 531 may face the thimble hole,
- the bottom wall of the limiting groove 531 toward its notch is the thimble action surface, and the ejector pin 700 can apply a thrust to the ejector pin action surface.
- the ejector pin 700 pushing the first end of the lever 530 to rotate the ejector pin 700 is in contact with the lever 530
- the end of the thimble 700 can extend into the limit groove 531 and cooperate with the limit groove 531. Under the limit action of the limit groove 531, the adverse consequences caused by the sliding of the end of the ejector pin 700 can be avoided. .
- the electronic device disclosed in the embodiments of the present application can also solve the problem of stab wounds that may be caused by the sliding of the ejector pin 700 in other ways.
- the surface of the first end of the lever 530 facing the thimble hole may be provided with an anti-slip structure, and specifically, the anti-slip structure may be a frosted surface or an anti-slip texture.
- the anti-slip structure can increase the friction coefficient between the lever 530 and the end of the ejector pin 700 , thereby reducing the probability of the end of the ejector pin 700 sliding.
- both the first cover body 510 and the second cover body 520 may be metal structural parts, for example, the first cover body 510 and the second cover body 520 are both stainless steel structural parts.
- the first cover body 510 and the second cover body 520 may be fixedly connected by welding.
- the first cover body 510 may be provided with a first positioning hole 511
- the second cover body 520 may be provided with a second positioning hole 511 .
- the projections of the hole 521 , the first positioning hole 511 and the second positioning hole 521 in the butting direction of the first cover body 510 and the second cover body 520 are coincident.
- the operator can realize the matching and positioning of the first cover body 510 and the second cover body 520 by passing the positioning pins through the first positioning holes 511 and the second positioning holes 521, and then perform subsequent assembly.
- Joining operations eg welding operations. This undoubtedly facilitates the assembly and operation of the operator.
- the lever 530 is rotatably disposed in the second installation space.
- the second installation space is provided with a rotating shaft
- the first end of the rotating shaft is fixed to the first cover 510
- the second end of the rotating shaft is
- the two cover bodies 520 are fixed
- the lever 530 is rotatably matched with the rotating shaft.
- the two ends of the rotating shaft that are rotatably matched with the lever 530 are fixedly connected to the first cover body 510 and the second cover body 520 respectively, so that the rotating shaft can be installed more stably, and the rotating shaft can also play a role in strengthening the first cover.
- the function of connecting the body 510 with the second cover body 520 is
- the rotating shaft can be an optical axis, and both ends of the optical axis can be welded with the first cover body 510 and the second cover body 520 respectively, so as to realize the realization of the rotating shaft and the first cover body 510 and the second cover.
- the rotating shaft may be a rivet 550 , and the rivet 550 is fixedly connected to both the first cover body 510 and the second cover body 520 .
- at least one end of the rivet 550 may be riveted and fixed with the first cover body 510 or the second cover body 520 .
- the rivet 550 can realize riveting, and riveting has the advantage of simple operation.
- the embodiment of the present application discloses a rivet 550 with a specific structure.
- the disclosed rivet 550 may include a rotating connecting portion 551 and a bending connecting portion 552.
- the bending connecting portion 552 is fixedly connected to the first end of the rotating connecting portion 551.
- the bending connecting portion 552 and the rotating connecting portion 551 may be an integral structure.
- the second cover 520 may be provided with a connecting hole 522 , and the bent connecting portion 552 passes through the connecting hole 522 and is bent to the other side of the second cover 520 away from the first cover 510 , and is connected to the second cover 520
- the surface of the other side is in contact with each other, a clamping mechanism can be formed between the bending connection part 552 and the opposite end surface 551a of the rotating connection part 551, the clamping mechanism is clamped and matched with the second cover 520, and the rotating connection part 551 and the dial Rod 530 is rotationally connected.
- the second end of the rotating connection portion 551 and the first cover body 510 can be fixedly connected by welding.
- the second end of the rotating connecting part 551 can also be provided with a bending connecting part 552, and then another clamping mechanism is formed by the bending connecting part 552 and the end face of the second end on the rotating connecting part 551, so as to realize the first
- the clamping of the cover body 510 of course, in this case, the first cover body 510 also needs to be provided with a connecting hole.
- the rivet 550 may further include a limit flange 553, the limit flange 553 is fixed on the second end of the rotating connection portion 551, the lever 530 is provided with a stepped hole, and the limit convex The edge 553 is limitedly matched with the stepped hole, and the limiting flange 553 and the first cover body 510 can be connected by welding.
- the second end of the rivet 550 where the limiting flange 553 is located may be connected to the first cover 510 by welding.
- the operator can insert the rivet 550 into the stepped hole, and the limiting flange 553 of the rivet 550 can be limitedly matched with the stepped hole, so that the rivet 550 can be better installed in the stepped hole, thereby realizing the rivet 550.
- 550 is pre-assembled, then the connecting portion 552 is bent, and finally the first cover 510 and the second end of the rivet 550 are welded to finally realize the fixed assembly of the rivet 550 .
- both the first cover body 510 and the second cover body 520 may have a one-piece structure.
- the first cover body 510 and the second cover body 520 may have a one-piece bending structure.
- the first cover body 510 and the second cover body 520 may be formed by bending a plate. After the first cover body 510 and the second cover body 520 are connected, the bending structure of the two can form a second installation space.
- the first cover body 510 may include a first bending portion 512 , the first bending portion 512 is bent toward the second cover body 520 , and the first bending portion 512 is connected to the second cover body 520 .
- the first bending portion 512 may be disposed opposite to the rotating shaft.
- the first bending portion 512 and the second cover body 520 are opposite to the rotating shaft after welding, which can protect the rotating shaft and improve the connection strength of the first cover body 510 and the second cover body 520 at the rotating shaft. Therefore, the deformation of the first cover body 510 and the second cover body 520 can be reduced.
- the lever 530 is rotatably matched with the rotating shaft.
- the lever 530 may have a shaft hole 532, and the shaft hole 532 may be the stepped hole described above, or a common equal diameter hole.
- the shaft hole 532 is rotatably matched with the rotating shaft.
- the lever 530 may include a lever top surface facing the first cover 510 and a lever bottom surface facing the second cover 520, the lever top surface and the lever bottom surface are disposed opposite to each other, and the lever top surface and lever bottom surface may be opposite to the lever bottom surface.
- the axes of the shafts are perpendicular to each other.
- At least one of the top surface of the lever and the bottom surface of the lever may include an annular plane 533 surrounding the shaft hole 532.
- both the top surface of the lever and the bottom surface of the lever may include an annular plane 533 surrounding the shaft hole.
- the annular plane 533 of 532 , the first cover 510 and the second cover 520 are all slidingly attached to the opposite annular plane 533 .
- both the first cover 510 and the second cover 520 can fit with the opposite annular plane 533 and slide relative to each other, so as to play a role in the lever 530 . It has a better restraining effect, preventing the lever 530 from tipping at a small angle or deforming in the tipping direction under the push of the ejector pin 700 .
- the projection of the position where the lever 530 defines the shaft hole 532 in the axial direction perpendicular to the shaft hole 532 may be located within the projection of the second cover 520 in the axial direction.
- the position where the shaft hole 532 is formed on the lever 530 can be more stably supported by the second cover 520 , so as to avoid the partial suspension of the position, and further reduce the overturning of the lever 530 under the push of the ejector pin 700 . Or the phenomenon of deformation in the direction of tipping.
- the overturning phenomenon of the lever 530 can also be alleviated in other ways.
- the first cover body 510 has a first limiting area 513, and the rotating shaft is disposed in the first limiting area 513 and the second cover. between body 520.
- the rotating shaft is connected to the first limiting area 513 by welding, and the first limiting area 513 is in limited contact with the lever 530 in the axial direction of the rotating shaft.
- the first limiting area since the first limiting area 513 is connected with the rotating shaft, the first limiting area has good strength, which can further limit the lever 530 and also relieve the lever 530 from being trapped in the ejector pin.
- the phenomenon of tipping or deformation in the direction of tipping occurs under the push of 700.
- a part of the first limiting area 513 is bent toward the second cover 520 and is bent to one side of the rotating shaft.
- the bent portion of the first limiting area 513 is engaged with the lever 530 in the lateral limit of the rotating shaft. It should be noted that, the bent portion of the first limiting area 513 is located on one side of the axis of the rotating shaft, so it can cooperate with the lever 530 to limit the lateral direction of the rotating shaft.
- the lever 530 can also be adjusted to achieve the purpose of preventing overturning.
- the second end of the lever 530 is provided with an anti-tilt stopper 534 facing the first cover body 510 , and the anti-tilt stopper 534 is attached to the first cover body 510 and prevents
- the tilting stop 534 is slidably matched with the first cover 510 in the rotation direction of the lever 530 .
- the anti-tilt limiter 534 is fitted with the first cover 510 , and can be restrained by the first cover 510 to avoid shifting Rod 530 tipped over.
- a thickened protrusion 535 may be provided on the edge of the anti-rollover limiter 534, and the second end of the lever 530 may include a lever applying surface 536 that can be in contact with the force-receiving portion 420.
- the rod force-applying surface 536 may include a first side surface of the thickened protrusion 535 and a second side surface of the anti-rollover limiter 534. It should be noted that the first side surface is the extension of the thickened protrusion 535 toward the card tray 400. The second side surface is the surface of the anti-rolling limiting platform 534 facing the extending direction of the card tray 400 .
- the thickened protrusion 535 can make the lever force application surface 536 where the second end of the lever 530 contacts the force-receiving portion 420 to have a larger size in the axis direction of the rotating shaft, thereby improving the contact between the lever 530 and the force-receiving portion 420
- the stability of the power receiving portion 420 and the force application surface 536 of the lever can be avoided due to the deformation, and the stability of the driving of the tray 400 can be better ensured.
- the thickening protrusion 535 may further include a third side surface, the third side surface is disposed opposite to the second side surface, and the third side surface and the edge of the first cover 510 are limited and matched in the rotation direction of the lever 530, so that the Avoid excessive retraction of the second end of the lever 530 into the second installation space.
- the lever force-applying surface 536 is the action surface where the lever 530 exerts a force on the force-receiving portion 420 , and the lever-applying surface 536 can have various shapes as long as it can ensure that the lever 530 is directed to the receiving portion 420 .
- the force portion 420 exerts a force so that the card tray 400 can protrude out of the casing 600 .
- the lever force-applying surface 536 includes a flat section 536a and an inclined section 536b extending obliquely relative to the flat section 536a, the flat section 536a is perpendicular to the through direction of the perforation, and the first end of the inclined section
- the plane segments 536a are connected, and the second end of the inclined plane segment 536b extends obliquely in a direction away from the perforation and away from the first end of the lever 530. Said, ramp segment 536b is further away from the center of rotation.
- the force-applying surface 536 of the lever drives the tray 400 to move through the force-receiving portion 420.
- the force-receiving portion 420 can first contact the plane segment 536a, and then follow the rotation of the lever 530.
- the lever 530 gradually transitions from the plane segment 536a to the inclined surface segment 536b and contacts the card holder 400 .
- the force exerted by the ejector pin 700 is set to N1
- the force of the ejector 400 to be ejected is set to N2
- the power arm corresponding to the ejector pin 700 is L1
- the engaging recess 430 of the card tray 400 is elastically locked by the elastic arm 210 .
- a relatively large initial ejection force of the ejector is required to break through the constraint of the elastic arm 210 .
- the ejector 400 is no longer subject to the locking force of the elastic arm 210 . Then the resistance received by the Cato 400 will be instantly reduced. Therefore, we need a relatively short resistance arm L2.
- the plane segment 536a is disposed on the side of the lever 530 that is closer to the rotation center, and its distance from the rotation center, that is, the resistance arm L2, is smaller than that of L3.
- the plane section 536a is closer to the card tray 400, it contacts the card tray 400 at the earliest, so a relatively large pushing force can be generated on the tray 400; when the tray 400 is pushed out a certain distance
- the card holder 400 continues to push out, and the contact portion of the card holder 400 with the lever 530 gradually transitions from the plane section 536a to the inclined plane section 536b , and finally reaches the second end of the lever 530 .
- the inclined surface section 536b corresponds to a longer resistance arm L3, and thereafter, in the process of continuing to extend the card tray 400, because the resistance arm L3 is relatively large, there is no need to apply a larger card tray to the card tray 400 Top out. It can be seen that the above structure can make it easier for the user to drive the card tray 400 to break through the restriction of the elastic arm 210 during the process of disassembling the card tray 400 , so that the disassembly of the card tray 400 is easier to achieve.
- the second end of the lever 530 may be provided with an outer edge 530a adjacent to the top of the first cover 510 .
- the outer rim 530a may include an outer rim body 530a1 and a thickened protrusion 535 disposed on the outer rim body 530a1, and the anti-tilt stop 534 may include the outer rim body 530a1, and the outer rim body 530a1 faces the extending direction of the card tray 400
- the outer edge body 530a1 has a fourth side 530a2 facing the second cover 520, the second end of the lever 530 includes a fifth side 530a3 facing the extension direction of the card tray 400, the first The fourth side surface 530a2 and the fifth side surface 530a3 may form a concave surface.
- the concave surface can play a role of avoidance.
- the concave surface in the process of disassembling the tray 400 and the process of rotating the second end of the lever 530 close to the perforation, the concave surface can avoid part of the structure of the housing 600, and further Avoid interference.
- the part on the casing 600 corresponding to the concave surface does not need to be cut off, thereby preventing the strength of the casing 600 from decreasing.
- the fourth side surface 530a2 and the fifth side surface 530a3 may be perpendicular.
- the end surface of the second end of the lever 530 has an escape recess 537 that is gradually recessed toward the first end of the lever 530 in a direction close to the second cover 520
- the housing 600 may include a limiting bone 610
- the limiting bone 610 extends into the second installation space
- the avoidance recess 537 avoids and cooperates with the second installation space.
- the limiting bone 610 can play a limiting role to prevent the second cover body 520 from being deformed by a large amount, resulting in the deformation of the second installation space. When the pressure is high, the deformation of the second cover body 520 is reduced.
- the second cover 520 may include a cantilevered pre-compressed elastic piece 523 , and the bottom surface of the second end of the lever 530 is included in the bottom surface of the lever 530 facing the second cover 520 .
- the cantilevered pre-compression elastic piece 523 is in elastic contact with the bottom surface of the second end of the lever 530 , so as to play a certain locking function and prevent the lever 530 from rotating freely without force.
- the bottom surface of the lever may include an inclined guide surface 538, and the inclined guide surface 538 guides and cooperates with the cantilevered pre-compression elastic piece 523 in the extending direction of the card tray 400, so that the first end of the lever 530 is subjected to Under the thrust of the thimble 700, the second end of the lever 530 is easily guided to a position separated from the cantilevered pre-compression elastic piece 523, thereby realizing unlocking.
- the cantilevered pre-compression elastic piece 523 can be a bent elastic piece that is bent toward the first cover 510 , and the cantilevered pre-compressed elastic piece 523 is bent to form the first convex hull 523a and the inclined
- the guide surface is elastically limited in the extending direction of the card tray 400, so that the lever 530 can be locked to a certain extent, and the second end of the lever 530 can be prevented from rotating toward the direction close to the perforation.
- the portion of the lever 530 opposite to the first convex hull 523a is elastically clamped between the first convex hull 523a and the first cover 510, so as to achieve locking by elastic clamping.
- the portion of the first cover 510 opposite to the first convex hull 523a may be provided with a second convex hull 514, and the position of the lever 530 opposite to the first convex hull 523a may be elastically clamped on the between the first convex hull 523a and the second convex hull 514 .
- the first convex hull 523a and the second convex hull 514 can play the role of elastically clamping the lever 530, and at the same time can also reduce the distance between the first cover 510 and the second cover 520 and the lever 530
- the contact area forms a matching method of point-to-surface contact, thereby reducing the respective wear of the lever 530 during the rotation process.
- At least one of the lever surface of the lever 530 facing the first cover body 510 and the lever bottom surface of the lever 530 facing the second cover body 520 may be provided with a third protrusion.
- the package 539 and the third convex package 539 are slidably fitted with the inner surface of the first cover body 510 or the second cover body 520 .
- the apex of the convex hull of the third convex hull 539 forms point-to-surface contact with the first cover body 510 or the second cover body 520 , thereby reducing the respective wear of the lever 530 during rotation.
- the number of the third convex hulls 539 may be one or multiple. In an optional solution, the number of the third convex hulls 539 is at least two, the surface of the lever 530 facing the first cover 510 is the top surface of the lever, and the top surface of the lever is located at two positions of the rotational axis of the lever 530.
- the third convex hulls 539 are provided on the side areas. In this case, the areas on both sides of the rotation axis of the lever 530 on the top surface of the lever can form point-to-surface contact with the first cover 510, so that the lever is in contact with the first cover 510.
- the regions on both sides of the rotation axis can be in contact with the first cover 510 , which can improve the rotation stability of the lever 530 , and at the same time prevent the first cover 510 and the lever 530 from occurring. Excessive wear.
- the third convex hulls 539 can be provided in the areas on both sides of the rotation axis of the lever 530 on the bottom surface of the lever.
- Point-to-surface contact with the second cover 520 can be formed, so that during the rotation of the lever 530, the areas on both sides of the rotation axis can be in contact with the second cover 520, which can improve the rotation stability of the lever 530 , and at the same time, the second cover body 520 and the lever 530 will not be excessively worn.
- the first cover 510 or the second cover 520 may be provided with a balance arm 515 , and one end of the balance arm 515 is away from the force applying portion 410 from the first cover 510 or the second cover 520 . Or one side of the force receiving portion 420 is connected, the other end of the balance arm 515 extends away from the first cover 510 or the second cover 520 , and the balance arm 515 can be fixedly connected to the circuit board 100 .
- the balance arm 515 can play a balancing role, which can make the center of gravity of the detection ejector mechanism 500 relatively centered, so as to prevent the detection and ejection mechanism 500 from being assembled on the circuit board 100 through the patch process due to the overweight of the detection ejector mechanism 500.
- the problem of tipping in the direction of arrow B at the same time can solve the problem of low patch success rate.
- the balance arm 515 and the first cover body 510 or the second cover body 520 may be an integral structural member.
- the detection part 540 is a detection part for detecting the ejection mechanism 500. In a specific working process, the detection part 540 can detect the state of the card tray 400.
- the detection part 540 includes a detection elastic piece 541 and a detection terminal 542, one end of the detection elastic piece 541 is connected with the first cover body 510 or the second cover body 520, and the other end of the detection elastic piece 541 is an electrical connection end,
- the detection terminal 542 is disposed on the first cover body 510 or the second cover body 520.
- the force applying portion 410 contacts the detection elastic piece 541 and drives the electrical connection end to separate from the detection terminal 542;
- the force applying portion 410 is separated from the electrical connection end, and the electrical connection end is in electrical contact with the detection terminal 542 .
- the assembled state of the card tray 400 can be determined by detecting the continuity of the circuit between the electrical connection end and the detection terminal 542 .
- the first cover body 510 or the second cover body 520 may be an integral structure with the detection elastic piece 541 .
- the detection spring 541 may be a ground spring.
- the detection terminal 542 can be connected to the signal source. When the detection terminal 542 is in contact with the electrical connection end, the signal of the detection terminal 542 is grounded through the detection elastic piece 541, and the electronic device can detect that the detection terminal 542 is at a low level. For the level signal, when the detection terminal 542 is separated from the electrical connection terminal, the detection terminal 542 is not grounded through the electrical connection terminal, and the electronic device can detect that the detection terminal 542 is at a high level signal at this time. In a specific detection process, the electronic device can determine the state of the card tray 400 by acquiring whether the level signal of the detection terminal 542 is a high-level signal or a low-level signal.
- the low-level signal and the high-level signal are relative concepts, and the embodiments of the present application do not limit the specific values of the low-level signal and the high-level signal.
- the top surface of the detection elastic piece 541 facing the first cover body 510 may have a fourth convex hull 541c, and the fourth convex hull 541c is in sliding contact with the inner surface of the first cover body 510.
- the fourth convex hull 541c can realize the sliding contact between the detection elastic piece 541 and the first cover body 510, thereby improving the stability of detecting the deformation of the elastic piece 541, and at the same time, the convex hull vertex of the fourth convex hull 541c can form a point with the first cover body 510 The surface contact can finally relieve the wear between the detection elastic piece 541 and the first cover 510 .
- the detection elastic piece 541 has a top surface of the elastic piece facing the first cover body 510, and the top surface of the elastic piece is located between the first cover body 510 and the second cover body 520, that is to say, the top surface of the elastic piece does not protrude beyond the
- the first cover body 510 or the second cover body 520 faces away from the outer surface of the second installation space. In this case, due to the shielding of the first cover body 510 and the second cover body 520 , it is difficult for the detection elastic piece 541 to be triggered by mistake.
- the electrical connection terminal may include a tip portion 541a1 , and the tip portion 541a1 is in electrical contact with the detection terminal 542 . Since the tip portion 541a1 has a smaller area, it can more stably contact the detection terminal 542 under the driving force of the elastic force of the detection elastic piece 541 . Meanwhile, a point contact is formed between the tip portion 541a1 and the detection terminal 542. Compared with the line contact or surface contact, when the detection terminal 542 has stains or an oxide layer, the tip portion 541a1 can provide a larger contact per unit area. Therefore, it is able to pierce the stain or oxide layer better, resulting in good electrical conduction results.
- the tip portion 541a1 may be included in the lap portion 541a described later.
- the first cover body 510 or the second cover body 520 may be provided with a portion opposite to the electrical connection end.
- the observation hole 525 is convenient for the operator to check.
- the first cover body 510 and the second cover body 520 are usually metal components with high strength.
- an insulating portion 560 may be provided in the second installation space, and the detection terminal 542 is fixed on the insulating portion 560. And the detection terminal 542 can be connected to the first cover body 510 or the second cover body 520 in an insulating manner through the insulating portion 560 .
- the insulating portion 560 can play a role of better insulating isolation.
- the insulating portion 560 may be filled with glue or other structures.
- the insulating portion 560 may be an injection molded structural member, and the detection terminal 542 and the insulating portion 560 are connected by injection molding. In this case, the insulating portion 560 not only plays a role of insulating isolation, but also can play a role of fixing the detection terminal 542 .
- the first cover body 510 or the second cover body 520 may have a first limiting portion 516, and the first limiting portion 516 extends into the second installation space, and The first limiting portion 516 and the insulating portion 560 are limited and matched in the first direction, so that the insulating portion 560 can be prevented from moving relative to the first cover body 510 or the second cover body 520 .
- first cover body 510 or the second cover body 520 may have a second limiting portion 517, the second limiting portion 517 extends into the second installation space, and the second limiting portion 517 and the insulating portion 560 are located in the second The direction limit is matched, and the second direction and the first direction intersect.
- the first limiting portion 516 and the second limiting portion 517 can limit the insulating portion 560 in two intersecting directions, thereby improving the firmness of the insulating portion 560 .
- the first direction and the second direction may be perpendicular. Both the first limiting portion 516 and the second limiting portion 517 may be formed by bending.
- the electrical connection end may include an overlapping section 541a and a bending section 541b, the overlapping section 541a and the bending section 541b are connected, the bending section 541b is concave toward the direction of the force applying portion 410, and the bending section
- the protrusion formed by the bending of 541b is disposed opposite to the force applying portion 410, and the bending section 541b and the detection terminal 542 are limited and matched in the concave direction of the bending section 541b.
- the protrusion of the curved section 541b exerts a force on the detection elastic piece 541 .
- the force-applying portion 410 is separated from the protrusion formed by the bending section 541b.
- the overlapping section 541a and the detection terminal 542 are limitedly matched to ensure normal cooperation.
- the bending section 541b may include a widening portion 541b1, and the widening portion 541b1 can make the width of the bending section 541b larger, so that it can cooperate with the force applying portion 410 in a larger area, thereby improving the contact stability.
- the first cover 510 may include a first blocking portion 518 , a hollow area 519 is provided on one side of the first blocking portion 518 , and the hollow area 519 is opposite to the bending section 541 b , and the first blocking portion 518
- the distance from the through hole is the first distance
- the distance between the bending segment 541b and the through hole is the second distance
- the first distance is smaller than the second distance.
- the first blocking portion 518 is closer to the perforation. During the intrusion of the foreign matter, the foreign matter will first come into contact with the first blocking portion 518 , thereby preventing the foreign matter from further piercing the detection elastic piece 541 .
- the second cover 520 has a second bending portion 524 , the second bending portion 524 is bent toward the first cover 510 , and the second bending portion 524 is welded with the second cover 520 , thereby The connection area between the first cover body 510 and the second cover body 520 is further increased, which is beneficial to improve the firmness of the connection.
- the first cover body 510 may include a third bending part 5110 , the third bending part 5110 is bent toward the second cover body 520 , and the third bending part 5110 is welded with the second cover body 520 . This can further improve the stability of the connection between the first cover body 510 and the second cover body 520 .
- the first cover 510 may further include a first extension portion 5111 extending from the third bending portion 5110 to one side of the third bending portion 5110 .
- the third bending portion 5110 is connected to the first extension portion 5110 .
- the portion 5111 forms a second blocking portion, and the second blocking portion is used to cover the surface of the insulating portion 560 facing the through hole.
- the second blocking portion can cover the insulating portion 560 , the insulating portion 560 can be protected, and the insulating portion 560 can be prevented from being damaged when foreign objects invade.
- the electronic devices disclosed in the embodiments of this application may be mobile phones, tablet computers, e-book readers, wearable devices (such as smart glasses, smart watches, etc.), game consoles, and other devices, and of course other types of devices, which are implemented in this application.
- the example does not limit the specific type of electronic equipment.
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- Casings For Electric Apparatus (AREA)
Abstract
Description
Claims (20)
- 一种电子设备,包括壳体(600)、电路板(100)、卡托保持架(200)、卡座(300)、卡托(400)和检测顶出机构(500),其中:所述壳体(600)具有内腔以及与所述内腔连通的穿孔和顶针孔,所述电路板(100)设置于所述内腔中,所述卡托保持架(200)、所述卡座(300)和所述检测顶出机构(500)均设置于所述电路板(100)上,所述卡座(300)与所述卡托保持架(200)之间形成第一安装空间,所述卡托(400)装配在所述第一安装空间之内;所述检测顶出机构(500)与所述卡托保持架(200)间隔设置;所述检测顶出机构(500)包括第一盖体(510)、第二盖体(520)、拨杆(530)和检测部(540),所述第一盖体(510)与所述第二盖体(520)之间形成第二安装空间,所述拨杆(530)转动地设置于所述第二安装空间内,所述检测部(540)设置于所述第二安装空间内,所述第一盖体(510)或所述第二盖体(520)与所述电路板(100)相连,所述顶针孔与所述拨杆(530)的第一端相对设置,所述卡托(400)包括施力部(410)和受力部(420),所述拨杆(530)的第二端与所述受力部(420)相对设置,且可通过所述受力部(420)驱动所述卡托(400)的至少部分通过所述穿孔伸出至所述壳体(600)之外,所述施力部(410)与所述检测部(540)相对设置,在所述卡托(400)处于装配状态的情况下,所述施力部(410)与所述检测部(540)接触,在所述卡托(400)处于拆卸状态的情况下,所述施力部(410)与所述检测部(540)分离。
- 根据权利要求1所述的电子设备,其中,所述卡托(400)覆盖于所述检测顶出机构(500)的至少部分上,所述卡托(400)具有沿所述穿孔的贯通方向延伸的中心线,所述受力部(420)与所述拨杆(530)的第二端相接触的部位位于所述中心线上。
- 根据权利要求1所述的电子设备,其中,所述拨杆(530)的第一端 朝向所述顶针孔的表面设有限位凹槽(531),所述限位凹槽(531)的槽口朝向所述顶针孔,所述限位凹槽(531)朝向其槽口的底壁为顶针作用面;或者,所述拨杆(530)的第一端朝向所述顶针孔的表面设置有防滑结构。
- 根据权利要求1所述的电子设备,其中,所述第二安装空间内设置有转轴,所述转轴的第一端与所述第一盖体(510)固定,所述转轴的第二端与所述第二盖体(520)固定,所述拨杆(530)与所述转轴转动配合。
- 根据权利要求4所述的电子设备,其中,所述拨杆(530)具有轴孔(532),所述轴孔(532)与所述转轴转动配合,所述拨杆(530)包括朝向所述第一盖体(510)的拨杆顶面和朝向所述第二盖体(520)的拨杆底面,所述拨杆顶面和所述拨杆底面均包括围绕所述轴孔(532)的环状平面(533),所述第一盖体(510)和所述第二盖体(520)均与相对的所述环状平面(533)滑动贴合。
- 根据权利要求4所述的电子设备,其中,所述第一盖体(510)具有第一限位区(513),所述转轴设置于所述第一限位区(513)与所述第二盖体(520)之间,所述转轴与所述第一限位区(513)焊接相连,所述第一限位区(513)与所述拨杆(530)在所述转轴的轴线方向限位接触。
- 根据权利要求1所述的电子设备,其中,所述拨杆(530)的第二端设有朝向所述第一盖体(510)的防倾翻限位台(534),所述防倾翻限位台(534)与所述第一盖体(510)在所述拨杆(530)的转动方向滑动配合,所述防倾翻限位台(534)与所述第一盖体(510)贴合。
- 根据权利要求7所述的电子设备,其中,所述防倾翻限位台(534)的边缘设置有增厚凸起(535),所述拨杆(530)的第二端包含可与所述受力部(420)接触的拨杆施力面(536),所述拨杆施力面(536)包括所述增厚凸起(535)的第一侧面和所述防倾翻限位台(534)的第二侧面,所述第一侧面为所述增厚凸起(535)朝向所述卡托(400)的伸出方向的表面,所述第二侧面为所述防倾翻限位台(534)朝向所述卡托(400)的伸出方向的表 面。
- 根据权利要求1所述的电子设备,其中,所述拨杆(530)的第二端的端面具有在靠近所述第二盖体(520)的方向上逐渐向所述拨杆(530)的第一端凹陷的避让凹陷(537),所述壳体(600)具有限位骨(610),所述限位骨(610)伸至所述第二安装空间内,所述避让凹陷(537)与所述第二安装空间避让配合,所述限位骨(610)与所述第二盖体(520)朝向所述第一盖体(510)的内侧表面限位接触。
- 根据权利要求1所述的电子设备,其中,所述第二盖体(520)包括悬臂式预压弹片(523),所述拨杆(530)的第二端包含朝向所述第二盖体(520)的拨杆底面,所述悬臂式预压弹片(523)与所述拨杆底面弹性接触。
- 根据权利要求1所述的电子设备,其中,所述拨杆(530)朝向所述第一盖体(510)的拨杆顶面和所述拨杆(530)朝向所述第二盖体(520)的拨杆底面中至少一者设置有第三凸包(539),所述第三凸包(539)与所述第一盖体(510)的内侧表面或所述第二盖体(520)的内侧表面滑动配合。
- 根据权利要求1所述的电子设备,其中,所述第一盖体(510)或所述第二盖体(520)设置有平衡臂(515),所述平衡臂(515)的一端与所述第一盖体(510)或所述第二盖体(520)背离所述施力部(410)或所述受力部(420)的一侧相连,所述平衡臂(515)的另一端向着远离所述第一盖体(510)或所述第二盖体(520)的方向延伸,所述平衡臂(515)与所述电路板固定连接。
- 根据权利要求1所述的电子设备,其中,所述检测部(540)包括检测弹片(541)和检测端子(542),所述检测弹片(541)的一端与所述第一盖体(510)或所述第二盖体(520)相连,所述检测弹片(541)的另一端为电连接端,所述检测端子(542)设置于所述第一盖体(510)或所述第二盖体(520),在所述卡托(400)处于装配状态的情况下,所述施力部(410)与所述检测弹片(541)接触,且驱使所述电连接端与所述检测端子(542) 分离,在所述卡托(400)处于拆卸状态的情况下,所述施力部(410)与所述电连接端分离,且所述电连接端与所述检测端子(542)电接触。
- 根据权利要求13所述的电子设备,其中,所述第二安装空间内固定有绝缘部(560),所述检测端子(542)固定在所述绝缘部(560)上,且所述检测端子(542)通过所述绝缘部(560)与所述第一盖体(510)或所述第二盖体(520)绝缘连接。
- 根据权利要求13所述的电子设备,其中,所述电连接端包括搭接段(541a)和折弯段(541b),所述折弯段(541b)朝向所述施力部(410)的方向凹陷、且所述折弯段(541b)折弯形成的凸起与所述施力部(410)相对设置,所述搭接段(541a)与所述折弯段(541b)相连,所述折弯段(541b)与所述检测端子(542)在所述折弯段(541b)的凹陷方向限位配合。
- 根据权利要求15所述的电子设备,其中,所述第一盖体(510)包括第一阻挡部(518),所述第一阻挡部(518)的一侧设置有挖空区域(519),所述挖空区域(519)与所述折弯段(541b)相对,所述第一阻挡部(518)与所述穿孔之间的距离为第一距离,所述折弯段(541b)与所述穿孔之间的距离为第二距离,所述第一距离小于所述第二距离。
- 根据权利要求16所述的电子设备,其中,所述第二盖体(520)具有第二折弯部(524),所述第二折弯部(524)朝向所述第一盖体(510)折弯,所述第二折弯部(524)朝向所述第一盖体(510)的端部与所述第一阻挡部(518)朝向所述穿孔的端部接触。
- 根据权利要求14所述的电子设备,其中,所述第一盖体(510)包括第三折弯部(5110),所述第三折弯部(5110)朝向所述第二盖体(520)折弯,且所述第三折弯部(5110)与所述第二盖体(520)焊接,所述第一盖体(510)还包括自所述第三折弯部(5110)向所述第三折弯部(5110)的一侧延伸的第一外延部(5111),所述第三折弯部(5110)与所述第一外延部(5111)形成第二阻挡部,所述第二阻挡部用于遮盖在所述绝缘部(560)朝向所述穿 孔的表面。
- 根据权利要求15所述的电子设备,其中,所述搭接段(541a)包括尖部(541a1),所述尖部(541a1)与所述检测端子(542)电接触。
- 根据权利要求1所述的电子设备,其中,所述卡托(400)包括卡托帽(400a)、卡托槽架(400b)和卡托托板(400c),所述卡托槽架(400b)支撑于所述卡托托板(400c)上,且所述卡托槽架(400b)与所述卡托托板(400c)固定相连,所述卡托帽(400a)与所述卡托槽架(400b)固定相连,所述卡托槽架(400b)和所述卡托托板(400c)均为金属结构件。
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CN112688101B (zh) * | 2020-12-15 | 2022-02-01 | 维沃移动通信有限公司 | 卡座装置及电子设备 |
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