WO2024050731A1 - 电子设备支架和电子设备壳体 - Google Patents

电子设备支架和电子设备壳体 Download PDF

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Publication number
WO2024050731A1
WO2024050731A1 PCT/CN2022/117638 CN2022117638W WO2024050731A1 WO 2024050731 A1 WO2024050731 A1 WO 2024050731A1 CN 2022117638 W CN2022117638 W CN 2022117638W WO 2024050731 A1 WO2024050731 A1 WO 2024050731A1
Authority
WO
WIPO (PCT)
Prior art keywords
rotating
electronic equipment
electronic device
folding structure
rotary
Prior art date
Application number
PCT/CN2022/117638
Other languages
English (en)
French (fr)
Inventor
杨汝锋
Original Assignee
深圳市茗康电子商务有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 深圳市茗康电子商务有限公司 filed Critical 深圳市茗康电子商务有限公司
Priority to PCT/CN2022/117638 priority Critical patent/WO2024050731A1/zh
Publication of WO2024050731A1 publication Critical patent/WO2024050731A1/zh

Links

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16MFRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
    • F16M11/00Stands or trestles as supports for apparatus or articles placed thereon ; Stands for scientific apparatus such as gravitational force meters
    • F16M11/02Heads
    • F16M11/04Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand
    • F16M11/06Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand allowing pivoting
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16MFRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
    • F16M11/00Stands or trestles as supports for apparatus or articles placed thereon ; Stands for scientific apparatus such as gravitational force meters
    • F16M11/20Undercarriages with or without wheels
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16MFRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
    • F16M11/00Stands or trestles as supports for apparatus or articles placed thereon ; Stands for scientific apparatus such as gravitational force meters
    • F16M11/20Undercarriages with or without wheels
    • F16M11/24Undercarriages with or without wheels changeable in height or length of legs, also for transport only, e.g. by means of tubes screwed into each other
    • F16M11/26Undercarriages with or without wheels changeable in height or length of legs, also for transport only, e.g. by means of tubes screwed into each other by telescoping, with or without folding
    • F16M11/28Undercarriages for supports with one single telescoping pillar
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05KPRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
    • H05K5/00Casings, cabinets or drawers for electric apparatus
    • H05K5/02Details

Definitions

  • the present application relates to the field of electronic equipment brackets, and specifically relates to an electronic equipment bracket and an electronic equipment housing.
  • the present application provides an electronic device bracket and an electronic device housing, which can solve the problem that the electronic device bracket is not stable enough when supported.
  • the first technical solution provided by this application is to provide an electronic equipment stand for supporting portable electronic equipment, including a rotating folding structure, and the rotating folding structure includes at least two coaxially arranged rotating parts,
  • the rotary folding structure has a first end and a second end in the axial direction, the first rotary member located at the first end is used to connect the portable electronic device, and the second rotary member located at the second end is used to support the electronic device holder;
  • One of the two adjacent rotating parts has a rotating track, and the other has a rotating part that cooperates with the rotating track, and the rotating track moves from a position close to the first end to a position close to the second end on the circumferential surface of the corresponding rotating part.
  • the position is set obliquely so that two adjacent rotating parts can rotate closer to and away from each other, so that the rotating folding structure can switch between the folded state and the unfolded state.
  • the rotating track is a guide groove
  • the rotating part is a protruding part
  • the protruding part is engaged in the guide groove
  • the guide groove has a first snap-in end, a second snap-in end and a guide part; the first snap-in end is close to the first end of the rotary folding structure, and the second snap-in end is away from the third end of the rotary folding structure.
  • One end; the guide portion connects the first snap-in end and the second snap-in end; both the first snap-in end and the second snap-in end extend along the circumferential direction of the rotating member, and the rotating guide portion extends obliquely from the first snap-in end to The second card terminal.
  • the rotating part is an internal thread
  • the rotating track is an external thread
  • the internal thread matches the corresponding external thread
  • the shape of the rotating member is a hollow tube, and the shape and extension direction of each rotating track are the same.
  • the outer diameter of the rotating part close to the first end is larger than the outer diameter of the rotating part far away from the first end; and the rotating part close to the first end is at least partially nested on the outer periphery of the rotating member away from the first end.
  • the length of each rotating member in the axial direction is the same.
  • the electronic device holder further includes a connecting piece, which is used to connect the portable electronic device.
  • the connecting piece is fixedly connected to the first rotating piece, or the connecting piece is integrally formed with the first rotating piece.
  • the electronic equipment stand further includes a support member, the support member is used to support the electronic equipment stand, and the support member is fixedly connected to the second rotating member, or the support member is integrally formed with the second rotating member.
  • the second technical solution provided by this application is to provide an electronic equipment housing, which includes a housing and the above-mentioned electronic equipment stand.
  • the housing is used to accommodate portable electronic equipment, and the electronic equipment stand is located on the housing. superior.
  • the electronic equipment stand includes a rotating folding structure
  • the rotating folding structure includes at least two coaxially arranged rotating parts
  • the rotating folding structure has a first end and a second end in the axial direction. end, the first rotating member located at the first end is used to connect the portable electronic device, and the second rotating member located at the second end is used to support the electronic device holder. Therefore, the rotating folding structure can support the portable electronic device.
  • the rotating folding structure has a folded state and an unfolded state, which enables the electronic device holder to be unfolded when in use to support the electronic device; and folded when not in use for easy portability.
  • At least one of the two adjacent rotating parts has a rotating track, and the other has a rotating part that cooperates with the rotating track, and the rotating track moves from a position close to the first end to a position close to the second end on the circumferential surface of the corresponding rotating part.
  • the position of the end is tilted so that two adjacent rotating parts can rotate closer to and away from each other, so that the rotating folding structure can switch between the folded state and the unfolded state.
  • the rotating folding structure in the unfolded state needs to be subjected to a force in the rotation direction (force along the circumferential direction) to change to the folded state, so that the electronic device holder is not easily deformed due to collision (force along the axial direction) during use.
  • the state shrinks or changes to the folded state, thereby making the electronic device stand more stable when supporting the electronic device in the unfolded state.
  • Figure 1 is a schematic structural diagram of an electronic device stand in a folded state according to an embodiment of the present application
  • Figure 2 is a schematic structural diagram of the electronic device holder of Figure 1 in an unfolded state
  • Figure 3 is a schematic diagram of the exploded structure of the electronic equipment bracket of Figure 2;
  • Figure 4 is a schematic structural diagram of the third rotating member in Figure 3
  • Figure 5 is a schematic structural diagram of another electronic device bracket provided by the present application in a folded state
  • Figure 6 is a schematic structural diagram of the electronic device holder of Figure 5 in an unfolded state
  • FIG. 7 is an exploded structural diagram of the electronic equipment bracket of FIG. 6 .
  • connection and “connection” mentioned in this application include direct and indirect connections (connections) unless otherwise specified.
  • FIG. 1 is a schematic structural diagram of the electronic device holder in a folded state according to an embodiment of the present application.
  • FIG. 2 is a schematic structural diagram of the electronic device holder of FIG. 1 in an unfolded state.
  • the present application provides an electronic device stand 10, which is used to support portable electronic devices.
  • the portable electronic device may be, for example, a mobile phone, a tablet computer, an e-reader and other movable electronic devices.
  • the electronic device stand 10 includes a rotating folding structure 11.
  • the rotating folding structure 11 includes at least two coaxially arranged rotating parts 111. As shown in FIGS. 1 and 2, the rotating folding structure 11 has a first end 11a and a third end in the axial direction. Two ends 11b.
  • the first rotating member 1111 located at the first end 11a is used to connect a portable electronic device.
  • the first rotating member 1111 may be an end surface away from the second end 11b of the rotating folding structure 11 and is used to connect a portable electronic device. In other embodiments, , the first rotating member 1111 may also be on other surfaces for connecting portable electronic devices.
  • the first rotating member 1111 may be directly connected to the portable electronic device, for example, by adhesion, snapping or magnetic adsorption.
  • the first rotating member 1111 may also be indirectly connected to the portable electronic device.
  • the electronic device stand 10 further includes a connector 12 , and the connector 12 is used to connect a portable electronic device.
  • the connector 12 can be directly connected to the portable electronic device, such as by adhesion, snapping or magnetic adsorption; it can also be indirectly connected, for example, the connector 12 can be directly connected to the casing, and the casing is used to accommodate the portable electronic device. equipment.
  • the connecting member 12 can be disposed on the end surface of the first rotating member 1111 away from the second end 11 b of the rotating folding structure 11 , and the central axis of the connecting member 12 can be coaxially disposed with the rotating folding structure 11 .
  • the connecting piece 12 may not be coaxially arranged with the rotating folding structure 11 .
  • the connecting piece 12 and the first rotating piece 1111 can be fixedly connected.
  • the connecting member 12 can be fixedly connected to the end surface of the first rotating member 1111 away from the second end 11 b of the rotating folding structure 11 .
  • the fixed connection method may be bonding; or, one of the connecting member 12 and the first rotating member 1111 has a groove, and the other has a snap-in part that snaps into the groove, and the groove snaps into the snap-in part;
  • one of the connecting member 12 and the first rotating member 1111 is made of magnetic material, and the other is made of iron or magnetic material, and the connecting member 12 and the first rotating member 1111 are magnetically attracted.
  • the method of fixed connection between the connecting member 12 and the first rotating member 1111 is not limited to the above-mentioned ones, and may also be other fixed methods.
  • the connecting member 12 is integrally formed with the first rotating member 1111 , and the connecting member 12 is located on the end surface of the first rotating body away from the second end 11 b of the rotating folding structure 11 .
  • the integrally formed connecting member 12 and the first rotating member 1111 have higher structural strength and simplify the manufacturing process.
  • the shape of the connecting piece 12 may be disc-shaped, plate-shaped, shell-shaped, etc.
  • the connector 12 is in the shape of a disk; in one embodiment, the connector 12 is in the shape of a shell, and the connector 12 has a receiving cavity, and the receiving cavity is used to accommodate portable electronic devices. Equipment; the shape of the receiving cavity can match the shape and size of the portable electronic device being accommodated.
  • the opening of the receiving cavity faces the side of the connecting member 12 away from the first rotating member 1111, so that the rotating folding structure 11 can be disposed on the back of the portable electronic device (not the back of the display screen) to facilitate the electronic device stand 10 to support the portable electronic device.
  • the size and shape of the connector 12 can be adjusted according to portable electronic devices of different sizes and shapes, making it easier to connect the rotary folding structure 11 to the portable electronic device using a more appropriate connection method.
  • the second rotating member 1112 located at the second end 11 b of the rotating folding structure 11 is used to support the electronic device stand 10 .
  • the first rotating member 1111 is connected to the back of the portable electronic device, and the second rotating member 1112 is placed on the placement platform to support the electronic device stand 10 and the portable electronic device.
  • the electronic device stand 10 further includes a support member 13 , and the support member 13 is used to support the electronic device stand 10 .
  • the support member 13 can be disposed on the end surface of the second rotating member 1112 away from the first end 11a of the rotating folding structure 11.
  • the central axis of the supporting member 13 can coincide with the central axis of the rotating folding structure 11; of course, the central axis of the supporting member 13 can also be It may not coincide with the central axis of the rotating folding structure 11 .
  • the support member 13 can be fixedly connected to the second rotating member 1112, for example, by bonding, snapping, magnetic adsorption, etc.
  • the specific fixed connection method please refer to the connector mentioned above.
  • the manner in which 12 is fixedly connected to the first rotating member 1111 will not be described again here.
  • the support member 13 and the second rotating member 1112 are integrally formed.
  • the support member 13 may be located on an end surface of the second rotating body away from the first end 11 a of the rotating folding structure 11 .
  • the integrally formed support member 13 and the second rotating body have higher structural strength and simplify the manufacturing process.
  • the shape of the support member 13 may be disc-shaped, plate-shaped, rotating ring, etc.
  • the shape of the support member 13 is disc-shaped, and the diameter of the disc-shaped support member 13 is smaller than the diameter of the disc-shaped connecting member 12 , which facilitates the user to rotate the support member 13 by rotating it.
  • the outer diameter of the disc-shaped support member 13 is larger than the outer diameter of the second rotary member 1112, so that the user can more easily pass the rotary support member 13 and thereby rotate the second rotary member 1112.
  • the diameter of the supporting member 13 may also be equal to or larger than the diameter of the connecting member 12 .
  • the supporting member 13 in the electronic device holder 10 Compared with the solution of directly supporting the electronic device holder 10 through the second rotating member 1112 and rotating the rotating folding structure 11 by rotating the second rotating member 1112, by arranging the supporting member 13 in the electronic device holder 10, not only the electronic device can be
  • the supporting surface of the bracket 10 is wider and the support is more stable, and the rotation of the rotating and folding structure 11 through the rotating support member 13 is more convenient for the user to operate and improves the user experience.
  • FIG. 3 is an exploded structural diagram of the electronic equipment bracket 10 of FIG. 2 .
  • one of the two adjacent rotating parts 111 has a rotating track 112, and the other has a rotating part 113 that matches the rotating track 112, so that the two adjacent rotating parts 111 can Connection and rotation are achieved through the cooperation of the rotating track 112 and the rotating part 113 .
  • the rotating track 112 and the rotating part 113 may be engaged in a snap-fitting manner, a tight fit, etc.
  • the first rotating member 1111 may have a rotating track 112 that cooperates with the adjacent rotating member 111, but does not have a rotating part 113, or the first rotating member 1111 may have a rotating track 112 that cooperates with the adjacent rotating member 111.
  • the rotating part 113 is fitted, but does not have a rotating track 112 .
  • the second rotating part 1112 has a rotating part 113 that cooperates with the adjacent rotating part 111, but does not have a rotating track 112, or the second rotating part 1112 has a rotating track 112 that cooperates with the adjacent rotating part 111, but does not have a rotating track 112.
  • Rotating part 113 Each rotating piece 111 between the first end 11a and the second end 11b of the rotating folding structure 11 has a rotating track 112 and/or a rotating part 113 that cooperates with the two adjacent rotating pieces 111 respectively.
  • the rotating part 111 closer to the first end 11 a has a rotating track 112
  • the other rotating part 111 has a rotating part 113 that cooperates with the rotating track 112 .
  • FIG. 2 and FIG. 3 there are five coaxially arranged rotating parts 111 in the rotating folding structure 11 , and the five rotating parts 111 are connected in turn through corresponding rotating tracks 112 and rotating parts 113 .
  • a first rotating track 112 is provided on the side wall of the lowermost first rotating member 1111 shown in the figure.
  • a third rotating member 1113 that is connected to the first rotating member 1111 is provided with a third rotating member 1113 that cooperates with the first rotating track 112 on its outer surface.
  • a rotating part 113 is provided.
  • the third rotating member 1113 is provided with a second rotating track 112, and the outer surface of the fourth rotating member 1114 connected to the third rotating member 1113 is provided with a second rotating portion 113 that cooperates with the second rotating track 112;
  • the fourth rotating member 1114 is provided with a third rotating track 112, and the outer surface of the fifth rotating member 1115 connected to the fourth rotating member 1114 is provided with a third rotating portion 113 that cooperates with the fourth rotating track 112;
  • the member 1115 is provided with a fourth rotating track 112, and the outer surface of the second rotating member 1112 connected to the fifth rotating member 1115 is provided with a fourth rotating portion 113 that cooperates with the fourth rotating track 112.
  • two adjacent rotating parts 111 can be formed between the five rotating parts 111 to cooperate and rotate with each other.
  • the arrangement of the rotating track 112 and the rotating part 113 between the plurality of rotating parts 111 is not limited to the arrangement mentioned in the above embodiment.
  • it may also be: among two adjacent rotating parts 111, more The rotating part 111 close to the second end 11b has a rotating track 112, and the other rotating part 111 has a rotating part 113 that cooperates with the rotating track 112.
  • the rotating track 112 is inclined on the peripheral surface of the corresponding rotating member 111 from a position close to the first end 11 a of the rotating folding structure 11 to a position close to the second end 11 b of the rotating folding structure 11 .
  • the arrangement can enable two adjacent rotating parts 111 to not only rotate relative to each other, but also to move closer and farther away from each other while rotating.
  • the rotary folding structure 11 has a folded state and an unfolded state, and the rotary folding structure 11 can switch between the folded state and the unfolded state.
  • the expanded state also includes a semi-expanded state and a fully expanded state.
  • Figure 1 is a schematic diagram of the rotating folding structure 11 in a folded state
  • Figure 2 is a schematic diagram of the rotating folding structure 11 when it is fully unfolded.
  • the rotating folding structure 11 When the two adjacent rotating parts 111 in the rotating folding structure 11 rotate to the closest distance to each other, the rotating folding structure 11 is in the folded state; when the two adjacent rotating parts 111 in the rotating folding structure 11 rotate to the closest distance to each other.
  • the rotating folding structure 11 is in a fully unfolded state; when there are two adjacent rotating parts 111 in the rotating folding structure 11 that have not rotated to the farthest distance and are not in the folded state, the rotating folding structure 11 is in a half-folded state. expanded state.
  • rotating the second rotating member 1112 can switch the state of the rotating folding structure 11 .
  • the rotating folding structure 11 changes from the folded state to the semi-expanded state, and each rotating member in the direction from the second end 11b to the first end 11a 111 rotate away from each other in sequence; when the second rotating member 1112 rotates in the first direction to a maximum angle (the maximum angle is determined by the number of rotating members 111 and the length of the rotating track 112 ), the rotating folding structure 11 is fully unfolded.
  • the rotating folding structure 11 When the rotating folding structure 11 is in a fully unfolded state, the second rotating member 1112 rotates in the second direction, and the rotating folding structure 11 changes from a fully unfolded state to a semi-expanded state, and each direction from the second end 11b to the first end 11a
  • the rotating members 111 rotate closer to each other in sequence.
  • the rotating folding structure 11 changes from the unfolded state to the folded state, and the second direction is opposite to the first direction.
  • the first direction and the second direction are clockwise or counterclockwise. When the first direction is clockwise, the second direction is counterclockwise. When the first direction is counterclockwise, the second direction is clockwise.
  • the rotary folding structure 11 By arranging the rotary folding structure 11, the rotary folding structure 11 has a folded state and an unfolded state, so that the electronic device holder 10 can be unfolded when in use to support the portable electronic device; folded when not in use, the volume is reduced and is convenient for the user to carry. Improved user experience.
  • the rotating folding structure 11 in the unfolded state needs to be subjected to a force in the rotation direction (force along the circumferential direction) in order to change to the folded state, so that the electronic device holder 10 is not susceptible to collision (force along the axial direction) when in use. It is easy to contract or change from the unfolded state to the folded state, thereby making the electronic device stand 10 more stable when supporting the electronic device in the expanded state.
  • the shape of the rotating part 113 of each rotating part 111 may be the same, and the shape and extension direction of the rotating track 112 may be the same; the shapes of the rotating part 113 and the rotating track 112 of each rotating part 111 may not be exactly the same, or may be completely different. They are not the same, and the extension directions of the rotation tracks 112 of each rotating member 111 may not be exactly the same. It only needs to be satisfied that the rotating folding structure 11 can realize the above-mentioned switching between the folded state, the semi-expanded state and the fully expanded state.
  • FIG. 4 is a schematic structural diagram of the third rotating member 1113 in FIG. 3 .
  • the rotating track 112 is a guide groove 114
  • the rotating part 113 is a protruding part 115
  • the protruding part 115 is engaged in the guide groove 114. That is, the rotating track 112 and the rotating part 113 are engaged in a snap-fit manner.
  • the guide groove 114 may be a groove penetrating the side wall of the rotating member 111 .
  • the shape of the rotating track 112 and the rotating part 113 is the guide groove 114 and the protruding part 115 respectively, which has a simple structure and facilitates production.
  • the guide groove 114 has a snap-in end that enables the protrusion 115 to snap into place. Please refer to FIGS. 1 to 4 .
  • the guide groove 114 has a first clamping end 1141 , a second clamping end 1142 and a guide portion 1143 .
  • the first clamping end 1141 is provided close to the first end 11 a of the rotating folding structure 11
  • the second clamping end 1142 is arranged close to the second end 11 b of the rotating folding structure 11
  • the guide portion 1143 connects the first clamping end 1141 and the second clamping end 1141 . Terminal 1142.
  • the first clamping end 1141 extends circumferentially at the same height along the axial direction of the rotating member 111
  • the second clamping end 1142 extends circumferentially at the same height along the axial direction of the rotating member 111
  • the guide portion 1143 extends from the first The clamping end 1141 extends to the second clamping end 1142 . Therefore, in FIGS. 1 to 3 , when two adjacent rotary members 111 are folded, the protruding portion 115 can be locked in the first clamping end 1141 , and during the process of rotating, unfolding or folding, the protruding portion 115 can be By moving along the guide portion 1143, the protruding portion 115 can be engaged in the second engaging end 1142 when fully deployed.
  • FIG. 5 is a schematic structural diagram of another electronic device holder 10 provided by the present application in a folded state.
  • FIG. 6 is a schematic diagram of the electronic device holder 10 of FIG. 5 in an unfolded state.
  • 7 is an exploded structural schematic diagram of the electronic equipment bracket 10 of FIG. 6 .
  • the rotating part 113 is an internal thread 117
  • the rotating track 112 is an external thread 116
  • the internal thread 117 matches the corresponding external thread 116 .
  • the first rotating member 1111 has an internal thread 117 that cooperates with the corresponding rotating member 111 , but does not have an internal thread 117
  • the second rotating member 1112 has an internal thread that cooperates with the corresponding rotating member 111 .
  • the three rotating parts 111 between the first rotating part 1111 and the second rotating part 1112 all have internal threads 117 and external threads 116 that cooperate with the corresponding rotating parts 111 .
  • the matching structure of the internal thread 117 and the external thread 116 is simple and easy to produce and process.
  • the number of the rotating track 112 and the rotating part 113 may be one, or there may be more than one.
  • the number of rotating rails 112 and rotating parts 113 is two, and the two rotating rails 112 / the two rotating parts 113 are arranged oppositely. on the side wall of the rotating member 111.
  • the two adjacent rotating parts 111 have one rotating track 112 and one rotating part 113 .
  • the shapes and numbers of the rotating tracks 112 and the rotating parts 113 are not limited to the shapes and numbers mentioned in the above embodiments, and may also be other shapes and numbers.
  • the shape of the rotating member 111 may be a hollow tube, and two adjacent rotating members 111 are nested with each other.
  • the two adjacent rotating parts 111 are nested with each other so that when the two adjacent rotating parts 111 rotate close to each other, one of the rotating parts 111 can be gradually accommodated in the tube of the other rotating part 111 .
  • the outer diameter of the rotating part 111 close to the first end 11 a is larger than the outer diameter of the rotating part 111 far away from the first end 11 a.
  • At least part of the rotating member 111 of the first end 11a is sleeved on the outer periphery of the rotating member 111 away from the first end 11a.
  • the outer diameter of the rotating part 111 close to the first end 11a is smaller than the outer diameter of the rotating part 111 far away from the first end 11a
  • the outer diameter of the rotating part 111 close to the second end 11b is at least It is partially sleeved on the outer periphery of the rotating member 111 away from the second end 11b, so that when the rotating folding structure 11 is in the folded state, each rotating member 111 can be received in the second rotating member 1112.
  • the outer diameter of the first rotating member 1111 in the scheme in which each rotating member 111 is accommodated in the first rotating member 1111 is larger, which is similar to that of the portable electronic device.
  • the contact surface is larger and the connection effect is better.
  • the length of each rotating member 111 along the axial direction is the same. Therefore, in the folded state, all the rotating parts 111 can be accommodated in the same rotating part 111 .
  • the length of each rotating member 111 along the axial direction may also be different, as long as each rotating member 111 can all be accommodated in the same rotating member 111 .
  • This application also provides an electronic device housing, which includes a housing and an electronic device stand 10 related to any of the above embodiments.
  • the housing is used to accommodate portable electronic equipment, and the electronic device stand 10 is provided on the housing.
  • the electronic device bracket 10 may be disposed on an outer side of the housing facing away from the portable electronic device.
  • the structure and function of the electronic device bracket 10 in the electronic device housing can also be referred to the electronic device bracket 10 involved in any of the above embodiments, and can achieve the same or similar technical effects, which will not be described again here.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Telephone Set Structure (AREA)
  • Casings For Electric Apparatus (AREA)

Abstract

一种电子设备支架(10)和电子设备壳体,电子设备支架(10)用于支撑便携式电子设备,包括旋转折叠结构(11),旋转折叠结构(11)包括至少两个同轴设置的旋转件(111),旋转折叠结构(11)于轴向方向具有第一端(11a)和第二端(11b),位于第一端(11a)的第一旋转件(1111)用于连接便携式电子设备,位于第二端(11b)的第二旋转件(1112)用于支撑电子设备支架;相邻的两个旋转件中(111)的一个旋转件具有旋转轨道(112),另一个具有与旋转轨道配合(112)的旋转部(113),且旋转轨道(112)在对应旋转件的周面上自靠近第一端(11a)的位置向靠近第二端(11b)的位置倾斜设置,以使相邻两个旋转件(111)之间能够相互旋转地靠近和远离,使旋转折叠结构(11)在折叠状态和展开状态之间切换。该电子设备支架和电子设备壳体支撑电子设备时更加稳定。

Description

电子设备支架和电子设备壳体 技术领域
本申请涉及电子设备支架领域,具体涉及一种电子设备支架和电子设备壳体。
背景技术
在日常生活中,通过手机、平板电脑、电子阅读器等便携式电子设备看文章或视频已成为人们普遍的习惯。在用这些便携式电子设备观看文章或视频时,长时间用手托举不仅不方便,对眼部和肩颈都会产生负担,长此以往不利于健康,电子设备支架可以很好地解决这个问题,极大地方便了我们的生活。
然而,现有的电子设备支架通常都是沿轴向伸缩和展开,因此在支撑电子设备时不够稳定,在使用时很容易受到沿轴向向内的外力而从展开状态变为收缩状态,用户需要重新支撑起电子设备支架使用,用户体验感较差。
技术问题
本申请提供一种电子设备支架和电子设备壳体,该电子设备支架和电子设备壳体可以解决电子设备支架在支撑时不够稳定的问题。
技术解决方案
为解决上述技术问题,本申请提供的第一个技术方案为:提供一种电子设备支架,用于支撑便携式电子设备,包括旋转折叠结构,旋转折叠结构包括至少两个同轴设置的旋转件,旋转折叠结构于轴向方向具有第一端和第二端,位于第一端的第一旋转件用于连接便携式电子设备,位于第二端的第二旋转件用于支撑电子设备支架;
相邻的两个旋转件中的一个旋转件具有旋转轨道,另一个具有与旋转轨道配合的旋转部,且旋转轨道在对应旋转件的周面上自靠近第一端的位置向靠近第二端的位置倾斜设置,以使相邻两个旋转件之间能够相互旋转地靠近和远离,使旋转折叠结构在折叠状态和展开状态之间切换。
在一种实施例中,旋转轨道为导向槽,旋转部为凸起部,凸起部卡接于导向槽中。
在一种实施例中,导向槽具有第一卡接端、第二卡接端以及导向部;第一卡接端靠近旋转折叠结构的第一端,第二卡接端远离旋转折叠结构的第一端;导向部连接第一卡接端和第二卡接端;第一卡接端和第二卡接端均沿旋转件的周向延伸,旋转导向部自第一卡接端倾斜延伸至第二卡接端。
在一种实施例中,旋转部为内螺纹,旋转轨道为外螺纹,内螺纹与相应的外螺纹相匹配。
在一种实施例中,旋转件的形状为中空管状,且每个旋转轨道的形状和延伸方向相同。
在一种实施例中,相邻的两个旋转件中,靠近第一端的旋转件的外径大于远离第一端的旋转件的外径;且靠近第一端的旋转件至少部分套设于远离第一端的旋转件的外周。
在一种实施例中,每个旋转件的沿轴向方向的长度相同。
在一种实施例中,电子设备支架还包括连接件,连接件用于连接便携式电子设备,连接件与第一旋转件固定连接,或者连接件与第一旋转件一体成型。
在一种实施例中,电子设备支架还包括支撑件,支撑件用于支撑电子设备支架,支撑件与第二旋转件固定连接,或者支撑件与第二旋转件一体成型。
为解决上述技术问题,本申请提供的第二个技术方案为:提供一种电子设备壳体,包括外壳和上述所涉及的电子设备支架,外壳用于容纳便携式电子设备,电子设备支架设于外壳上。
有益效果
本申请的电子设备支架和电子设备壳体中,电子设备支架包括旋转折叠结构,旋转折叠结构包括至少两个同轴设置的旋转件,且旋转折叠结构于轴向方向具有第一端和第二端,位于第一端的第一旋转件用于连接便携式电子设备,位于第二端的第二旋转件用于支撑电子设备支架,由此,旋转折叠结构能够实现支撑便携式电子设备。旋转折叠结构具有折叠状态和展开状态,能使电子设备支架在使用时展开,支撑电子设备;在停止使用时折叠,以便于携带。
相邻的两个旋转件中的至少一个旋转件具有旋转轨道,另一个具有与旋转轨道配合的旋转部,且旋转轨道在对应旋转件的周面上自靠近第一端的位置向靠近第二端的位置倾斜设置,以使相邻两个旋转件之间能够相互旋转地靠近和远离,使旋转折叠结构在折叠状态和展开状态之间切换。处于展开状态的旋转折叠结构需要受到旋转方向的力(沿周向方向的力)才能变为折叠状态,使得电子设备支架在使用时不容易因受到碰撞(沿轴向方向的力)而从展开状态收缩或者变为折叠状态,进而使电子设备支架在展开状态下支撑电子设备时更加稳定。
附图说明
图1为本申请一实施例提供的电子设备支架在折叠状态时的结构示意图;
图2为图1的电子设备支架在展开状态时的结构示意图;
图3为图2的电子设备支架的爆炸结构示意图;
图4为图3中第三旋转件的结构示意图
图5为本申请提供的另一电子设备支架的在折叠状态时的结构示意图;
图6为图5的电子设备支架在展开状态时的结构示意图;
图7为图6的电子设备支架的爆炸结构示意图。
本发明的实施方式
下面通过具体实施方式结合附图对本申请作进一步详细说明。其中不同实施方式中类似元件采用了相关联的类似的元件标号。在以下的实施方式中,很多细节描述是为了使得本申请能被更好的理解。然而,本领域技术人员可以毫不费力的认识到,其中部分特征在不同情况下是可以省略的,或者可以由其他元件、材料、方法所替代。在某些情况下,本申请相关的一些操作并没有在说明书中显示或者描述,这是为了避免本申请的核心部分被过多的描述所淹没,而对于本领域技术人员而言,详细描述这些相关操作并不是必要的,他们根据说明书中的描述以及本领域的一般技术知识即可完整了解相关操作。
另外,说明书中所描述的特点、操作或者特征可以以任意适当的方式结合形成各种实施方式,各实施例所涉及的操作步骤也可以按照本领域技术人员所能显而易见的方式进行顺序调换或调整。因此,说明书和附图只是为了清楚描述某一个实施例,并不意味着是必须的组成和/或顺序。
本文中为部件所编序号本身,例如“第一”、“第二”等,仅用于区分所描述的对象,不具有任何顺序或技术含义。而本申请所说“连接”、“联接”,如无特别说明,均包括直接和间接连接(联接)。
请参考图1和图2,图1为本申请一实施例提供的电子设备支架在折叠状态时的结构示意图,图2为图1的电子设备支架在展开状态时的结构示意图。本申请提供了一种电子设备支架10,该电子设备支架10用于支撑便携式电子设备。其中,便携式电子设备例如可以是手机、平板电脑、电子阅读器等可移动式电子设备。
电子设备支架10包括旋转折叠结构11,旋转折叠结构11包括至少两个同轴设置的旋转件111,如图1和图2所示,旋转折叠结构11于轴向方向具有第一端11a和第二端11b。位于第一端11a的第一旋转件1111用于连接便携式电子设备,具体地,第一旋转件1111可以是远离旋转折叠结构11第二端11b的端面用于连接便携式电子设备,在其他实施例中,第一旋转件1111也可以是其他的面用于连接便携式电子设备。
第一旋转件1111与便携式电子设备可以是直接连接,例如粘接、卡接或磁性吸附等直接连接的方式。
第一旋转件1111与便携式电子设备也可以是间接连接。在一种实施例中,请参考图1和图2,电子设备支架10还包括连接件12,连接件12用于连接便携式电子设备。连接件12可以与便携式电子设备直接连接,例如粘接、卡接或磁性吸附等直接连接的方式;也可以是间接连接,例如可以是连接件12直接连接于外壳上,外壳用于收容便携式电子设备。
在一种实施例中,连接件12可以设于第一旋转件1111远离旋转折叠结构11的第二端11b的端面上,且连接件12的中轴可以与旋转折叠结构11同轴设置,当然,连接件12也可以不与旋转折叠结构11同轴设置。
连接件12与第一旋转件1111可以固定连接。具体地,连接件12可以固定连接于第一旋转件1111远离旋转折叠结构11的第二端11b的端面上。固定连接方式可以是粘接;或者,连接件12和第一旋转件1111中的一个具有凹槽,另一个具有与凹槽相卡接的卡接部,凹槽与卡接部相卡接;或者,连接件12和第一旋转件1111中的一个的材料为磁性材料,另一个为铁或者磁性材料,连接件12和第一旋转件1111磁性吸附。连接件12与第一旋转件1111的固定连接的方式不限于以上提到的几种,也可以是其他的固定方式。
在一种实施例中,如图1和图2的实施例,连接件12与第一旋转件1111一体成型,连接件12位于第一旋转体远离旋转折叠结构11的第二端11b的端面上。一体成型的连接件12和第一旋转件1111的结构强度更高,且简化了制造工艺。
连接件12的形状可以是圆盘状、板状、壳体状等。图1和图2的实施例中,连接件12的形状为圆盘状;在一种实施例中,连接件12为壳体状,且连接件12具有收容腔,收容腔用于收容便携式电子设备;收容腔的形状可以和被收容的便携式电子设备的形状、大小相匹配。收容腔的开口朝向连接件12背离第一旋转件1111的一侧,以使旋转折叠结构11可以设于便携式电子设备的背面(非显示屏的背面),便于电子设备支架10支撑便携式电子设备。
通过在电子设备支架10中设置连接件12,可以根据不同大小、形状的便携式电子设备调整连接件12的大小和形状,便于旋转折叠结构11与便携式电子设备使用更合适的连接方式连接。
请参考图2,位于旋转折叠结构11的第二端11b的第二旋转件1112用于支撑电子设备支架10。通常,第一旋转件1111连接于便携式电子设备的背面,第二旋转件1112置于放置台上,以支撑电子设备支架10以及便携式电子设备。
在一种实施例中,如图1和图2,电子设备支架10还包括支撑件13,支撑件13用于支撑电子设备支架10。支撑件13可以设于第二旋转件1112远离旋转折叠结构11的第一端11a的端面上,支撑件13的中轴可以与旋转折叠结构11的中轴重合;当然支撑件13的中轴也可以不与旋转折叠结构11的中轴重合。
其中,图1和图2的实施例中,支撑件13可以与第二旋转件1112固定连接,例如可以是粘接、卡接、磁性吸附等方式,具体的固定连接方式可参考上文中连接件12与第一旋转件1111固定连接的方式,在此不再赘述。
在一种实施例中,支撑件13与第二旋转件1112一体成型。支撑件13可以位于第二旋转体远离旋转折叠结构11的第一端11a的端面上。一体成型的支撑件13和第二旋转体的结构强度更高,且简化了制造工艺。
支撑件13的形状可以是圆盘状、板状、旋转环等。图1和图2的实施例中,支撑件13的形状为圆盘状,且圆盘状的支撑件13的直径小于圆盘状的连接件12的直径,便于用户通过旋转支撑件13进而旋转旋转折叠结构11,优选地,圆盘状的支撑件13的外径大于第二旋转件1112的外径,便于用户能更轻松地通过旋转支撑件13,从而转动第二旋转件1112。在其他实施例中,支撑件13的直径也可以等于或者大于连接件12的直径。
相比于直接通过第二旋转件1112支撑电子设备支架10,以及通过旋转第二旋转件1112使旋转折叠结构11转动的方案,通过在电子设备支架10中设置支撑件13,不仅能使电子设备支架10的支撑面更广,支撑更稳定,并且通过旋转支撑件13使旋转折叠结构11转动的方式更便于用户操作,提升了用户使用体验。
请参考图1至图3,图3为图2的电子设备支架10的爆炸结构示意图。旋转折叠结构11中,相邻的两个旋转件111中的一个旋转件111具有旋转轨道112,另一个具有与旋转轨道112相配合的旋转部113,以使相邻的两个旋转件111能通过旋转轨道112以及旋转部113的配合实现连接和旋转。其中,旋转轨道112和旋转部113相配合的方式可以是卡接,紧密配合等。
在一种实施例中,可以是第一旋转件1111具有与相邻的旋转件111配合的旋转轨道112,但不具有旋转部113,或是第一旋转件1111具有与相邻的旋转件111配合的旋转部113,但不具有旋转轨道112。第二旋转件1112具有与相邻的旋转件111配合的旋转部113,但不具有旋转轨道112,或是第二旋转件1112具有与相邻的旋转件111配合的旋转轨道112,但不具有旋转部113。于旋转折叠结构11的第一端11a和第二端11b中间的每个旋转件111,具有分别与相邻的两个旋转件111配合的旋转轨道112和/或旋转部113。
在一种实施例中,相邻的两个旋转件111中,更靠近第一端11a的旋转件111具有旋转轨道112,另一个旋转件111具有与旋转轨道112配合的旋转部113。
如图2和图3的实施例所示,旋转折叠结构11中有五个同轴设置的旋转件111,五个旋转件111依次通过相应的旋转轨道112和旋转部113配合连接。图示最下方的第一旋转件1111的侧壁上开设有第一旋转轨道112,与第一旋转件1111连接的第三旋转件1113的外侧面上设置有与第一旋转轨道112配合的第一旋转部113。同样地,第三旋转件1113上开设有第二旋转轨道112,与第三旋转件1113连接的第四旋转件1114的外侧面上设置有与第二旋转轨道112配合的第二旋转部113;第四旋转件1114上开设有第三旋转轨道112,与第四旋转件1114连接的第五旋转件1115的外侧面上设置有与第四旋转轨道112配合的第三旋转部113;第五旋转件1115上开设有第四旋转轨道112,与第五旋转件1115连接的第二旋转件1112的外侧面上设置有与第四旋转轨道112配合的第四旋转部113。
通过上述的方式,五个旋转件111之间可以形成相邻两个旋转件111彼此配合并转动。在其他实施例中,多个旋转件111之间的旋转轨道112和旋转部113的设置不限于上述实施例提到的设置方式,例如也可以是:相邻的两个旋转件111中,更靠近第二端11b的旋转件111具有旋转轨道112,另一个旋转件111具有与旋转轨道112配合的旋转部113。
请参考图1至图3,旋转轨道112在对应旋转件111的周面上自靠近旋转折叠结构11的第一端11a的位置向靠近旋转折叠结构11的第二端11b的位置倾斜设置,这样的设置可以使得相邻的两个旋转件111之间不仅能相对旋转,还能在旋转的同时相互靠近和远离。根据各个旋转件111的位置,旋转折叠结构11具有折叠状态和展开状态,旋转折叠结构11能在折叠状态和展开状态之间切换。展开状态还包括半展开状态和完全展开状态。
具体地,请参考图1和图2,图1为旋转折叠结构11为折叠状态的示意图,图2为旋转折叠结构11为完全展开时的示意图。当旋转折叠结构11中相邻的两个旋转件111均相互旋转靠近至最近距离时,旋转折叠结构11为折叠状态;当旋转折叠结构11中相邻的两个旋转件111均相互旋转至最远距离时,旋转折叠结构11为完全展开状态;当旋转折叠结构11中存在相邻的两个旋转件111未旋转至最远距离,且不属于折叠状态的情况时,旋转折叠结构11为半展开状态。
其中,旋转第二旋转件1112可以切换旋转折叠结构11的状态。当旋转折叠结构11处于折叠状态时,第二旋转件1112沿第一方向旋转时,旋转折叠结构11由折叠状态转变为半展开状态,从第二端11b至第一端11a的方向各个旋转件111依次相互旋转地远离;当第二旋转件1112沿第一方向旋转至最大角度(该最大角度由旋转件111的数量以及旋转轨道112的长度而定)时,旋转折叠结构11完全展开。
当旋转折叠结构11为完全展开状态时,第二旋转件1112沿第二方向旋转,旋转折叠结构11由完全展开状态转变为半展开状态,且从第二端11b至第一端11a的方向各个旋转件111依次相互旋转地靠近。当第二旋转件1112沿第二方向旋转至最大角度,旋转折叠结构11由展开状态转变为折叠状态,第二方向与第一方向相反。其中,第一方向和第二方向为顺时针或者逆时针,当第一方向为顺时针时,第二方向为逆时针,当第一方向为逆时针时,第二方向为顺时针。
通过设置旋转折叠结构11,旋转折叠结构11具有折叠状态和展开状态,能使电子设备支架10在使用时展开,支撑便携式电子设备;在停止使用时折叠,减小了体积,以便于用户携带,提升了用户的使用体验。
此外,处于展开状态的旋转折叠结构11需要受到旋转方向的力(沿周向方向的力)才能变为折叠状态,使得电子设备支架10在使用时不容易受到碰撞(沿轴向方向的力)就很容易从展开状态收缩或者变为折叠状态,进而使电子设备支架10在展开状态下支撑电子设备时更加稳定。
其中,各个旋转件111的旋转部113的形状可以均相同,旋转轨道112的形状和延伸方向可以均相同;各个旋转件111的旋转部113和旋转轨道112的形状也可以不完全相同,或者完全不相同,各个旋转件111的旋转轨道112的延伸方向也可以不完全相同。只需要满足旋转折叠结构11能实现上述的折叠状态、半展开状态和完全展开状态的切换即可。
在一种实施例中,请参考图1至图4,图4为图3中第三旋转件1113的结构示意图。旋转轨道112为导向槽114,旋转部113为凸起部115,凸起部115卡接于导向槽114中。即旋转轨道112和旋转部113通过卡接的方式相配合。其中,导向槽114可以是贯穿旋转件111侧壁的槽。旋转轨道112和旋转部113的形状分别为导向槽114和凸起部115的结构简单,便于生产。
在一种实施例中,导向槽114具有能使凸起部115卡接的卡接端。请参考1至图4,在一种实施例中,导向槽114具有第一卡接端1141、第二卡接端1142以及导向部1143。第一卡接端1141靠近旋转折叠结构11的第一端11a设置,第二卡接端1142靠近旋转折叠结构11的第二端11b设置,导向部1143连接第一卡接端1141和第二卡接端1142。
第一卡接端1141在沿旋转件111的轴向方向的同一高度周向延伸,第二卡接端1142在沿旋转件111的轴向方向的同一高度周向延伸,导向部1143自第一卡接端1141延伸至第二卡接端1142。由此,图1至图3中,相邻的两个旋转件111在折叠时,凸起部115可以卡接于第一卡接端1141中,旋转展开或者折叠的过程中凸起部115可以沿着导向部1143运动,完全展开时凸起部115可以卡接于第二卡接端1142中。
在一种实施例中,请参考图5至图7,图5为本申请提供的另一电子设备支架10的在折叠状态时的结构示意图,图6为图5的电子设备支架10在展开状态时的结构示意图,图7为图6的电子设备支架10的爆炸结构示意图。旋转部113为内螺纹117,旋转轨道112为外螺纹116,内螺纹117与相应的外螺纹116相匹配。
其中,在图5至图7的实施例中,第一旋转件1111具有与相应的旋转件111配合的内螺纹117,不具有内螺纹117,第二旋转件1112具有与相应的旋转件111配合的外螺纹116,不具有内螺纹117。第一旋转件1111与第二旋转件1112之间的三个旋转件111均具有与相应旋转件111配合的内螺纹117和外螺纹116。通过内螺纹117和外螺纹116相匹配的结构简单,且容易生产加工。
在相邻的两个旋转件111中,旋转轨道112和旋转部113的数量可以是一个,也可以是一个以上的数量。例如在图1至图3的实施例中,相邻的两个旋转件111中,旋转轨道112和旋转部113的数量均为两个,且两个旋转轨道112/两个旋转部113相对设置于旋转件111侧壁上。图5至图7的实施例中,相邻的两个旋转件111中旋转轨道112和旋转部113均为一个。
在其他实施例中,旋转轨道112和旋转部113的形状和数量不限于上述实施例提到的形状和数量,也可以是其他的形状和数量。
在一种实施例中,如图1至图3,旋转件111的形状可以是中空管状,且相邻的两个旋转件111之间相互套设。相邻的两个旋转件111之间相互套设可以使得相邻的两个旋转件111之间相互旋转地靠近时,其中一个旋转件111可以逐渐收容于另一个旋转件111的管内。
优选地,例如在图1至图3的实施例中,相邻的旋转件111中,靠近第一端11a的旋转件111的外径大于远离第一端11a的旋转件111的外径,靠近第一端11a的旋转件111的至少部分套设于远离第一端11a的旋转件111的外周。这样的结构使得在旋转折叠结构11为折叠状态时,各个旋转件111可以收容于第一旋转件1111中。当然,也可以是相邻的旋转件111中,靠近第一端11a的旋转件111的外径小于远离第一端11a的旋转件111的外径,靠近第二端11b的旋转件111的至少部分套设于远离第二端11b的旋转件111的外周,使得在旋转折叠结构11为折叠状态时,各个旋转件111可以收容于第二旋转件1112中。相比于各个旋转件111可以收容于第二旋转件1112中的方案,各个旋转件111收容于第一旋转件1111中的方案的第一旋转件1111的外径更大,与便携式电子设备的接触面更大,连接效果更佳。
进一步地,在一种实施例中,每个旋转件111沿轴向方向的长度相同。由此,在折叠状态时,各个旋转件111可以全部收容于同一个旋转件111中。例如图1中,折叠状态时,除了第一旋转件1111之外的其他旋转件111均全部收容于第一旋转件1111中,并且在折叠状态时,各个旋转件111靠近第一端11a的端面平齐,各个旋转件111靠近第二端11b的端面平齐。在其他实施例中,每个旋转件111沿轴向方向的长度也可以不同,满足各个旋转件111可以全部收容于同一个旋转件111中即可。
本申请还提供了一种电子设备壳体,包括外壳和上述任一实施例所涉及的电子设备支架10,外壳用于容纳便携式电子设备,电子设备支架10设于外壳上。具体地,电子设备支架10可以设置于外壳背离便携式电子设备的外侧面。电子设备壳体中的电子设备支架10还可参见上文中任一实施例所涉及的电子设备支架10的结构与功能,且可实现相同或相似的技术效果,在此不再赘述。
以上应用了具体个例对本实用新型进行阐述,只是用于帮助理解本实用新型,并不用以限制本实用新型。对于本实用新型所属技术领域的技术人员,依据本实用新型的思想,还可以做出若干简单推演、变形或替换。

Claims (10)

  1. 一种电子设备支架,用于支撑便携式电子设备,其特征在于,包括:
    旋转折叠结构,包括至少两个同轴设置的旋转件,所述旋转折叠结构于轴向方向具有第一端和第二端,位于所述第一端的第一旋转件用于连接所述便携式电子设备,位于所述第二端的第二旋转件用于支撑所述电子设备支架;
    相邻的两个所述旋转件中的一个所述旋转件具有旋转轨道,另一个具有与所述旋转轨道配合的旋转部,且所述旋转轨道在对应所述旋转件的周面上自靠近所述第一端的位置向靠近所述第二端的位置倾斜设置,以使相邻两个所述旋转件之间能够相互旋转地靠近和远离,使所述旋转折叠结构在折叠状态和展开状态之间切换。
  2. 根据权利要求1所述的电子设备支架,其特征在于,所述旋转轨道为导向槽,所述旋转部为凸起部,所述凸起部卡接于所述导向槽中。
  3. 根据权利要求2所述的电子设备支架,其特征在于,所述导向槽具有第一卡接端、第二卡接端以及导向部;所述第一卡接端靠近所述旋转折叠结构的所述第一端,所述第二卡接端远离所述旋转折叠结构的所述第一端;所述导向部连接所述第一卡接端和所述第二卡接端;所述第一卡接端和所述第二卡接端均沿所述旋转件的周向延伸,所述旋转导向部自所述第一卡接端倾斜延伸至所述第二卡接端。
  4. 据权利要求1所述的电子设备支架,其特征在于,所述旋转部为内螺纹,所述旋转轨道为外螺纹,所述内螺纹与相应的所述外螺纹相匹配。
  5. 根据权利要求1-4任一项所述的电子设备支架,其特征在于,所述旋转件的形状为中空管状,且每个所述旋转轨道的形状和延伸方向相同。
  6. 根据权利要求5所述的电子设备支架,其特征在于,相邻的两个所述旋转件中,靠近所述第一端的所述旋转件的外径大于远离所述第一端的所述旋转件的外径;且靠近所述第一端的所述旋转件至少部分套设于远离所述第一端的所述旋转件的外周。
  7. 根据权利要求6所述的电子设备支架,其特征在于,每个所述旋转件的沿轴向方向的长度相同。
  8. 根据权利要求1-4任一项所述的电子设备支架,其特征在于,所述电子设备支架还包括连接件,所述连接件用于连接所述便携式电子设备,所述连接件与所述第一旋转件固定连接,或者所述连接件与所述第一旋转件一体成型。
  9. 根据权利要求1-4任一项所述的电子设备支架,其特征在于,所述电子设备支架还包括支撑件,所述支撑件用于支撑所述电子设备支架,所述支撑件与所述第二旋转件固定连接,或者所述支撑件与所述第二旋转件一体成型。
  10. 一种电子设备壳体,其特征在于,包括外壳和如权利要求1-9任一项所述的电子设备支架,外壳用于容纳所述便携式电子设备,所述电子设备支架设于所述外壳上。
PCT/CN2022/117638 2022-09-07 2022-09-07 电子设备支架和电子设备壳体 WO2024050731A1 (zh)

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GB837959A (en) * 1957-09-19 1960-06-15 Picker X Ray Corp Waite Mfg Tubular telescopic column
CH670899A5 (en) * 1986-09-04 1989-07-14 Peter Huerlimann Telescopic camera stand with motorised drive - has carbon fibre bands for drive to successive telescopic sections
CN2866929Y (zh) * 2005-12-13 2007-02-07 吉全新 一种新型伸缩装置
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