Electronic device case

By designing a rotation-driven locking element and locking assembly on the electronic device housing, combined with a guide ramp and a reset element, the problem of accidental opening in the prior art is solved, achieving more reliable locking and unlocking, and improving security and user experience.

CN224473543UActive Publication Date: 2026-07-07JIANGXI LUXSHARE INTELLIGENT MFG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGXI LUXSHARE INTELLIGENT MFG CO LTD
Filing Date
2025-07-22
Publication Date
2026-07-07

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  • Figure CN224473543U_ABST
    Figure CN224473543U_ABST
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Abstract

The utility model relates to electronic equipment technical field discloses an electronic equipment box body. Wherein electronic equipment box body includes first casing, second casing, locking device and second locking piece, and second locking piece sets up in second casing, and locking device includes first locking piece and first locking assembly, and first locking piece has the locking position of can cooperate with second locking piece and the unlocking position of can with second locking piece disengagement cooperation, and first locking assembly rotationally sets up in first casing, and first locking assembly can be used for driving first locking piece to convert from locking position to unlocking position when rotating. The utility model discloses electronic equipment box body, buckles more reliable, and can effectively avoid being mistaken locking or mistaken unlocking simultaneously.
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Description

Technical Field

[0001] The embodiments of this utility model relate to the field of electronic device technology, and in particular to an electronic device housing. Background Technology

[0002] The way electronic device cases (such as TWS true wireless earphone cases) are secured directly affects the user experience and product reliability. Currently, electronic device cases are typically secured using methods such as magnetic attachment, snap-fit, or spring hinges. However, these methods are susceptible to accidental opening during use, potentially leading to a series of direct hazards and potential risks. These issues can affect user experience, device safety, and even cause financial losses, especially in everyday carrying, sports activities, or special environments. Utility Model Content

[0003] Based on the above, the purpose of this utility model embodiment is to provide an electronic device housing that has a more reliable fastening mechanism and can effectively prevent accidental locking or mis-locking.

[0004] To achieve the above objectives, the embodiments of this utility model adopt the following technical solutions:

[0005] Electronic device housing, including:

[0006] First shell and second shell;

[0007] A locking device and a second locking member are provided. The second locking member is disposed in the second housing. The locking device includes a first locking member and a first locking assembly. The first locking member has a locking position that can cooperate with the second locking member and an unlocking position that can disengage from the second locking member. The first locking assembly is rotatably disposed in the first housing. When the first locking assembly rotates, it can be used to drive the first locking member to switch from the locking position to the unlocking position.

[0008] As one embodiment of an electronic device housing, the first locking component includes a rotating member rotatably disposed on the first housing, and the first locking member is disposed on the rotating member.

[0009] As one embodiment of an electronic device housing, the first locking component includes a rotating component and a moving component. The moving component is slidably disposed on the first housing along a first direction. When the rotating component rotates along a preset direction, it can drive the moving component to slide along the first direction, so that the first locking component is switched to the unlocked position. The first direction is parallel to the plane containing the preset direction.

[0010] As one design for an electronic device housing, the movable component has a mating through hole, the rotating component has a mating part, and the mating through hole has a mating plane. When the rotating component rotates along the preset direction, the mating part abuts against the mating plane.

[0011] As one design for an electronic device housing, the mating through hole contains two or more mating planes, which are evenly spaced apart.

[0012] As one embodiment of the electronic device housing, the first locking component is further provided with a positioning element, which can position the rotating component at the position where the first locking component is placed in the locking position, and the number of positioning elements is the same as the number of mating planes.

[0013] As one embodiment of the electronic device housing, the first locking component is further provided with a transmission member, one end of which is connected to the moving member, and the first locking component is connected to the other end of the transmission member.

[0014] As one embodiment of the electronic device housing, the first locking component is further provided with a first reset member, which causes the first locking member to have a tendency to rotate back to its original position. The first locking member is rotatably connected to the other end of the transmission member. The second locking member is provided with a guide slope. When the second housing is fastened relative to the first housing, the guide slope can drive the first locking member to rotate relative to the transmission member.

[0015] As one embodiment of the electronic device housing, the first locking component is further provided with a second reset member, which causes the moving member to tend to drive the first locking member to the locked position; the moving member is provided with the transmission member at both ends along the first direction, and the first locking member, the second reset member, and the first locking member and the second locking member are provided in a one-to-one correspondence.

[0016] As one embodiment of the electronic device housing, the locking device further includes a second locking component, which can cooperate with the first locking member or the first locking component to fix the first locking member in the locking position or the unlocking position, or disengage from the first locking member or the first locking component to allow the first locking member to move.

[0017] The beneficial effects of the embodiments of this utility model are as follows:

[0018] This embodiment of the invention involves providing a second locking member on the second housing and a first locking member on the first housing. When the first locking member is in the unlocked position, disengaged from the second locking member, the second housing can be opened or locked relative to the lock body. It is worth noting that the first locking component drives the first locking member through rotation, which provides better protection against accidental contact compared to magnetic or sliding locks. This effectively avoids a series of direct hazards and potential risks that may be caused by accidental contact, improving the safety of the electronic device housing and the user experience. Attached Figure Description

[0019] To more clearly illustrate the technical solutions in the embodiments of this utility model, the drawings used in the description of the embodiments of this utility model will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on the content of the embodiments of this utility model and these drawings without creative effort.

[0020] Figure 1 This is a schematic diagram of the electronic device housing provided in a specific embodiment of this utility model;

[0021] Figure 2 This is a partial schematic diagram of the electronic device housing provided in a specific embodiment of this utility model;

[0022] Figure 3 This is a schematic diagram of the first locking member of the electronic device housing provided in a specific embodiment of the present invention being placed in the locking position;

[0023] Figure 4 This is a schematic diagram of the first locking member of the electronic device housing provided in a specific embodiment of the present invention being placed in the unlocked position;

[0024] Figure 5 This is a schematic diagram of an electronic device housing provided by a specific embodiment of the present invention, wherein a second locking component is provided and a first locking component is placed in the unlocked position;

[0025] Figure 6 This is a schematic diagram of an electronic device housing provided by a specific embodiment of the present invention, wherein a second locking component is provided and a first locking component is placed in the locking position.

[0026] In the picture:

[0027] 110. First housing; 111. Guide component; 120. Second housing;

[0028] 300. Locking device; 310. First locking element; 320. First locking assembly; 321. Rotating element; 3211. Mating part; 3212. Locking part; 3213. Fixed limiting groove; 3214. Mating surface; 3215. Positioning groove; 322. Moving element; 3221. Mating through hole; 3222. Mating plane; 323. Positioning element; 3231. Positioning head; 3232. Elastic element; 324. Transmission element; 325. First reset element; 326. Second reset element; 327. Operating part; 330. Second locking assembly; 331. Locking head; 332. Fourth reset element; 334. Operating head;

[0029] 400. Second locking element; 410. Guide ramp. Detailed Implementation

[0030] The embodiments of this utility model are described in detail below. Examples of the embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain the embodiments, and should not be construed as limiting the embodiments.

[0031] In the description of this embodiment, it should be noted that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," and "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of describing this embodiment and for simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this embodiment. Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance. The terms "first position" and "second position" refer to two different positions.

[0032] Unless otherwise explicitly specified and limited, the terms "installation," "connection," "linking," and "fixing" should be interpreted broadly. For example, they can refer to fixed connections or detachable connections; mechanical connections or electrical connections; direct connections or indirect connections through an intermediate medium; and connections within two components or interactions between two components. Those skilled in the art can understand the specific meaning of these terms in this embodiment based on the specific circumstances.

[0033] In this embodiment, unless otherwise explicitly specified and limited, "above" or "below" the second feature can include direct contact between the first and second features, or contact between the first and second features through another feature between them. Furthermore, "above," "over," and "on top" of the second feature includes the first feature being directly above or diagonally above the second feature, or simply indicates that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature includes the first feature being directly below or diagonally below the second feature, or simply indicates that the first feature is at a lower horizontal level than the second feature.

[0034] The technical solution of this embodiment will be further described below with reference to the accompanying drawings and specific implementation methods.

[0035] like Figures 1-4 As shown, this embodiment provides an electronic device housing, which includes a first housing 110, a second housing 120, a locking device 300, and a second locking member 400. The second locking member 400 is disposed in the second housing 120. The locking device 300 includes a first locking member 310 and a first locking component 320. The first locking member 310 has a locking position that can cooperate with the second locking member 400 and an unlocking position that can disengage from the second locking member 400. The first locking component 320 is rotatably disposed in the first housing 110. When the first locking component 320 rotates, it can be used to drive the first locking member 310 to switch from the locking position to the unlocking position.

[0036] By providing a second locking member 400 on the second housing 120 and a first locking member 310 on the first housing 110, the second housing 120 can be opened or closed relative to the first housing 110 when the first locking member 310 is in the unlocked position, disengaged from the second locking member 400. It is worth noting that the first locking assembly 320 drives the first locking member 310 by rotation, providing better protection against accidental activation compared to magnetic or sliding locks.

[0037] For example, one end of the first housing 110 and the second housing 120 are rotatably connected, the second locking member 400 is disposed at the end of the second housing 120 that is not rotatably connected to the first housing 110, and the first locking assembly 320 is disposed at the end of the first housing 110 that is not rotatably connected to the second housing 120. The electronic device housing can be an earphone case. When the first housing 110 and the second housing 120 are fastened together, and the first locking member 310 moves to the locking position that cooperates with the second locking member 400, the first housing 110 and the second housing 120 are locked.

[0038] Specifically, the first locking component 320 can only be used to drive the first locking member 310 from the locked position to the unlocked position when rotating in a preset direction, which further increases the anti-accidental touch effect and improves the reliability of locking the electronic device box in daily carrying, sports scenarios or special environments. This effectively avoids a series of direct hazards and potential risks that may be caused by accidental touch, and improves the safety and user experience of the electronic device box.

[0039] Specifically, the first locking member 310 is slidably disposed on the first housing 110 along a first direction, which is parallel to the plane containing the preset direction. That is, the first locking assembly 320 can convert rotational motion into movement motion of the first locking member 310, which helps to improve the structural compactness of the electronic device housing.

[0040] Further, the first locking assembly 320 includes a rotating member 321 and a moving member 322. The rotating member 321 is rotatably disposed on the first housing 110 for a user to perform a turning operation. The moving member 322 is slidably disposed on the first housing 110 along a first direction. The first locking member 310 is disposed on the moving member 322. When the user operates the rotating member 321 to rotate along a preset direction, it can drive the moving member 322 to slide along the first direction, so that the first locking member 310 is switched to the unlocked position. The preset direction is as follows: the rotating member 321 rotates as shown in the image. Figure 3 Position rotated to Figure 4 The direction of the position, the first direction is Figure 3 The direction indicated by the middle arrow.

[0041] To convert the rotational motion of the rotating member 321 into the movement of the moving member 322, the moving member 322 is provided with a mating through hole 3221, and the rotating member 321 is provided with a mating part 3211, which passes through the mating through hole 3221. Simultaneously, a mating plane 3222 is provided within the mating through hole 3221. It is worth noting that the mating plane 3222 ensures that the rotating member 321 can only contact the mating part 3211 when rotating in a preset direction, thereby moving along a first direction under the contact of the mating part 3211, thus realizing the conversion from rotational motion to linear movement.

[0042] Preferably, two or more mating planes 3222 are provided within the through hole 3221, and the two or more mating planes 3222 are evenly spaced. This arrangement allows the user to unlock by rotating the device at a smaller angle. Of course, the number of mating planes 3222 should not be too large, to ensure that the first locking member 310 can reliably lock and unlock. In this embodiment, there are two mating planes 3222, meaning that unlocking is completed once every 180° rotation of the rotating member 321.

[0043] Specifically, the first locking assembly 320 is further provided with a positioning member 323, which can position the rotating member 321 in the locked position of the first locking member 310, making the first locking member 310 more reliable when it is in the locked position. It is worth noting that the number of positioning members 323 is the same as the number of mating planes 3222, so that the rotating member 321 can be positioned by the positioning member 323 in each locked position.

[0044] For example, the positioning member 323 includes a positioning head 3231 and an elastic member 3232. Correspondingly, the rotating member 321 is provided with a positioning groove 3215 in the circumferential direction, and the elastic member 3232 can drive the positioning head 3231 to be placed in the positioning groove 3215. It is worth noting that the force exerted by the operator when rotating the rotating member 321 can cause the elastic member 3232 to undergo elastic deformation, thereby causing the positioning head 3231 to disengage from the positioning groove 3215 until the first locking member 310 is placed in the locked position, at which point the positioning head 3231 can be placed back into the positioning groove 3215.

[0045] It is worth noting that the movement of the first locking member 310 along the first direction to engage and disengage with the second locking member 400 constitutes the first locking and unlocking method for the electronic device housing. In this case, the user needs to rotate the rotating member 321, which in turn drives the transmission member 324 and the first locking member 310 to move accordingly along the first direction to achieve locking and unlocking.

[0046] For example, an operating part 327 is provided at the end of the rotating component 321 away from the mating part 3211. The operating part 327 extends out of the first housing 110 for the user to screw. Preferably, the operating part 327 can be provided with a larger outer diameter for easier operation, and the outer periphery of the operating part 327 can be provided with anti-slip texture to increase friction during screwing. The mating part 3211 is provided with a mating curved surface 3214. By setting the mating curved surface 3214 to abut against the mating plane 3222, the force required for the user to rotate the rotating component 321 can be effectively reduced, making the operation more effortless.

[0047] Optionally, the first locking component 320 is further provided with a transmission component 324. One end of the transmission component 324 is connected to the moving component 322, and the first locking component 310 is rotatably connected to the other end of the transmission component 324. By providing the transmission component 324, the connection between the moving component 322 and the first locking component 310 can be realized, thereby optimizing the spatial layout and facilitating the placement of other components.

[0048] Furthermore, the first locking component 320 is also provided with a first reset member 325, which has a tendency to place the first locking member 310 in the locked position. By providing the first reset member 325, the first locking member 310 has a tendency to rotate back to its original position, which facilitates the conversion of the first locking member 310 to the locked position and makes the first locking member 310 more stable in the locked position.

[0049] In one embodiment, one end of the transmission member 324 is connected to the moving member 322, and the first locking member 310 is rotatably connected to the other end of the transmission member 324 via the first reset member 325. The transmission member 324 is configured to connect the moving member 322 and the first locking member 310, and simultaneously enable the installation of the first reset member 325. In other embodiments, one end of the first reset member 325 is connected to the transmission member 324, and the other end is connected to the first locking member 310. Simultaneously, it is at least partially fitted onto the transmission member 324. This configuration reduces the radial deformation of the first reset member 325, thereby making the position-limiting effect of the first reset member 325 on the first locking member 310 more reliable.

[0050] It is worth noting that since the first locking member 310 is restored to the locked position by the rotation of the first reset member 325 relative to the transmission member 324, the second locking method of the electronic device box is: locking is achieved by the rotation of the first locking member 310 relative to the transmission member 324 and the force exerted on the first locking member 310 by the first reset member 325 without the need for the user to operate the rotating member 321, and without the need for the user to operate the first locking component 320. This provides more locking modes and makes it more convenient to use.

[0051] To achieve the second locking method, the second locking member 400 is provided with a guide slope 410. Therefore, when the second housing 120 is engaged relative to the first housing 110, the guide slope 410 can cooperate with the first locking member 310. During this engagement, the first locking member 310 moves against the guide slope 410. Due to the inclined arrangement of the guide slope 410, it can drive the first locking member 310 to rotate relative to the transmission member 324. At this time, the first reset member 325 is compressed, storing elastic potential energy. When the first locking member 310 disengages from the guide slope 410, the elastic restoring force of the first reset member 325 can drive the first locking member 310 to return to the position where it cooperates with the second locking member 400, thereby converting the first locking member 310 to the locked position and completing the locking between the first housing 110 and the second housing 120. It is worth noting that in the second locking method, the first locking member 310 is locked with the second locking member 400 by being driven to rotate by the first reset member 325.

[0052] Correspondingly, the first locking assembly 320 is also provided with a second reset member 326, which causes the moving member 322 to tend to drive the first locking member 310 to the locked position. It is understood that the second reset member 326 achieves the reset of the first locking member 310 by driving the moving member 322 to move. It is understood that in the first locking method, the second reset member 326 is used to ensure that the first locking member 310 is always placed in the position corresponding to the second locking member 400, thereby enabling the first locking member 310 to be locked by rotation when the second housing 120 is engaged. In the second locking method, the second reset member 326 is used to drive the first locking member 310 to move, thereby causing the first locking member 310 to switch to the locked position.

[0053] For example, the second reset member 326 is configured as a spring, with one end fixedly connected to the first housing 110 and the other end connected to the transmission member 324 or the moving member 322, to reset the first locking member 310. Preferably, the end of the spring near the first locking member 310 is fixedly connected to the first housing 110, and the other end is connected to the moving member 322. Since the first locking member 310 is connected to the moving member 322 through the transmission member 324, the second reset member 326 can reset the first locking member 310 when it drives the moving member 322 to move by its elastic restoring force. In addition, the spring is sleeved on the transmission member 324, which helps to guide the spring when it deforms, making its reset function more reliable.

[0054] In this embodiment, two first locking members 310 are provided, and the two first locking members 310 are respectively provided at both ends of the moving member 322 along the first direction. That is, the movement of the moving member 322 can synchronously drive the two first locking members 310 to move. Correspondingly, two transmission members 324, two second reset members 326, two first reset members 325, and two second locking members 400 are provided, and they are respectively provided in one-to-one correspondence with the two first locking members 310 to improve the reliability of locking.

[0055] The opening operation of the aforementioned electronic device housing is as follows: Twisting the rotating component 321 causes the mating part 3211 to abut against the mating plane 3222, driving the moving component 322 to move along the first direction. This, in turn, causes the transmission component 324 and the first locking component 310 to move along the first direction, disengaging the first locking component 310 from the second locking component 400. At this time, the second housing 120 can open relative to the first housing 110 under the action of the third reset component. After unlocking, the second reset component 326 drives the transmission component 324, the moving component 322, and the first locking component 310 to reset to the locked position.

[0056] The closing operation is as follows: First locking method: Twist the rotating part 321, the mating part 3211 abuts against the mating plane 3222, drive the moving part 322 to move along the first direction, thereby driving the transmission part 324 and the first locking part 310 to move along the first direction; then overcome the third reset part to fasten the second housing 120 to the first housing 110; next, release the rotating part 321, under the action of the elastic restoring force of the second reset part 326, the transmission part, the moving part 322 and the first locking part 310 move along the first direction, so that the first locking part 310 cooperates with the second locking part 400 to achieve locking. The second locking method: The user does not need to operate the rotating part 321, but directly overcomes the third reset part to fasten the second housing 120 to the first housing 110. At this time, the guide slope 410 of the second locking part 400 cooperates with the first locking part 310, driving the first locking part 310 to compress the first reset part 325 and rotate relative to the transmission part 324. When the second housing 120 is fastened to the first housing 110, the first locking part 310 disengages from the guide slope 410. The elastic restoring force of the first reset part 325 can drive the first locking part 310 to reset to the position that cooperates with the second locking part 400, thereby causing the first locking part 310 to switch to the locked position, completing the locking between the first housing 110 and the second housing 120.

[0057] Preferably, such as Figure 5 and Figure 6 As shown, the locking device 300 also includes a second locking component 330. The second locking component 330 can cooperate with the first locking member 310 or the first locking component 320 to fix the first locking member 310 in the locked or unlocked position, or disengage from the first locking member 310 or the first locking component 320 to allow the first locking member 310 to move. By providing the second locking component 330, the position of the first locking member 310 is further fixed, making the first locking member 310 more reliable when placed in the locked or unlocked position, avoiding adverse effects on the headphones and the user caused by locking or unlocking failure. It can be understood that when the second locking component 330 cooperates with the first locking member 310 or the first locking component 320 in different positions, it can correspondingly fix the first locking member 310 in the locked or unlocked position; when the second locking component 330 disengages from the first locking member 310 or the first locking component 320, the first locking member 310 can move freely. It is worth noting that when the second locking component 330 is disengaged from the first locking component 310 or the first locking component 320, the first locking component 310 can also be fixed in the locked or unlocked position. The difference is that the reliability will be higher when it is engaged with the second locking component 330.

[0058] For example, the second locking component 330 can cooperate with the transmission member 324 of the first locking component 320 to achieve its locking and structural functions. Specifically, the second locking component 330 includes a locking head 331, which is slidably disposed in the first housing 110 in a direction perpendicular to the first direction, so that when the locking head 331 moves, it can abut against the transmission member 324, thereby restricting the movement of the first locking member 310, and the abutment is more reliable.

[0059] It is worth noting that, in order to fix the first locking member 310, the locking head 331 can also cooperate with the rotating member 321 or the moving member 322 of the first locking component 320, or directly with the first locking member 310, to achieve the above function. The specific setting method is not limited here.

[0060] In other embodiments, the first locking component 320 includes a rotating member 321, which is rotatably mounted on the first housing 110, and the first locking member 310 is mounted on the rotating member 321. To simplify the structure, the moving member 322, the first reset member 325, and the transmission member 324 can be omitted, and the first locking member 310 can be directly mounted on the rotating member 321. The rotating member 321 directly drives the first locking member 310 to rotate, thereby achieving the cooperation between the first locking member 310 and the second locking member 400. In this case, the first locking member 310 no longer has a second locking method and can only be locked and unlocked by the user rotating the rotating member 321.

[0061] At this time, the locking head 331 is slidably disposed on the first housing 110 in a direction perpendicular to the rotation axis of the rotating member 321, so that when the locking head 331 moves in a fixed direction, the locking head 331 can abut against the rotating member 321, thereby restricting the rotation of the first locking member 310, and the abutment is more reliable.

[0062] Furthermore, the rotating member 321 also includes a locking part 3212, which is rotatably disposed on the first housing 110 and extends into the first housing 110. On the one hand, it is used to drive the first locking member 310 to rotate, and on the other hand, the locking part 3212 is used to cooperate with the locking head 331 to fix the first locking member 310.

[0063] Optionally, the locking part 3212 is provided with a fixed limiting groove 3213 in the circumferential direction. The locking head 331 restricts the rotation of the first locking member 310 by being placed in the fixed limiting groove 3213, which is simple and reliable. It can be understood that when the locking head 331 is placed in the fixed limiting groove 3213, the locking part 3212 cannot rotate, and thus the first locking member 310 cannot change position. In order to achieve separate fixing of the locking position and the unlocking position of the first locking member 310, two fixed limiting grooves 3213 are provided. One corresponds to the locking position of the first locking member 310 and is used to limit the first locking member 310 when it is placed in the locking position. The other corresponds to the unlocking position of the first locking member 310 and is used to limit the first locking member 310 when it is placed in the unlocking position.

[0064] In this embodiment, the second locking component 330 includes a fourth reset member 332, which causes the locking head 331 to tend to abut against the rotating member 321. By providing the fourth reset member 332, the locking head 331 is driven to be placed in the fixed limiting groove 3213, thereby making the engagement between the locking head 331 and the first locking member 310 more reliable.

[0065] Preferably, a guide member 111 is provided on the first housing 110, and the locking head 331 passes through the guide member 111, making the movement of the locking head 331 more reliable. Exemplarily, one end of the fourth reset member 332 abuts against the locking head 331, and the other end abuts against the guide member 111.

[0066] Furthermore, the second locking assembly 330 includes an operating head 334, which protrudes from the first housing 110 and connects to the locking head 331. This facilitates the operator's movement of the locking head 331, thereby disengaging the locking head 331 from the locking part 3212 and releasing the first locking member 310. It is understood that the second locking assembly 330 locks the first locking member 310 via a fourth reset member 332, avoiding the need for the user to maintain the position of the operating head 334 for extended periods, which could lead to fatigue or failure. After the second locking assembly 330 releases the first locking member 310, the first locking member 310 can freely switch between the locked and unlocked positions.

[0067] The above description is only a preferred embodiment of this utility model. For those skilled in the art, there will be changes in the specific implementation method and application scope based on the idea of ​​this utility model. The content of this specification should not be construed as a limitation of this utility model.

Claims

1. An electronic device housing, characterized in that, include: First shell and second shell; A locking device and a second locking member are provided, the second locking member being disposed in the second housing. The locking device includes a first locking member and a first locking assembly. The first locking member has a locking position that can cooperate with the second locking member and an unlocking position that can disengage from the second locking member. The first locking assembly is rotatably disposed in the first housing. When the first locking assembly rotates, it can be used to drive the first locking member to switch from the locking position to the unlocking position.

2. The electronic device housing according to claim 1, characterized in that, The first locking component includes a rotating member rotatably disposed on the first housing, and the first locking member is disposed on the rotating member.

3. The electronic device housing according to claim 1, characterized in that, The first locking component includes a rotating component and a moving component. The moving component is slidably disposed on the first housing along a first direction. When the rotating component rotates along a preset direction, it can drive the moving component to slide along the first direction, so that the first locking component is switched to the unlocked position. The first direction is parallel to the plane containing the preset direction.

4. The electronic device housing according to claim 3, characterized in that, The moving part is provided with a mating through hole, and the rotating part is provided with a mating part. A mating plane is provided inside the mating through hole. When the rotating part rotates along the preset direction, the mating part abuts against the mating plane.

5. The electronic device housing according to claim 4, characterized in that, The mating through hole is provided with two or more mating planes, which are evenly spaced apart.

6. The electronic device housing according to claim 5, characterized in that, The first locking component is further provided with a positioning element, which can position the rotating component at the position where the first locking component is placed in the locking position, and the number of positioning elements is the same as the number of mating planes.

7. The electronic device housing according to claim 3, characterized in that, The first locking component is further provided with a transmission member, one end of which is connected to the moving member, and the first locking component is connected to the other end of the transmission member.

8. The electronic device housing according to claim 7, characterized in that, The first locking component is further provided with a first reset member, which causes the first locking member to have a tendency to rotate back to its original position. The first locking member is rotatably connected to the other end of the transmission member. The second locking member is provided with a guide slope. When the second housing is fastened relative to the first housing, the guide slope can drive the first locking member to rotate relative to the transmission member.

9. The electronic device housing according to claim 7, characterized in that, The first locking component is further provided with a second reset member, which causes the moving member to tend to drive the first locking member to the locked position; the moving member is provided with the transmission member at both ends along the first direction, and the first locking member, the second reset member, and the first locking member and the second locking member are provided in a one-to-one correspondence.

10. The electronic device housing according to any one of claims 1-9, characterized in that, The locking device further includes a second locking component, which can cooperate with the first locking member or the first locking component to fix the first locking member in the locking position or the unlocking position; or disengage from the first locking member or the first locking component to allow the first locking member to move.