Support assembly and electronic device
By designing an adjustable component for the support assembly, and utilizing the movable connection of the adjusting part and the convenient connection of the mounting part, the problem of needing to align the holes in the prior art is solved, thus achieving convenient height adjustment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BEIJING XIAOMI MOBILE SOFTWARE CO LTD
- Filing Date
- 2025-06-30
- Publication Date
- 2026-07-03
Smart Images

Figure CN224454183U_ABST
Abstract
Description
Technical Field
[0001] This disclosure relates to the field of small household appliances, and more particularly to a support component and electronic device. Background Technology
[0002] Electronic products typically feature height-adjustable support components to allow users to adjust the overall height of the product. In some technologies, the product body has multiple holes of varying heights; the height is adjusted by assembling the support component into these holes. However, aligning the support component with the holes on the product body during assembly is inconvenient for user operation. Utility Model Content
[0003] This disclosure provides an easily adjustable support component and electronic device.
[0004] In a first aspect, this disclosure provides a support component, including:
[0005] Support legs;
[0006] An adjusting member is disposed on the support leg. The adjusting member includes a first adjusting part and a second adjusting part, which are movably connected to each other to change the size of the adjusting member in a first direction. At least one of the first adjusting part and the second adjusting part includes a mounting part for connecting the device to be supported.
[0007] The support legs are used to support the equipment to be supported. By adjusting the relative positions of the first and second adjustment parts, the dimensions of the adjustment member in the first direction are adjusted. After the adjustment member is adjusted, it is connected to the equipment to be supported via the mounting part, thereby facilitating the use of the support assembly.
[0008] Optionally, the first adjusting part and the second adjusting part are rotatably connected, and the rotation axes of the first adjusting part and the second adjusting part are perpendicular to the first direction.
[0009] Optionally, the first adjusting part includes a plurality of second mounting parts, and the second adjusting part includes a plurality of third mounting parts, wherein at least one second mounting part and at least one third mounting part are disposed at the rotation center of the first adjusting part and the second adjusting part.
[0010] Optionally, the first adjusting part and the second adjusting part are slidably connected along the first direction.
[0011] Optionally, the first adjusting part includes a first engaging part, and the second adjusting part includes a first mating part;
[0012] In the direction in which the first adjusting part rotates relative to the second adjusting part, the first engaging part extends outward along the edge of the first adjusting part, and the first mating part is recessed inward along the edge of the second adjusting part;
[0013] When the first adjusting part is in the first position relative to the second adjusting part, the first engaging part engages with the first mating part.
[0014] Optionally, the first adjusting part includes a second engaging part, and the second adjusting part includes a second mating part;
[0015] In the direction in which the first adjusting part rotates relative to the second adjusting part, the second engaging part extends outward along the edge of the first adjusting part, and the second mating part extends outward along the edge of the second adjusting part;
[0016] When the first adjusting part is in the second position relative to the second adjusting part, the second engaging part abuts against the second mating part to limit the maximum angle of relative rotation between the first adjusting part and the second adjusting part.
[0017] Secondly, this disclosure also provides an electronic device, including a device body and the support assembly described in the first aspect, wherein the adjustment member of the support assembly is detachably connected to the device body via the mounting portion.
[0018] Optionally, it also includes a mounting component connected to the lower part of the device body; the adjusting component is detachably connected to the mounting component via the mounting part, and the support leg is located below the device body.
[0019] Optionally, the mounting component is provided with a first limiting part and a first mounting part;
[0020] The first adjustment part is provided with a second limiting part and a second mounting part, and the second adjustment part is provided with a third limiting part and a third mounting part;
[0021] The adjusting member includes a first form and a second form. In the first form, the first adjusting part is located at a first position relative to the second adjusting part, the second limiting part abuts against the first limiting part, the second mounting part corresponds to the position of the first mounting part, and the adjusting member and the mounting member are connected to the first mounting part through the second mounting part.
[0022] In the second configuration, the first adjusting part is located in a second position relative to the second adjusting part, the third limiting part abuts against the first limiting part, the third mounting part corresponds to the position of the first mounting part, and the adjusting member and the mounting member are connected to the first mounting part through the third mounting part.
[0023] Optionally, the distance between the first limiting part and the first mounting part is a first distance, the distance between the second limiting part and the second mounting part is a second distance, and the distance between the third limiting part and the third mounting part is a third distance, wherein the first distance, the second distance, and the third distance are equal.
[0024] Optionally, the mounting component is provided with a mounting groove, the first limiting part is the inner sidewall of the mounting groove along the first direction, and the first mounting part is provided on the bottom wall of the mounting groove.
[0025] Optionally, the mounting component includes a first plate, a second plate, and an intermediate connecting plate; one end of the intermediate connecting plate is connected to the first plate along a second direction, and the other end is connected to the second plate; in the first direction, the first plate and the second plate are located on both sides of the intermediate connecting plate; the second direction is perpendicular to the first direction.
[0026] The first limiting part is the side wall of the intermediate connecting plate near the second plate, and the first mounting part is provided on the second plate.
[0027] Optionally, the second plate is provided with a partition, the partition extends along the first direction, one end of the partition along the first direction abuts against the intermediate connecting plate, and one side wall of the partition along a third direction abuts against the adjusting member; the third direction is perpendicular to the first direction and the second direction. Attached Figure Description
[0028] The accompanying drawings, which are incorporated in and form a part of this specification, illustrate embodiments consistent with this disclosure and, together with the description, serve to explain the principles of this disclosure.
[0029] Figure 1 The diagram shown is a schematic representation of an embodiment of the support component of this disclosure in a first configuration.
[0030] Figure 2 As shown Figure 1 The diagram shown is a schematic representation of an embodiment of the support component in the second configuration.
[0031] Figure 3 The diagram shown is a schematic representation of an embodiment of the second adjustment section of the support component of this disclosure.
[0032] Figure 4 The diagram shown is a schematic diagram of an embodiment of the electronic device disclosed herein, wherein the support component is in a first form.
[0033] Figure 5 As shown Figure 4 The diagram shows an electronic device, in which the support component is in the second form.
[0034] Figure 6 As shown Figure 4 The diagram shows a support component, in which the support component is in its first form.
[0035] Figure 7 As shown Figure 6 An exploded view of the support components shown.
[0036] Figure 8 As shown Figure 4 The diagram shows a support component, in which the support component represents the second form.
[0037] Figure 9 As shown Figure 8 An exploded view of the support components shown. Detailed Implementation
[0038] The technical solutions in the embodiments (or "implementations") of this disclosure will be clearly and completely described herein with reference to the accompanying drawings. When the following description relates to the drawings, unless otherwise indicated, the same numbers in different drawings represent the same or similar elements.
[0039] If this disclosure uses terms relating to directional indications or positional relationships (e.g., up, down, left, right, front, back, inside, outside, top, bottom, center, vertical, horizontal, longitudinal, transverse, length, width, counterclockwise, clockwise, axial, radial, circumferential, etc.), such terms are only used to explain the relative positional relationships and movements between components in a specific posture (as shown in the accompanying drawings); if the specific posture changes, the directional indications or positional relationships will also change accordingly. Furthermore, terms such as "first" and "second" in this disclosure are used only for descriptive convenience and should not be construed as indicating or implying relative importance.
[0040] This disclosure provides a support component and an electronic device. The support component and electronic device of this disclosure will be described in detail below with reference to the accompanying drawings. Unless otherwise specified, the features of the following embodiments and implementations can be combined with each other.
[0041] This disclosure provides a support component 100, see [link to relevant documentation] Figures 1-5As shown, the device includes a support leg 110 and an adjusting member 120. The adjusting member 120 is disposed on the support leg 110. The adjusting member 120 includes a first adjusting portion 121 and a second adjusting portion 122, which are movably connected to each other to change the size of the adjusting member 120 in a first direction A. At least one of the first adjusting portion 121 and the second adjusting portion 122 includes a mounting portion for connecting the device to be supported. Optionally, the mounting portion can be connected to the device to be supported by means of screws, riveting, or the like. It is understood that the first adjusting portion 121 may include only the mounting portion, the second adjusting portion 122 may include only the mounting portion, or both the first adjusting portion 121 and the second adjusting portion 122 may include mounting portions. In this embodiment, the second adjusting portion 122 includes a mounting portion 123. The mounting portion 123 is the back side of the second adjusting portion 122 facing away from the first adjusting portion 121, serving as a mounting surface for connecting to the device to be supported.
[0042] The support leg 110 is used to support the device to be supported. In this embodiment, the support leg 110 includes a first support portion and a second support portion. The first support portion extends obliquely downward along one side of the adjusting member 120, and the second support portion is connected to the bottom end of the first support portion and extends horizontally. The device to be supported is supported by multiple parallel second support portions. The size of the adjusting member 120 in the first direction A is adjusted by adjusting the relative positions of the first adjusting portion 121 and the second adjusting portion 122. After the adjusting member 120 is adjusted, it is connected to the device to be supported via the mounting portion 123, thereby facilitating the use of the support assembly 100.
[0043] In an optional embodiment, see Figure 1 and Figure 2 As shown, the first adjusting part 121 and the second adjusting part 122 are rotatably connected, and the rotation axes of the first adjusting part 121 and the second adjusting part 122 are perpendicular to the first direction A. Specifically, the rotation axes of the first adjusting part 121 and the second adjusting part 122 extend along the second direction B.
[0044] When the adjusting member 120 is in the first configuration, the included angle between the first adjusting part 121 and the second adjusting part 122 is 0°; when the adjusting member 120 is in the second configuration, the included angle between the first adjusting part 121 and the second adjusting part 122 is 180°. By causing the first adjusting part 121 and the second adjusting part 122 to rotate relative to each other, the dimension of the adjusting member 120 in the first direction A is changed, thereby realizing the adjustment of the dimension of the support assembly 100 in the first direction A.
[0045] In an optional embodiment, see Figure 1-3As shown, when the first adjustment part 121 includes a plurality of second mounting parts 1212 and the second adjustment part 122 includes a plurality of third mounting parts 1222, at least one second mounting part 1212 and at least one third mounting part 1222 are disposed concurrently at the rotation center of the first adjustment part 121 and the second adjustment part 122.
[0046] In an optional embodiment, the first adjusting part 121 and the second adjusting part 122 are slidably connected along the first direction A. This facilitates the connection between the first adjusting part 121 and the second adjusting part 122 in the first direction A, while simultaneously enabling adjustment of the dimensions of the support assembly 100 in the first direction A.
[0047] In an optional embodiment, the first adjusting portion 121 includes a first engaging portion 1223, and the second adjusting portion 122 includes a first mating portion 1213. In the direction in which the first adjusting portion 121 rotates relative to the second adjusting portion 122, the first engaging portion 1223 extends outward along the edge of the first adjusting portion 121, and the first mating portion 1213 is recessed inward along the edge of the second adjusting portion 122. When the first adjusting portion 121 is in a first position relative to the second adjusting portion 122, the first engaging portion 1223 and the first mating portion 1213 are engaged and connected.
[0048] Specifically, the first engaging part 1223 is configured as an arc-shaped protrusion, and the first mating part 1213 is configured as a mutually recessed structure.
[0049] With the above settings, during the adjustment of the adjusting member 120, the relative positions of the first adjusting part 121 and the second adjusting part 122 can be limited, thereby facilitating the connection between the second mounting part 1212 and the third mounting part 1222 and the device to be supported, thus facilitating the use of the support assembly 100.
[0050] In an optional embodiment, the first adjusting portion 121 and the second adjusting portion 122 are overlapped along the second direction B. In the second direction B, the first engaging portion 1223 extends outward along the edge of the first adjusting portion 121, and the first mating portion 1213 is recessed inward along the edge of the second adjusting portion 122. This arrangement increases the contact area between the first engaging portion 1223 and the first mating portion 1213, thereby enhancing the support effect between the first adjusting portion 121 and the second adjusting portion 122 when the adjusting member 120 is in the first configuration.
[0051] In an optional embodiment, the first adjusting portion 121 includes a second engaging portion 1224, and the second adjusting portion 122 includes a second mating portion 1214. In the direction of rotation of the first adjusting portion 121 relative to the second adjusting portion 122, the second engaging portion 1224 extends outward along the edge of the first adjusting portion 121, and the second mating portion 1214 extends outward along the edge of the second adjusting portion 122. When the first adjusting portion 121 is in a second position relative to the second adjusting portion 122, the second engaging portion 1224 abuts against the second mating portion 1214 to limit the maximum angle of relative rotation between the first adjusting portion 121 and the second adjusting portion 122.
[0052] With the above settings, during the adjustment of the adjusting member 120, the relative positions of the first adjusting part 121 and the second adjusting part 122 can be limited, thereby facilitating the corresponding connection between the second mounting part 1212 and the third mounting part 1222 and the device to be supported, without requiring the user to align the adjusting member 120 with the device to be supported, thus facilitating the use of the support assembly 100.
[0053] This disclosure also provides an electronic device 200, including a device body 210 and a support assembly 100. An adjusting member 120 of the support assembly 100 is detachably connected to the device body 210 via a mounting portion 123. Specifically, the first direction A is the height direction. In this embodiment, the second adjusting portion 122 includes a mounting portion 123, which is the back side of the second adjusting portion 122 facing away from the first adjusting portion 121, serving as a mounting surface for connection to the device to be supported.
[0054] By adjusting the relative positions of the first adjusting part 121 and the second adjusting part 122, the size of the adjusting member 120 in the first direction A is adjusted. After the adjusting member 120 is adjusted, it is then connected to the device to be supported via the mounting part. This facilitates the use of the support assembly 100.
[0055] In an optional embodiment, the electronic device 200 further includes a mounting member 130. The mounting member 130 is connected to the lower part of the device body 210, and the adjusting member 120 is detachably connected to the mounting member 130 via a mounting portion. A support leg 110 is located below the device body. The first direction A is the height direction of the device body. Thus, by adjusting the adjusting member 120, the support leg 110 can support the device body 210 at different heights, thereby achieving height adjustment of the device body 210.
[0056] In this embodiment, the electronic device 200 is a television set. Specifically, the mounting member 130 and the back panel form an opening in the third direction C, and the support leg 110 is connected to one side of the adjusting member 120 in the third direction C. When the adjusting member 120 is connected to the mounting member 130, the support leg 110 extends outward from the opening formed by the mounting member 130 and the back panel in the third direction C, and the bottom of the support leg 110 extends horizontally to form a support surface, providing support for the device body 210. With the above configuration, during the process of using the support assembly 100 to support the device body, the user does not need to align the adjusting member 120 and the mounting member 130 to achieve the connection between them, thereby facilitating the use of the support assembly 100.
[0057] See Figures 6-9 As shown, in an optional embodiment, the mounting member 130 is provided with a first limiting portion 132 and a first mounting portion 131. The first adjusting portion 121 is provided with a second limiting portion 1211 and a second mounting portion 1212, and the second adjusting portion 122 is provided with a third limiting portion 1221 and a third mounting portion 1222. The adjusting member 120 includes a first form and a second form. In the first form, the first adjusting portion 121 is located at a first position relative to the second adjusting portion 122, the second limiting portion 1211 abuts against the first limiting portion 132, the second mounting portion 1212 corresponds to the position of the first mounting portion 131, and the adjusting member 120 and the mounting member 130 are connected to the first mounting portion 131 through the second mounting portion 1212. In the second configuration, the first adjustment part 121 is located in a second position relative to the second adjustment part 122, the third limiting part 1221 abuts against the first limiting part 132, the third mounting part 1222 corresponds to the position of the first mounting part 131, and the adjustment member 120 and the mounting member 130 are connected to the first mounting part 131 through the third mounting part 1222.
[0058] When adjusting the relative position between the first adjustment part 121 and the second adjustment part 122, the first mounting part 131 of the mounting member 130 can always correspond to the second mounting part 1212 or the third mounting part 1222. After the adjustment part 120 has been adjusted, the adjustment part 120 is then installed on the mounting member 130. Through the cooperation of the first limiting part 132 and the second limiting part 1211 or the first limiting part 132 and the third limiting part 1221, the connection between the adjustment part 120 and the mounting member 130 can be achieved without the user aligning the adjustment part 120 and the mounting member 130, thereby facilitating the use of the support assembly 100.
[0059] In an optional embodiment, the distance between the first limiting part 132 and the first mounting part 131 is a first distance D1, the distance between the second limiting part 1211 and the second mounting part 1212 is a second distance D2, and the distance between the third limiting part 1221 and the third mounting part 1222 is a third distance D3, wherein the first distance D1, the second distance D2 and the third distance D3 are equal.
[0060] With the above configuration, when the adjusting member 120 is set to the first configuration and installed on the mounting member 130, the first limiting part 132 and the second limiting part 1211 cooperate, and the first mounting part 131 cooperates with the second mounting part 1212. When the adjusting member 120 is set to the second configuration and installed on the mounting member 130, the first limiting part 132 and the third limiting part 1221 cooperate, and the first mounting part 131 cooperates with the third mounting part 1222. This allows for connection between the adjusting member 120 and the mounting member 130 without requiring the user to align them, thus facilitating the use of the support assembly 100.
[0061] See Figures 6 to 9 As shown, in an optional embodiment, the mounting component 130 includes a first plate 134, a second plate 135, and an intermediate connecting plate 136. One end of the intermediate connecting plate 136 is connected to the first plate 134 along a second direction B, and the other end is connected to the second plate 135. In the first direction A, the first plate 134 and the second plate 135 are located on opposite sides of the intermediate connecting plate 136. The second direction B is perpendicular to the first direction A. A first limiting portion 132 is the sidewall of the intermediate connecting plate 136 near the second plate 135, and a first mounting portion 131 is provided on the second plate 135.
[0062] The intermediate connecting plate 136 forms a space between the second plate 135 and the device to be supported, which is used to accommodate the adjusting member 120. In a preferred embodiment, the dimensions of the intermediate connecting plate 136 in the second direction B are the same as the dimensions of the adjusting member 120 in the second direction B. When the adjusting member 120 is connected to the mounting member 130, the side of the adjusting member 120 facing the device to be supported is flush with the side of the first plate 134 facing the device to be supported.
[0063] Furthermore, the second plate 135 is provided with a partition 137, which extends along the first direction A. One end of the partition 137 along the first direction A abuts against the intermediate connecting plate 136, and the partition 137 abuts against the adjusting member 120 along one side wall of the third direction C. The third direction C is perpendicular to the first direction A and the second direction B.
[0064] Thus, when connecting the adjusting member 120 and the mounting member 130, the partition plate 137 abuts against the adjusting member 120 along the third direction C, thereby positioning the adjusting member 120 relative to the mounting member 130 in the third direction C; the intermediate connecting plate 136 abuts against the adjusting member 120 in the first direction A, thereby positioning the adjusting member 120 relative to the mounting member 130 in the first direction A, which facilitates the connection and alignment between the adjusting member 120 and the mounting member 130, and thus facilitates the use of the support assembly 100.
[0065] In an optional embodiment, the mounting member 130 is provided with a mounting groove. The first limiting part 132 is the inner sidewall of the mounting groove along the first direction A, and the first mounting part 131 is provided on the bottom wall of the mounting groove.
[0066] Correspondingly, the second limiting part 1211 is the end face of the first adjusting part 121 in the first direction A, and the third limiting part 1221 is the end face of the second adjusting part 122 in the first direction A. When the adjusting member 120 is in the first state and is installed on the mounting member 130, the end face of the first adjusting part 121 in the first direction A abuts against the inner wall of the mounting groove along the first direction A, and the positions of the first mounting part 131 and the second mounting part 1212 correspond, facilitating the user to connect the first mounting part 131 and the second mounting part 1212. When the adjusting member 120 is in the second state and is installed on the mounting member 130, the end face of the second adjusting part 122 in the first direction A abuts against the inner wall of the mounting groove along the first direction A, and the positions of the first mounting part 131 and the third mounting part 1222 correspond, facilitating the user to connect the first mounting part 131 and the third mounting part 1222.
[0067] With the above settings, the connection between the adjusting member 120 and the mounting member 130 can be achieved without the user aligning the adjusting member 120 and the mounting member 130, thereby facilitating the use of the support component 100.
[0068] In alternative embodiments, the first limiting part 132 can also be configured in other forms. A protruding structure can be provided on the mounting member 130 as the first limiting part 132 to limit the adjusting member 120 and the mounting member 130 in the first direction A.
[0069] In an optional embodiment, see Figure 1 and Figure 2 As shown, the first adjustment part 121 and the second adjustment part 122 are rotatably connected, and the rotation axes of the first adjustment part 121 and the second adjustment part 122 are perpendicular to the first direction A.
[0070] Specifically, the pivots of the first adjustment section 121 and the second adjustment section 122 extend along the second direction B.
[0071] When the adjusting member 120 is in the first configuration, the included angle between the first adjusting part 121 and the second adjusting part 122 is 0°; when the adjusting member 120 is in the second configuration, the included angle between the first adjusting part 121 and the second adjusting part 122 is 180°. By causing the first adjusting part 121 and the second adjusting part 122 to rotate relative to each other, the dimension of the adjusting member 120 in the first direction A is changed, thereby realizing the adjustment of the dimension of the support assembly 100 in the first direction A.
[0072] In an optional embodiment, see Figure 1-3 As shown, when the first adjusting part 121 includes a plurality of second mounting parts 1212 and the second adjusting part 122 includes a plurality of third mounting parts 1222, at least one second mounting part 1212 and at least one third mounting part 1222 are coincidentally disposed at the rotation center of the first adjusting part 121 and the second adjusting part 122. When the mounting member 130 includes a plurality of first mounting parts 131, it includes at least two first mounting parts 131, and the two first mounting parts 131 are respectively coincidentally connected to and correspondingly connected to the rotation center of the first adjusting part 121 and the second adjusting part 122 of the adjusting member 120 in the first and second forms.
[0073] In a specific embodiment, the rotation axis of the first adjusting part 121 and the second adjusting part 122 extends along a second direction B, wherein the second direction B is perpendicular to the first direction A. The first mounting part 131 includes a plurality of spaced-apart through holes. The second mounting part 1212 and the third mounting part 1222 each include a plurality of spaced-apart through holes, and one of the second mounting parts 1212 and the third mounting part 1222 is located at the rotation center of the second adjusting part 122 and the third adjusting part. The first mounting part 131, the second mounting part 1212, and the third mounting part 1222 are configured as through holes extending along the second direction B. When the adjusting member 120 is in the first configuration, the first mounting part 131, the second mounting part 1212, and the third mounting part 1222 overlap and are correspondingly connected. When the adjusting member 120 is in the second state, the first mounting part 131 is connected to the third mounting part 1222 and is correspondingly connected. The second mounting part 1212, which is provided on the rotating shaft of the first adjusting part 121 and the second adjusting part 122, is connected to the first mounting part 131 and is correspondingly connected to the third mounting part 1222.
[0074] During installation, fasteners can be inserted through the first mounting part 131, the second mounting part 1212, and the third mounting part 1222 at one time for fixation.
[0075] In alternative embodiments, see Figure 1 and Figure 2 As shown, the rotation centers of the first adjustment part 121 and the second adjustment part 122 can also extend along a third direction C.
[0076] When the rotation centers of the first adjusting part 121 and the second adjusting part 122 can extend along a third direction C, in order to avoid affecting the structural strength of the adjusting member 120, when the adjusting member 120 is in the first state, the first mounting part 131, the second mounting part 1212, and the third mounting part 1222 overlap and are correspondingly connected. When the adjusting member 120 is in the second state, the first mounting part 131 is connected to the third mounting part 1222 overlap and are correspondingly connected, that is, the second mounting part 1212 and the third mounting part 1222 are not provided at the rotation centers of the first adjusting part 121 and the second adjusting part 122.
[0077] In an optional embodiment, the first adjustment part 121 and the second adjustment part 122 are slidably connected along the first direction A.
[0078] Specifically, the first adjusting part 121 may be provided with a sliding groove, and the second adjusting part 122 may be a slider embedded inside the sliding groove of the first adjusting part 121. When the adjusting member 120 is in the first state, the first mounting part 131, the second mounting part 1212, and the third mounting part 1222 overlap and are correspondingly connected. When the adjusting member 120 is in the second state, the first mounting part 131 and the third mounting part 1222 overlap and are correspondingly connected.
[0079] During installation, when the adjusting member 120 is in the first configuration, it can be fixed by fasteners passing through the first mounting portion 131, the second mounting portion 1212, and the third mounting portion 1222. When the adjusting member 120 is in the second configuration, it can be fixed by fasteners passing through the first mounting portion 131 and the third mounting portion 1222, and the fasteners limit the movement of the first adjusting portion 121 relative to the second adjusting portion 122 in the first direction A.
[0080] In an optional embodiment, the first adjusting portion 121 includes a first engaging portion 1223, and the second adjusting portion 122 includes a first mating portion 1213. In the direction in which the first adjusting portion 121 rotates relative to the second adjusting portion 122, the first engaging portion 1223 extends outward along the edge of the first adjusting portion 121, and the first mating portion 1213 is recessed inward along the edge of the second adjusting portion 122. When the first adjusting portion 121 is in a first position relative to the second adjusting portion 122, the first engaging portion 1223 and the first mating portion 1213 are engaged and connected.
[0081] Specifically, the first engaging part 1223 is configured as an arc-shaped protrusion, and the first mating part 1213 is configured as a mutually recessed structure.
[0082] With the above settings, during the adjustment of the adjusting member 120, the relative positions of the first adjusting part 121 and the second adjusting part 122 can be limited, thereby facilitating the overlap and corresponding connection between the second mounting part 1212, the third mounting part 1222 and the first mounting part 131. The connection between the adjusting member 120 and the mounting part 130 can be achieved without the user aligning the adjusting member 120 and the mounting part 130, thereby facilitating the use of the support assembly 100.
[0083] It should be noted that the technical solutions or features described in the above embodiments can be combined or complemented by each other without conflict. The scope of protection of this disclosure is not limited to the precise structures described in the above embodiments and shown in the accompanying drawings; all modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this disclosure should be included within the scope of protection of this disclosure.
Claims
1. A support assembly, characterized by, include: Support legs; An adjusting member is disposed on the support leg. The adjusting member includes a first adjusting part and a second adjusting part, which are movably connected to each other to change the size of the adjusting member in a first direction. At least one of the first adjusting part and the second adjusting part includes a mounting part for connecting the device to be supported.
2. The support assembly of claim 1, wherein, The first adjusting part and the second adjusting part are rotatably connected, and the rotation axes of the first adjusting part and the second adjusting part are perpendicular to the first direction.
3. The support assembly of claim 2, wherein, The first adjustment part includes a plurality of second mounting parts, and the second adjustment part includes a plurality of third mounting parts, wherein at least one second mounting part and at least one third mounting part are disposed at the rotation center of the first adjustment part and the second adjustment part.
4. The support assembly of claim 1, wherein, The first adjustment part and the second adjustment part are slidably connected along the first direction.
5. The support assembly of claim 1, wherein, The first adjusting part includes a first engaging part, and the second adjusting part includes a first mating part; In the direction in which the first adjusting part rotates relative to the second adjusting part, the first engaging part extends outward along the edge of the first adjusting part, and the first mating part is recessed inward along the edge of the second adjusting part; When the first adjusting part is in the first position relative to the second adjusting part, the first engaging part engages with the first mating part.
6. The support assembly of claim 1, wherein, The first adjusting part includes a second engaging part, and the second adjusting part includes a second mating part; In the direction in which the first adjusting part rotates relative to the second adjusting part, the second engaging part extends outward along the edge of the first adjusting part, and the second mating part extends outward along the edge of the second adjusting part; When the first adjusting part is in the second position relative to the second adjusting part, the second engaging part abuts against the second mating part to limit the maximum angle of relative rotation between the first adjusting part and the second adjusting part.
7. An electronic device, comprising: It includes a main body and a support assembly as described in any one of claims 1-6, wherein the adjusting member of the support assembly is detachably connected to the main body of the device via the mounting portion.
8. The electronic device according to claim 7, characterized in that, It also includes a mounting component connected to the lower part of the equipment body; the adjusting component is detachably connected to the mounting component via the mounting part; and the support leg is located below the equipment body.
9. The electronic device of claim 8, wherein, The mounting component is provided with a first limiting part and a first mounting part; The first adjustment part is provided with a second limiting part and a second mounting part, and the second adjustment part is provided with a third limiting part and a third mounting part; The adjusting member includes a first form and a second form. In the first form, the first adjusting part is located at a first position relative to the second adjusting part, the second limiting part abuts against the first limiting part, the second mounting part corresponds to the position of the first mounting part, and the adjusting member and the mounting member are connected to the first mounting part through the second mounting part. In the second configuration, the first adjusting part is located in a second position relative to the second adjusting part, the third limiting part abuts against the first limiting part, the third mounting part corresponds to the position of the first mounting part, and the adjusting member and the mounting member are connected to the first mounting part through the third mounting part.
10. The electronic device of claim 9, wherein, The distance between the first limiting part and the first mounting part is the first distance, the distance between the second limiting part and the second mounting part is the second distance, and the distance between the third limiting part and the third mounting part is the third distance. The first distance, the second distance, and the third distance are equal.
11. The electronic device of claim 9, wherein, The mounting component is provided with a mounting groove, the first limiting part is the inner sidewall of the mounting groove along the first direction, and the first mounting part is provided on the bottom wall of the mounting groove.
12. The electronic device of claim 9, wherein, The mounting component includes a first plate, a second plate, and an intermediate connecting plate; one end of the intermediate connecting plate is connected to the first plate along a second direction, and the other end is connected to the second plate; in the first direction, the first plate and the second plate are located on both sides of the intermediate connecting plate; the second direction is perpendicular to the first direction. The first limiting part is the side wall of the intermediate connecting plate near the second plate, and the first mounting part is provided on the second plate.
13. The electronic device of claim 12, wherein, The second plate is provided with a partition, which extends along the first direction. One end of the partition along the first direction abuts against the intermediate connecting plate, and one side wall of the partition along the third direction abuts against the adjusting member. The third direction is perpendicular to the first direction and the second direction.