Desktop bracket
The desktop bracket features a split design, utilizing connectors and connecting components to achieve detachable connection between the support plate and accessories. This solves the problems of inconvenient transportation and position adjustment of existing products, and improves assembly and disassembly efficiency and material selection.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NINGBO TUOTUO RIVER DESIGN CO
- Filing Date
- 2025-09-10
- Publication Date
- 2026-07-03
AI Technical Summary
The existing desktop riser and storage rack designs are inconvenient for transportation and storage, and their positions cannot be flexibly adjusted, limiting their applicability.
The desktop bracket features a split design, allowing for detachable connection between the support plate and accessories via plug-in connectors and connecting components, providing a flexible assembly and disassembly method.
It significantly reduces the difficulty of disassembly and assembly, improves disassembly and assembly efficiency, reduces the space occupied during transportation, and enhances the selectivity and applicability of materials.
Smart Images

Figure CN224454240U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the technical field of office supplies and household products, and in particular relates to a desktop holder. Background Technology
[0002] To improve desktop space utilization and user experience, people often place various tools such as risers and shelves on their desks. Among them, risers, by raising the monitor or laptop to an ergonomic height, can effectively relieve neck pressure and improve work efficiency, while also having storage function and aesthetic value; shelves, through multi-layered storage space design, significantly improve desktop space utilization and item storage efficiency.
[0003] Currently, most riser shelves and storage racks on the market adopt a one-piece molding design. However, this design results in these products taking up a lot of space during transportation and storage due to their large size, leading to a significant increase in transportation costs and making them inconvenient to store. Moreover, this design also fixes the relative position between the shelf and the legs, making it difficult to flexibly adjust according to actual usage scenarios, failing to meet diverse installation needs, and limiting their applicability. These problems greatly affect the user experience.
[0004] Therefore, there is an urgent need for a desktop holder to solve the above problems. Utility Model Content
[0005] In view of the shortcomings of the existing technology, the purpose of this utility model is to provide a desktop bracket that adopts a split design and is easy and quick to assemble and disassemble, which significantly reduces the difficulty of assembly and disassembly, improves the efficiency of assembly and disassembly, and enhances the user experience.
[0006] To achieve this objective, the present invention adopts the following technical solution:
[0007] A desktop holder is provided, comprising:
[0008] Support plate and several accessories that can be detachably connected to the support plate;
[0009] Several plug-in parts and several connecting components are provided. Each accessory and one of the support plates are provided with several plug-in parts, and each accessory and the other of the support plate are provided with several connecting components. Each plug-in part is provided with several connecting slots.
[0010] Each accessory is detachably connected to the support plate via at least one plug and at least one connecting component;
[0011] The connecting component can be slid to engage with several connecting slots on the corresponding connector, connecting the support plate to the corresponding accessory; or, the connecting component can be slid to disengage from several connecting slots on the corresponding connector, separating the support plate from the corresponding accessory.
[0012] Optionally, the support plate includes multiple connected plates, and several accessories connected to the support plate include multiple first legs and multiple second legs. Each first leg is connected to a plate via at least one connector and at least one connecting component, and each second leg is connected to two adjacent plates via at least one connector and at least one connecting component, so as to connect the corresponding two plates.
[0013] Optionally, each connection component includes multiple connectors, wherein the multiple connectors are independent of each other or interconnected; each plug-in component includes multiple plug-in bodies, wherein the multiple plug-in bodies are independent of each other or interconnected.
[0014] A connector is provided with a connecting slot, which is formed by any two adjacent connector bodies. Multiple connectors of a connector assembly are slidably engaged with a connecting slot.
[0015] Alternatively, a connector may have multiple connection slots, with several connection slots formed on any two adjacent connector bodies or one connection slot on each connector body. The multiple connection slots on a connector correspond one-to-one with the multiple connectors of a connection assembly.
[0016] Optionally, the support plate includes one or more first connection areas, and each first connection area is provided with a first connection hole group and a second connection hole group spaced a first distance apart;
[0017] Each connecting component includes two independent connectors; one connector in each connecting component can be connected to the support plate through a first set of connecting holes, and the other connector in each connecting component can be connected to the support plate through a second set of connecting holes;
[0018] Alternatively, each connector may include two independent connector bodies; one connector body in each connector may be connected to the support plate via a first set of connecting holes, and the other connector body in each connector may be connected to the support plate via a second set of connecting holes.
[0019] Optionally, the support plate includes one or more second connection areas, and each second connection area is provided with a third connection hole group and a fourth connection hole group spaced a second distance apart;
[0020] Each connecting component includes two independent connectors; one connector in each connecting component can be connected to the support plate through a third connecting hole group, and the other connector in each connecting component can be connected to the support plate through a fourth connecting hole group.
[0021] Alternatively, each connector may include two independent connector bodies; one connector body in each connector may be connected to the support plate via a third connection hole group, and the other connector body in each connector may be connected to the support plate via a fourth connection hole group.
[0022] Optionally, the connecting groove includes a first groove and a second groove that are connected. The first groove is opened in the direction where the connecting component is located, and the second groove is opened in the sliding direction of the connecting component. The connecting groove has a groove on its side wall along the first direction, and the connecting component has a flange. When the support plate is connected to the accessory, the flange is engaged in the groove. The first direction is set at an angle to the opening direction of the first groove.
[0023] Alternatively, the groove of the connecting slot is opened in the sliding direction of the connecting component, the connecting component is bent, one end of the connecting component is connected to the support plate or accessory, and the other end can be inserted into the connecting slot.
[0024] Optionally, the connector may be detachably connected to a corresponding accessory or support plate; and / or, the connection assembly may be detachably connected to a corresponding accessory or support plate.
[0025] Optionally, a limiting groove is provided on the wall of the connecting groove, and an elastic limiting member is provided on the connecting component. The elastic limiting member can be inserted into the limiting groove to limit the position of the connecting component in the connecting groove.
[0026] Optionally, the elastic limiting member is provided with a guide surface that slides with the wall of the connecting groove. The guide surface is curved or inclined, and the elastic limiting member enters or leaves the limiting groove along the guide surface.
[0027] Optionally, the connecting groove has two symmetrically arranged side groove walls, which gradually approach the other side groove wall along a preset direction, which is the sliding direction when the connecting component is inserted into the connecting groove.
[0028] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0029] This utility model provides a desktop bracket. A connecting component is slid relative to its corresponding connecting slot until it engages, thus connecting one accessory to the support plate. Assembly of the desktop bracket is completed once several accessories are connected to the support plate. Similarly, disassembly of the desktop bracket is achieved by sliding the connecting component relative to its corresponding connecting slot until it disengages. Disassembly of the desktop bracket is completed once several accessories are separated from the support plate. Compared to existing technologies, the desktop bracket provided by this utility model features a separate design for the support plate and accessories. The assembly and disassembly processes of the support plate and accessories are convenient and quick, significantly reducing the difficulty of assembly and disassembly. It also allows for secondary assembly and disassembly, improving efficiency and user experience. Attached Figure Description
[0030] Figure 1 A schematic diagram of the structure of the desktop holder provided by this utility model;
[0031] Figure 2 Exploded view of the desktop bracket provided by this utility model when it is upside down;
[0032] Figure 3 A schematic diagram of the structure of the connecting component of the desktop bracket provided by this utility model, which slides in the connecting groove on the first leg;
[0033] Figure 4 A schematic diagram of the structure of the desktop bracket provided by this utility model, showing the connecting component snapping into the connecting groove on the first leg;
[0034] Figure 5 A schematic diagram of the structure of the connecting component of the desktop bracket provided by this utility model, which slides in the connecting groove on the second leg (hidden connector);
[0035] Figure 6 A schematic diagram of the structure of the desktop bracket provided by this utility model, showing the connecting component snapping into the connecting groove on the second leg;
[0036] Figure 7 A schematic diagram of the connecting component of the desktop bracket provided by this utility model;
[0037] Figure 8 A plan view of the connector for the desktop holder provided by this utility model;
[0038] Figure 9 Exploded view of the connectors and accessories of the desktop bracket provided by this utility model;
[0039] Figure 10 A structural schematic diagram of the accessories for the desktop holder provided by this utility model;
[0040] Figure 11A schematic diagram of the connecting components of the desktop holder provided by this utility model;
[0041] Figure 12 A plan view of the connecting components of the desktop holder provided by this utility model;
[0042] Figure 13 Exploded view of the support plate, accessories and connecting components of the desktop bracket provided by this utility model;
[0043] Figure 14 A plan view of the desktop bracket provided by this utility model when the connecting component is inserted into the connecting slot;
[0044] Figure 15 A top view of the desktop holder accessory provided by this utility model.
[0045] in:
[0046] 1. Support plate; 11. Panel body;
[0047] 2. Attachments; 21. First leg; 22. Second leg;
[0048] 3. Connector; 31. Connecting groove; 312. Side groove wall; 32. Groove; 33. Limiting groove;
[0049] 4. Connecting component; 41. Connector; 42. Flange; 43. Elastic limiting component; 431. Guide surface;
[0050] 51. First fastener; 52. Second fastener. Detailed Implementation
[0051] It should be understood that in the description of this utility model, the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", and "outer" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and 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 utility model.
[0052] It should be noted that, in the description of this utility model, unless otherwise explicitly specified and limited, the terms "set," "connected," and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.
[0053] The technical solution of this utility model will be further described below with reference to the accompanying drawings and specific embodiments.
[0054] like Figures 1 to 15 As shown, this embodiment provides a desktop bracket with a split design, which is convenient and quick to assemble and disassemble, significantly reducing the difficulty of assembly and disassembly, improving the efficiency of assembly and disassembly, and enhancing the user experience.
[0055] See Figure 1 and Figure 2 The desktop bracket includes a support plate 1, several accessories 2, several connectors 3, and several connecting components 4. The accessories 2 are detachably connected to the support plate 1. Each accessory 2 has several connectors 3 on one of its connections to the support plate 1, and each accessory 2 has several connecting components 4 on the other of its connection to the support plate 1. Each connector 3 has several connecting slots 31. Each accessory 2 is detachably connected to the support plate 1 through at least one connector 3 and at least one connecting component 4. Driving the connecting component 4 to slide allows it to engage with the connecting slots 31 on the corresponding connector 3, connecting the support plate 1 to the corresponding accessory 2. Alternatively, driving the connecting component 4 to slide allows it to disengage from the connecting slots 31 on the corresponding connector 3, separating the support plate 1 from the corresponding accessory 2.
[0056] The desktop bracket provided in this embodiment drives the connecting component 4 to slide relative to the corresponding connecting slot 31 until the connecting component 4 is engaged in the corresponding connecting slot 31, thereby completing the connection of one accessory 2 to the support plate 1. The desktop bracket assembly is completed after several accessories 2 are connected to the support plate 1. Similarly, the desktop bracket is disassembled after the connecting component 4 slides relative to the corresponding connecting slot 31 until it disengages from the corresponding connecting slot 31. Compared with the prior art, the desktop bracket provided in this embodiment features a separate design for the support plate 1 and accessories 2. The assembly and disassembly processes of the support plate 1 and accessories 2 are convenient and quick, significantly reducing the difficulty of assembly and disassembly. It also allows for secondary assembly and disassembly, improving efficiency and user experience.
[0057] During the production process, the support plate 1 and accessory 2 can be produced separately. Compared with one-piece molding such as injection molding, the support plate 1 and accessory 2 can be made of various materials including but not limited to plastic, wood, and metal. That is, the materials of the support plate 1 and accessory 2 of the desktop bracket provided in this embodiment can be selected separately as needed, making its material adaptability stronger and improving its material selection and production flexibility.
[0058] During transportation, the support plate 1 of the desktop bracket and accessory 2 can be separated and stored separately, thereby effectively improving space utilization, reducing transportation costs, reducing space occupation, and facilitating transportation.
[0059] Specifically, the accessory 2 is connected to the support plate 1 by driving the connecting component 4 to slide within the connecting groove 31. This not only ensures a stable connection but also provides easy support. Moreover, compared to the prior art where screws are used to directly connect the accessory 2 to the support plate 1, the accessory 2 provided in this embodiment can be repeatedly connected and separated from the support plate 1 without easily causing damage at the connection point.
[0060] For example, Annex 2 includes, but is not limited to, various types of Annex 2 such as support legs, cup holders, headphone hangers, and mobile phone and tablet stands.
[0061] Specifically, when there is only one Attachment 2, the connector 3 is mounted on Attachment 2, and the connecting component 4 can only be mounted on the support plate 1; or, the connector 3 is mounted on the support plate 1, and the connecting component 4 can only be mounted on Attachment 2. When there are multiple Attachments 2, if any Attachment 2 has a connector 3, then the connecting component 4 is mounted on the support plate 1 at the connection point between this Attachment 2 and the support plate 1; if another Attachment 2 has a connecting component 4, then the connector 3 is mounted on the support plate 1 at the connection point between this Attachment 2 and the support plate 1. Wherein, when the connector 3 has one connecting slot 31, the connecting component 4 connected to the connector 3 only engages in one connecting slot 31; when the connector 3 has multiple connecting slots 31, the connecting component 4 connected to the connector 3 can engage in multiple connecting slots 31 simultaneously.
[0062] Optionally, see Figure 2 , Figure 3 and Figure 5The support plate 1 includes multiple interconnected plate bodies 11. Several attachments 2 connected to the support plate 1 include multiple first legs 21 and multiple second legs 22. Each first leg 21 is connected to one plate body 11 via at least one connector 3 and at least one connecting component 4. Each second leg 22 is connected to two adjacent plate bodies 11 via at least one connector 3 and at least one connecting component 4, thus connecting the corresponding two plate bodies 11. This arrangement allows a plate body 11 to be supported by one first leg 21 via at least one connector 3 and at least one connecting component 4, while the plate body 11 and its adjacent plate bodies 11 can be simultaneously supported by one second leg 22 via at least one connector 3 and at least one connecting component 4, ensuring that each plate body 11 receives multi-point support and improving the stability of the desktop bracket when placed on a desktop. Furthermore, when the connecting component 4 corresponding to the second leg 22 is inserted into the connecting slot 31 on the corresponding connector 3, not only can the connection between the second leg 22 and the support plate 1 be achieved, but also the two adjacent plates 11 can be connected through the connecting component 4 and the connector 3. That is, the connection between the second leg 22 and the support plate 1 and the connection between the two adjacent plates 11 can be completed simultaneously, significantly improving the assembly efficiency of the desktop bracket. In this embodiment, see reference... Figure 2 Each first leg 21 and each second leg 22 is provided with a connector 3, and the connecting components 4 are all provided on the plate body 11. When the connecting components 4 are snapped into the connecting slots 31 on the corresponding connectors 3, the corresponding first leg 21 or the corresponding second leg 22 can be connected to the corresponding plate body 11.
[0063] For example, see Figure 2 One end of the connecting component 4 is connected to one of the two adjacent plates 11, and the other end of the connecting component 4 is connected to the other of the two adjacent plates 11. Thus, when the connecting component 4 is inserted into the connecting groove 31 on the second leg 22, the connection between the second leg 22 and the two adjacent plates 11, as well as the connection between the two adjacent plates 11, can be completed.
[0064] In other embodiments, a portion of the first leg 21 is provided with a connector 3, and another portion of the first leg 21 is provided with a connecting component 4. Regardless of whether the first leg 21 is provided with a connector 3 or a connecting component 4, as long as the component provided at the connection between the plate 11 and the first leg 21 is different from the component provided on the first leg 21, and they can be connected to each other, it is acceptable. There is one second leg 22. When the second leg 22 is provided with a connector 3, the two corresponding plates 11 are provided with connecting components 4; when the second leg 22 is provided with a connecting component 4, the two corresponding plates 11 are provided with connectors 3. There are multiple second legs 22. Some of the second legs 22 are provided with connectors 3, and another portion of the second legs 22 are provided with connecting components 4. Regardless of whether the second leg 22 is provided with a connector 3 or a connecting component 4, as long as the component provided on the two corresponding adjacent plates 11 is different from the component provided on the second leg 22, and they can be connected to each other, it is acceptable.
[0065] See Figure 2 Multiple panels 11 are laid horizontally above Appendix 2, and any two adjacent panels 11 are joined together.
[0066] See Figure 2 The desktop bracket comprises two panels 11, four first legs 21, and two second legs 22. Both panels 11 are horizontally placed and are rectangular flat plates. Connecting components 4 are provided at the four corners of each panel 11. Two first legs 21 are provided at the two top corners of the lower surface of the left panel 11, and two first legs 21 are also provided at the two top corners of the lower surface of the right panel 11. Two second legs 22 are provided at the top corners of the lower surfaces of the two panels 11 that are close to each other at one end.
[0067] In some embodiments, the number of the first leg 21 and the second leg 22 may be fewer or more.
[0068] For example, based on Figure 2 In a variation of the illustrated embodiment, a first support leg 21 is provided at the left end of the left plate 11, and a first support leg 21 is provided at the right end of the right plate 11; alternatively, the first support leg 21 is located at the middle of the lower surface of the plate 11. A second support leg 22 is provided at the middle position of the ends of the two plates 11 that are close to each other.
[0069] Optionally, see Figure 2 , Figure 7 and Figure 9Each connecting component 4 includes multiple connectors 41, which are independent of each other or interconnected; each plug-in component 3 includes multiple plug-in bodies (not shown in the figure), which are independent of each other or interconnected. This arrangement allows for the flexible production of the desktop tray by setting different numbers of connectors 41 and plug-in bodies at the connection points between the support plate 1 and each accessory 2, depending on the connection position and strength requirements between the accessory 2 and the support plate 1. Specifically, when multiple connectors 41 and multiple plug-in bodies are independent of each other, multiple connectors 41 and multiple plug-in bodies can be produced simultaneously using only one manufacturing mold during the manufacturing process, which helps improve the efficiency of manufacturing the connectors 41 and plug-in bodies. For example, when multiple connectors 41 are interconnected, the connecting component 4 also includes a connecting seat, where the connectors 41 are disposed, and the multiple connectors 41 are interconnected through the connecting seat.
[0070] In this embodiment, see Figure 4 and Figure 5 Each connector 3 has a connecting groove 31, which is formed by any two adjacent connector bodies. Multiple connectors 41 of a connecting assembly 4 are slidably engaged with a connecting groove 31. This arrangement helps to improve the design and layout flexibility of the connecting assembly 4.
[0071] In other embodiments, see Figure 9 A connector 3 has multiple connecting slots 31. Several connecting slots 31 can be formed on any two adjacent connector bodies, or each connector body can have one connecting slot 31. The multiple connecting slots 31 on a connector 3 correspond one-to-one with the multiple connectors 41 of a connecting assembly 4. This arrangement ensures that one connector 41 corresponds to one connecting slot 31, allowing simultaneous sliding between the connectors 41 without interference, thus improving the flexibility of the connector 41 and connecting slot 31 arrangement. Furthermore, when a connector 41 cannot connect smoothly to its corresponding connecting slot 31, the user can quickly locate the position of the connector 41 that cannot connect smoothly.
[0072] In an optional embodiment, the support plate 1 includes one or more first connection areas, each of which is provided with a first connection hole group and a second connection hole group spaced a first distance apart.
[0073] In this embodiment, each connecting component 4 includes two independent connectors 41. One connector 41 of each connecting component 4 can be connected to the support plate 1 through a first set of connecting holes, and the other connector 41 of each connecting component 4 can be connected to the support plate 1 through a second set of connecting holes. This arrangement allows users or staff to install the connecting components 4 at different positions on the support plate 1 according to different usage scenarios during the connection process, significantly improving the flexibility of installing the connecting components 4 on the support plate 1 and expanding the applicability of the desktop bracket.
[0074] Specifically, when there is one first connection area, there is only one place where the connecting component 4 can be connected to the support plate 1; when there are multiple first connection areas, each connecting component 4 can choose any one of the first connection areas for installation, which significantly improves the flexibility of the connecting component 4 in the installation on the support plate 1.
[0075] In other embodiments, each connector 3 includes two independent connector bodies; one connector body of each connector 3 can be connected to the support plate 1 through a first set of connecting holes, and the other connector body of each connector 3 can be connected to the support plate 1 through a second set of connecting holes. This arrangement allows users or staff to install the connectors 3 at different positions on the support plate 1 according to different usage scenarios during the connection process, significantly improving the flexibility of installing the connectors 3 on the support plate 1 and expanding the applicability of the desktop bracket.
[0076] Specifically, when there is only one first connection area, there is only one place where the connector 3 can be connected to the support plate 1; when there are multiple first connection areas, each connector 3 can be installed in any one of the first connection areas, which significantly improves the flexibility of the connector 3 in the installation on the support plate 1.
[0077] For example, the first connecting region can be located at the edge of the plate 11 or at the center of the plate 11. The first connecting region can extend along the length direction of the plate 11, or along the width direction of the plate 11, or in a direction that forms an angle with the length and width directions of the plate 11.
[0078] For example, both the first connection hole group and the second connection hole group include a plurality of first connection holes, and the number of first connection holes is determined according to the specific circumstances of the desktop bracket.
[0079] In another alternative embodiment, the support plate 1 includes one or more second connection areas, each of which is provided with a third connection hole group and a fourth connection hole group spaced a second distance apart.
[0080] In this embodiment, each connecting component 4 includes two independent connectors 41; one connector 41 of each connecting component 4 can be connected to the support plate 1 through a third connecting hole group, and the other connector 41 of each connecting component 4 can be connected to the support plate 1 through a fourth connecting hole group. This arrangement allows users or staff to install the connecting components 4 at different positions on the support plate 1 according to different usage scenarios during the connection process, significantly improving the flexibility of installing the connecting components 4 on the support plate 1 and expanding the applicability of the desktop bracket.
[0081] Specifically, when there is one second connection area, there is only one place where the connecting component 4 can be connected to the support plate 1; when there are multiple second connection areas, each connecting component 4 can choose any one of the first connection areas for installation, which significantly improves the flexibility of the connecting component 4 in the installation on the support plate 1.
[0082] In other embodiments, each connector 3 includes two independent connector bodies; one connector body in each connector 3 can be connected to the support plate 1 through a third connecting hole group, and the other connector body in each connector 3 can be connected to the support plate 1 through a fourth connecting hole group. This arrangement allows users or staff to install the connectors 3 at different positions on the support plate 1 according to different usage scenarios during the connection process, significantly improving the flexibility of installing the connectors 3 on the support plate 1 and expanding the applicability of the desktop bracket.
[0083] Specifically, when there is only one second connection area, there is only one place where the connector 3 can be connected to the support plate 1; when there are multiple second connection areas, each connector 3 can choose any one of the first connection areas for installation, which significantly improves the flexibility of the connector 3 in installation on the support plate 1.
[0084] For example, the second connecting region can be located at the edge of the plate 11 or at the center of the plate 11. The second connecting region can extend along the length direction of the plate 11, or along the width direction of the plate 11, or in a direction that forms an angle with the length and width directions of the plate 11, as long as the second connecting region does not coincide with the first connecting region.
[0085] For example, both the third and fourth connection hole groups include a plurality of second connection holes, the number of which is determined according to the specific circumstances of the desktop bracket.
[0086] In another optional embodiment, the support plate 1 includes one or more first connecting areas and one or more second connecting areas. Each first connecting area is provided with a first connecting hole group and a second connecting hole group spaced a first distance apart. Each second connecting area is provided with a third connecting hole group and a fourth connecting hole group spaced a second distance apart. The second connecting areas and the first connecting areas are different areas on the support plate 1, and the value of the second distance is different from the value of the first distance. This arrangement allows the spacing between the two connectors 41 of one connecting component 4 to be different from the spacing between the two connectors 41 of another connecting component 4 when the connecting component 4 is mounted on the support plate 1. Similarly, when the plug-in component 3 is mounted on the support plate 1, the spacing between the two plug-in bodies of one plug-in component 3 to be different from the spacing between the two plug-in bodies of another plug-in component 3. This further improves the flexibility of installing the connecting components 4 and the plug-in component 3 on the support plate 1 and helps to expand the applicability of the desktop bracket.
[0087] For example, when the cross-sectional width of Annex 2 is large, in order to ensure the stability of the connection, the spacing between the two connectors 41 of each connecting component 4 or the spacing between the two plug-in bodies of each plug-in 3 is large; when the cross-sectional width of Annex 2 is small, due to the limitation of the cross-sectional width, the spacing between the two connectors 41 of each connecting component 4 or the spacing between the two plug-in bodies of each plug-in 3 is small.
[0088] In an optional embodiment, see [link to relevant documentation] Figure 2 and Figure 10 The connecting groove 31 includes a first groove and a second groove that are connected to each other, with the first groove facing the direction where the connecting component 4 is located. Figure 10 The second slot is opened in the positive Z direction, and the second slot faces the sliding direction of the connecting component 4. Figure 10 The first slot is located in the negative X direction. The connecting component 4 can enter the connecting groove 31 via the second slot. The first slot effectively prevents the groove wall of the connecting groove 31 in the direction of the connecting component 4 from affecting the sliding of the connecting component 4 within the connecting groove 31. (See also...) Figure 2 , Figure 10 and Figure 11 The connecting groove 31 is along the first direction ( Figure 10 A groove 32 is provided on the side wall (in the X and / or Y directions) of the connecting component 4, and a flange 42 is provided on the connecting component 4. When the support plate 1 is connected to the accessory 2, the flange 42 is engaged in the groove 32, and the first direction is set at an angle to the opening direction of the first slot. The flange 42 and the groove 32 can effectively constrain the position of the connecting component 4 in the connecting groove 31 and prevent the connecting component 4 from disengaging from the connection point through the first slot.
[0089] See Figure 10 and Figure 11The flange 42 extends circumferentially along the connecting component 4, and the groove 32 is recessed in a direction away from the connecting groove 31. The groove 32 and the connecting groove 31 together form a stepped groove.
[0090] In another alternative embodiment, see [link to relevant documentation]. Figure 13 The groove of the connecting groove 31 faces the sliding direction of the connecting component 4. Figure 13 The connecting component 4 is bent and has one end connected to the support plate 1 or accessory 2, while the other end can be inserted into the connecting groove 31. This design ensures that the connecting component 4 can only enter the connecting groove 31 along its sliding direction and will not disengage from the connecting groove 31 in other directions.
[0091] For example, the cross-sectional shape of the connecting component 4 is L-shaped, and the long side of the L-shaped connecting component 4 can be inserted into the connecting groove 31.
[0092] In an optional embodiment, see [link to relevant documentation] Figure 2 The connector 3 is detachably connected to a corresponding accessory 2 or support plate 1. This design allows each connector 3 to be detached from its corresponding accessory 2 and support plate 1. Therefore, if a connector 3 is damaged and the connecting component 4 cannot smoothly engage with its corresponding connecting slot 31, it can be replaced simply by removing the connector 3 from its corresponding accessory 2 or support plate 1, reducing the cost of repairing the desktop tray. Furthermore, it allows the support plate 1, accessory 2, and connector 3 to be manufactured, transported, and stored separately, improving the production efficiency of the desktop tray, reducing transportation costs, and increasing space utilization during storage.
[0093] In this embodiment, refer to 2 and Figure 10 The desktop bracket also includes several first fasteners 51, which pass through the connector 3 and are screwed to the support plate 1 or accessory 2 to achieve a detachable connection between the connector 3 and the support plate 1 or accessory 2.
[0094] Specifically, when the connector 3 is connected to the support plate 1, the first and second connecting hole groups each include several first connecting holes, and the third and fourth connecting hole groups each include several second connecting holes. The first and second connecting holes are threaded holes, and the first fastener 51 passes through the connector 3 and is threaded into the first or second connecting hole.
[0095] For example, the first fastener 51 is a bolt or screw.
[0096] In another alternative embodiment, see [link to relevant documentation]. Figure 2The connecting component 4 is detachably connected to a corresponding accessory 2 or support plate 1. This design allows each connecting component 4 to be detached from its corresponding accessory 2 and support plate 1. Therefore, if a connecting component 4 is damaged and cannot smoothly engage with its corresponding connecting slot 31, it can be replaced simply by removing it from its corresponding accessory 2 or support plate 1, reducing the cost of repairing the desktop tray. Furthermore, it allows the support plate 1, accessory 2, and connecting component 4 to be manufactured, transported, and stored separately, improving the production efficiency of the desktop tray, reducing transportation costs, and increasing space utilization during storage.
[0097] In this embodiment, refer to 2 and Figure 9 The desktop bracket also includes several second fasteners 52, which pass through the connecting assembly 4 and are screwed to the support plate 1 or accessory 2 to achieve a detachable connection between the connecting assembly 4 and the support plate 1 or accessory 2.
[0098] For example, the second fastener 52 is a bolt or screw.
[0099] In another alternative embodiment, the plug 3 is detachably connected to a corresponding accessory 2 or support plate 1, and the connecting assembly 4 is detachably connected to a corresponding accessory 2 or support plate 1.
[0100] In this embodiment, see Figure 10 In the orientation of the connector 3, the connector 3 is located at the top of the accessory 2, and the connecting groove 31 has a groove 32 on its side wall along the first direction. The cross-sectional width of the accessory 2 is along the direction close to the support plate 1. Figure 10 The groove 32 increases in the positive Z direction, meaning that during production, attachment 2 can only detach from the corresponding mold in the upward direction. If the connecting groove 31 is directly set on the top of attachment 2, the presence of the groove 32 will affect the demolding of attachment 2. By setting the plug-in part 3, the demolding of attachment 2 and the formation of the groove 32 can be carried out in a distributed manner, improving the convenience of desktop bracket manufacturing.
[0101] Optionally, see Figure 2 , Figure 12 and Figure 15 A limiting groove 33 is provided on the groove wall of the connecting groove 31, and an elastic limiting member 43 is provided on the connecting component 4. The elastic limiting member 43 can be inserted into the limiting groove 33 to limit the position of the connecting component 4 in the connecting groove 31, thereby improving the reliability of the connection between the accessory 2 and the support plate 1.
[0102] Specifically, see Figure 3 and Figure 10 When the connecting groove 31 includes a first groove and a second groove that are connected, the limiting groove 33 is disposed in the connecting groove 31 along the second direction ( Figure 10On the side wall in the Y direction, the second direction, the opening direction of the first slot, and the opening direction of the second slot are perpendicular to each other. During the movement of the connecting assembly 4 and the elastic limiting member 43 within the connecting groove 31, the elastic limiting member 43 undergoes elastic deformation under the pressure of the groove wall, accumulating elastic potential energy. When the elastic limiting member 43 moves to the limiting groove 33, it is no longer constrained by the groove wall and has a tendency to recover its deformation. Therefore, the elastic limiting member 43 can be engaged in the limiting groove 33 under its own elastic force, and the connecting assembly 4 can no longer slide within the connecting groove 31. (See reference...) Figure 13 When the opening of the connecting groove 31 faces the sliding direction of the connecting component 4 ( Figure 13 When the X direction is opened, the limiting groove 33 can be set on the side wall of the connecting groove 31 along the second direction, or on the two surfaces of the connecting groove 31 along the Z direction.
[0103] In this embodiment, see Figure 3 and Figure 12 The elastic limiting member 43 is provided with a guide surface 431 that slides with the wall of the connecting groove 31. The guide surface 431 is curved or inclined, and the elastic limiting member 43 enters or exits the limiting groove 33 along the guide surface 431. When the elastic limiting member 43 moves close to the limiting groove 33, the guide surface 431 can first contact the edge of the limiting groove 33 and guide the movement direction of the elastic limiting member 43. This not only ensures that there is line contact between the elastic limiting member 43 and the wall of the limiting groove 33, avoiding excessive local wear between the elastic limiting member 43 and the wall of the limiting groove 33, but also ensures the accuracy of the elastic limiting member engaging with the limiting groove 33.
[0104] For example, see Figure 12 The cross-sectional shape of the elastic limiting member 43 is semi-circular, and the guide surface 431 is the arc surface of the semi-circular elastic limiting member 43.
[0105] Optionally, see Figure 14 and Figure 15 The connecting groove 31 has two symmetrically arranged side groove walls 312, and the side groove wall 312 gradually approaches the other side groove wall 312 along a preset direction. Figure 10 The positive X direction in the diagram represents the sliding direction of the connecting component 4 when it is inserted into the connecting slot 31. This design makes the connecting slot 31 a gradually flared design, which not only effectively reduces the alignment progress when the connecting component 4 enters the connecting slot 31, but also automatically corrects the movement direction of the connecting component 4 during its movement, significantly reducing the difficulty of the connection operation.
[0106] See Figure 15 In the orientation, the side wall 312 gradually tilts from the positive X direction to the positive Y direction.
[0107] The above description is only a specific embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Those skilled in the art should understand that any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in the present utility model fall within the protection and disclosure scope of the present utility model.
Claims
1. A desktop holder, characterized in that, include: Support plate (1) and several accessories (2) that can be detachably connected to support plate (1); A plurality of plug-in parts (3) and a plurality of connecting components (4) are provided on one of the attachments (2) and the support plate (1), and a plurality of the plug-in parts (3) are provided on the other of the attachments (2) and the support plate (1), and a plurality of connecting components (4) are provided on each of the plug-in parts (3); Each of the attachments (2) is detachably connected to the support plate (1) via at least one of the plugs (3) and at least one of the connecting components (4); Drive the connecting component (4) to slide, the connecting component (4) can be inserted into a plurality of the connecting slots (31) on the corresponding plug (3), and the support plate (1) is connected to the corresponding accessory (2); Alternatively, the connecting component (4) can be slid, allowing it to disengage from the connecting slots (31) on the corresponding plug (3), and the support plate (1) can separate from the corresponding accessory (2).
2. The desktop holder according to claim 1, characterized in that, The support plate (1) includes a plurality of connected plates (11), and the plurality of accessories (2) connected to the support plate (1) include a plurality of first legs (21) and a plurality of second legs (22). Each first leg (21) is connected to one plate (11) through at least one of the plugs (3) and at least one of the connecting components (4), and each second leg (22) is connected to two adjacent plates (11) through at least one of the plugs (3) and at least one of the connecting components (4) to connect the corresponding two plates (11).
3. The desktop holder according to claim 1, characterized in that, Each of the connecting components (4) includes a plurality of connectors (41), wherein the plurality of connectors (41) are independent of each other or connected to each other; each of the plug-in components (3) includes a plurality of plug-in bodies, wherein the plurality of plug-in bodies are independent of each other or connected to each other; A connector (3) is provided with a connecting groove (31), the connecting groove (31) is formed by any two adjacent connector bodies, and a plurality of connectors (41) of a connecting assembly (4) are slidably engaged with a connecting groove (31); Alternatively, a plurality of connection slots (31) may be provided on one of the plug-in components (3), and a plurality of connection slots (31) may be formed on any two adjacent plug-in bodies or a connection slot (31) may be provided on each plug-in body. The plurality of connection slots (31) on one of the plug-in components (3) correspond one-to-one with the plurality of connectors (41) of one of the connecting components (4).
4. The desktop holder according to claim 3, characterized in that, The support plate (1) includes one or more first connection areas, and each first connection area is provided with a first connection hole group and a second connection hole group that are spaced a first distance apart; Each of the connecting components (4) includes two independent connectors (41); one of the connectors (41) in each connecting component (4) can be connected to the support plate (1) through the first connecting hole group, and the other connector (41) in each connecting component (4) can be connected to the support plate (1) through the second connecting hole group; Alternatively, each of the plug-in components (3) includes two independent plug-in bodies; one of the plug-in bodies in each of the plug-in components (3) can be connected to the support plate (1) through the first connecting hole group, and the other plug-in body in each of the plug-in components (3) can be connected to the support plate (1) through the second connecting hole group.
5. The desktop holder according to claim 3, characterized in that, The support plate (1) includes one or more second connection areas, and each second connection area is provided with a third connection hole group and a fourth connection hole group that are spaced a second distance apart; Each of the connecting components (4) includes two independent connectors (41); one of the connectors (41) in each connecting component (4) can be connected to the support plate (1) through the third connecting hole group, and the other connector (41) in each connecting component (4) can be connected to the support plate (1) through the fourth connecting hole group; Alternatively, each of the plug-in components (3) includes two independent plug-in bodies; one of the plug-in bodies in each of the plug-in components (3) can be connected to the support plate (1) through the third connecting hole group, and the other plug-in body in each of the plug-in components (3) can be connected to the support plate (1) through the fourth connecting hole group.
6. The desktop holder according to claim 1, characterized in that, The connecting groove (31) includes a first groove and a second groove that are connected. The first groove is opened in the direction of the connecting component (4), and the second groove is opened in the sliding direction of the connecting component (4). The connecting groove (31) has a groove (32) on its side wall along the first direction. The connecting component (4) has a flange (42). When the support plate (1) is connected to the accessory (2), the flange (42) is engaged in the groove (32). The first direction is set at an angle to the opening direction of the first groove. Alternatively, the groove of the connecting groove (31) is opened in the sliding direction of the connecting component (4), the connecting component (4) is bent, one end of the connecting component (4) is connected to the support plate (1) or the accessory (2), and the other end can be inserted into the connecting groove (31).
7. The desktop holder according to any one of claims 1-6, characterized in that, Each of the plugs (3) is detachably connected to a corresponding accessory (2) or support plate (1); and / or, each of the connecting components (4) is detachably connected to a corresponding accessory (2) or support plate (1).
8. The desktop holder according to any one of claims 1-6, characterized in that, The connecting groove (31) has a limiting groove (33) on its wall, and the connecting component (4) has an elastic limiting member (43) that can be inserted into the limiting groove (33) to limit the position of the connecting component (4) in the connecting groove (31).
9. The desktop holder according to claim 8, characterized in that, The elastic limiting member (43) is provided with a guide surface (431) that slides with the wall of the connecting groove (31). The guide surface (431) is curved or inclined. The elastic limiting member (43) enters or leaves the limiting groove (33) along the guide surface (431).
10. The desktop holder according to any one of claims 1-6, characterized in that, The connecting groove (31) has two symmetrically arranged side groove walls (312), and the side groove wall (312) gradually approaches the other side groove wall (312) along a preset direction. The preset direction is the sliding direction when the connecting component (4) is inserted into the connecting groove (31).