Multi-scenario application fan
By designing a fan for multiple application scenarios, the system enables rapid switching between wall-mounted and floor-standing states and multi-dimensional angle adjustment, solving the problem that existing fans are difficult to adapt to various environments and improving user comfort and airflow efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DONGGUAN LIANGJIE ELECTRONIC TECHNOLOGY CO LTD
- Filing Date
- 2025-07-18
- Publication Date
- 2026-06-05
AI Technical Summary
Existing fans are usually designed for a single use case and are difficult to adapt flexibly to a variety of use environments.
A multi-scenario application fan was designed, including a mounting plate, a detachable support plate, a telescopic component, an L-shaped support arm, and a fan body. The fan can be quickly switched between wall-mounted and floor-mounted states and adjusted in multiple dimensions through an angle limiting structure and a quick-release structure.
It expands the application range of fans, meets the usage needs in different environments, improves user comfort and air transmission efficiency, and simplifies the scene switching process.
Smart Images

Figure CN224326439U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of fan technology, specifically a multi-scenario application fan. Background Technology
[0002] Existing fans are typically designed for a single use case, such as floor fans or wall-mounted fans, making it difficult to flexibly adapt to various usage environments. Utility Model Content
[0003] This utility model addresses the technical problems existing in the prior art by providing a multi-scenario application fan to solve the problem that existing fans are usually mainly used in a single scenario, such as floor fans or wall-mounted fans, and are difficult to flexibly adapt to a variety of usage environments.
[0004] The technical solution of this utility model to solve the above-mentioned technical problems is as follows: A multi-scenario application fan, comprising:
[0005] A mounting plate fixed to the wall of a building;
[0006] A support plate, which is detachably connected to one side of the hanging plate;
[0007] A telescopic component that can extend and retract, the telescopic component being hinged to a support plate;
[0008] An L-shaped support arm, one side of which is hinged to the telescopic end of the telescopic component;
[0009] The fan body is hinged to the other side of the support arm;
[0010] An angle limiting structure is provided, comprising a first locking component, a second locking component, and a third locking component. The first locking component is located at the hinge between the bearing plate and the telescopic member, the second locking component is located at the hinge between the support arm and the telescopic member, and the third locking component is located at the hinge between the fan body and the support arm.
[0011] The beneficial effects of this utility model are:
[0012] 1) The structure, which is fixed to the building wall by the mounting plate and detachably connected to the support plate, enables the fan to quickly switch between wall-mounted and floor-standing usage scenarios, greatly expanding the application range and meeting the user's needs in different environments. Secondly, through the hinge structure between the telescopic parts, L-shaped support arm and fan body, and the angle limiting structure (including the first, second and third locking components), the fan can achieve multi-dimensional angle adjustment function in both wall-mounted and floor-standing states, ensuring that the airflow direction is accurately aimed at the target area and improving the user's comfort.
[0013] 2) In addition, the telescopic function of the telescopic component further enhances the flexibility of the fan in the wall-mounted state. Users can adjust the length of the telescopic component to bring the fan body closer to the human body, thereby optimizing the wind power transmission effect and maximizing the wind power output efficiency.
[0014] Based on the above technical solution, the present invention can be further improved as follows.
[0015] Furthermore, a quick-release structure is provided between the hanging plate and the supporting plate.
[0016] Furthermore, the quick-release structure includes an opening, a boss, multiple L-shaped limiting grooves, and multiple locking blocks with the same number of limiting grooves. The boss is fixed on the side of the support plate and the hanging plate facing each other, and the opening is opened on the side of the hanging plate and the support plate facing each other.
[0017] Furthermore, multiple limiting grooves are formed along a ring array on the inner sidewall of the hanging plate opening, and one side of each limiting groove passes through one side of the hanging plate, and multiple locking blocks are fixed to the outside of the boss along a ring array.
[0018] The beneficial effect of adopting the above-mentioned further solution is that by aligning the locking block outside the boss with one side of the limiting groove through the hanging plate and embedding the boss into the opening of the hanging plate, the locking block is inserted along one side of the limiting groove. Since the limiting groove is L-shaped and its one side is perpendicular to the other side, by twisting the bearing plate, the locking block can move to the other side along the trajectory of the L-shaped limiting groove, thereby achieving a firm connection between the hanging plate and the bearing plate. When disassembling, it is only necessary to twist the bearing plate in the opposite direction to make the locking block rotate back to the side of the limiting groove through the hanging plate, and the separation of the hanging plate and the bearing plate can be easily completed. This quick-release structure can achieve quick fixing and disassembly of the bearing plate through a simple twisting operation. The operation process is simple and efficient, without the need for additional tools, which improves the convenience of switching between wall-mounted and floor-standing scenarios for the fan.
[0019] Furthermore, the first locking component, the second locking component, and the third locking component are all configured as Phillips head bolts.
[0020] The beneficial effect of adopting the above-mentioned further solution is that by setting the first locking component, the second locking component and the third locking component as Phillips head bolts, it is possible to quickly lock the rotation angle between the telescopic component and the bearing plate, the rotation angle between the telescopic component and the support arm, and the rotation angle between the support arm and the fan body by hand without the need for additional tools.
[0021] Furthermore, the telescopic component includes a column, a groove, and a sliding rod. The groove is formed inside the column, and one end of the sliding rod slides within the groove of the column.
[0022] The beneficial effect of adopting the above-mentioned further solution is that the slide bar can slide in the column slide groove, allowing the user to adjust the length of the telescopic component to bring the fan body closer to the human body and optimize the wind power transmission effect. Attached Figure Description
[0023] Figure 1 This is a schematic diagram of the fan body of this utility model in a wall-mounted state;
[0024] Figure 2 This is a structural schematic diagram of the fan body of this utility model in a wall-mounted state from another perspective;
[0025] Figure 3 This is a schematic diagram of the fan body of this utility model in the ground position;
[0026] Figure 4 This is a three-dimensional structural diagram of the quick-release structure of this utility model.
[0027] The attached diagram lists the components represented by each number as follows:
[0028] 10. Hanging plate; 20. Bearing plate; 30. Telescopic component; 301. Column; 302. Slide groove; 303. Slide rod; 40. Support arm; 50. Fan body; 60. Angle limiting structure; 601. First locking component; 602. Second locking component; 603. Third locking component; 70. Quick release structure; 701. Opening; 702. Boss; 703. Limiting groove; 704. Locking block. Detailed Implementation
[0029] The principles and features of this utility model are described below with reference to the accompanying drawings. The examples given are only for explaining this utility model and are not intended to limit the scope of this utility model.
[0030] Existing fans are usually designed for a single use case, such as floor fans or wall-mounted fans, which are difficult to adapt flexibly to various use environments. In response, the inventor of this utility model proposes a multi-scenario application fan to solve the above problems.
[0031] The present invention provides the following preferred embodiments.
[0032] like Figures 1-4 As shown, a multi-scenario application fan includes:
[0033] A mounting plate 10 fixed to the building wall;
[0034] The support plate 20 is detachably connected to one side of the hanging plate 10;
[0035] The telescopic component 30 is hinged to the support plate 20;
[0036] The support arm 40 is L-shaped, and one side of the support arm 40 is hinged to the telescopic end of the telescopic member 30.
[0037] The fan body 50 is hinged to the other side of the support arm 40;
[0038] Angle limiting structure 60 includes a first locking component 601, a second locking component 602, and a third locking component 603. The first locking component 601 is located at the hinge between the bearing plate 20 and the telescopic member 30, the second locking component 602 is located at the hinge between the support arm 40 and the telescopic member 30, and the third locking component 603 is located at the hinge between the fan body 50 and the support arm 40.
[0039] The structure of the mounting plate 10 fixed to the building wall and detachably connected to the support plate 20 enables the fan to quickly switch between wall-mounted and floor-standing usage scenarios, greatly expanding the application range and meeting the user's needs in different environments. Secondly, through the hinge structure between the telescopic component 30, the L-shaped support arm 40 and the fan body 50, and in conjunction with the angle limiting structure 60 (including the first, second and third locking components 603), the fan achieves multi-dimensional angle adjustment function in both wall-mounted and floor-standing states, ensuring that the airflow direction is accurately aligned with the target area and improving user comfort.
[0040] In addition, the telescopic function of the telescopic component 30 further enhances the flexibility of the fan in the wall-mounted state. Users can adjust the length of the telescopic component 30 to bring the distance between the fan body 50 and the human body, thereby optimizing the wind power transmission effect and maximizing the wind power output efficiency.
[0041] In this embodiment, as Figures 1-4 As shown, a quick-release structure 70 is provided between the mounting plate 10 and the support plate 20. The quick-release structure 70 includes an opening 701, a boss 702, multiple L-shaped limiting grooves 703, and multiple locking blocks 704 in the same number as the limiting grooves 703. The boss 702 is fixed on the side of the support plate 20 facing the mounting plate 10. The opening 701 is opened on the side of the mounting plate 10 facing the support plate 20. Multiple limiting grooves 703 are opened in a ring array on the inner side wall of the opening 701 of the mounting plate 10, and one side of each limiting groove 703 passes through one side of the mounting plate 10. Multiple locking blocks 704 are fixed in a ring array on the outside of the boss 702.
[0042] Align the locking block 704 on the outside of the boss 702 with the limiting groove 703 through one side of the hanging plate 10, and make the boss 702 embedded in the opening 701 of the hanging plate 10. At this time, the locking block 704 is inserted along one side of the limiting groove 703. Since the limiting groove 703 is L-shaped, one side is perpendicular to the other side. By twisting the support plate 20, the locking block 704 can move to the other side along the trajectory of the L-shaped limiting groove 703, thereby realizing a firm connection between the hanging plate 10 and the support plate 20. When disassembling, simply twist the support plate 20 in the opposite direction to make the locking block 704 rotate back to the side of the limiting groove 703 through the hanging plate 10, and the separation of the hanging plate 10 and the support plate 20 can be easily completed. This quick-release structure 70 can realize the quick fixing and disassembly of the support plate 20 through a simple twisting operation. The operation process is simple and efficient, without the need for additional tools, which improves the convenience of the fan when switching between wall-mounted and floor-standing scenarios.
[0043] In this embodiment, as Figures 1-4 As shown, the first locking component 601, the second locking component 602, and the third locking component 603 are all set as Torx bolts. By setting the first locking component 601, the second locking component 602, and the third locking component 603 as Torx bolts, it is possible to quickly lock the rotation angle between the telescopic component 30 and the bearing plate 20, the rotation angle between the telescopic component 30 and the support arm 40, and the rotation angle between the support arm 40 and the fan body 50 by hand without the need for additional tools.
[0044] In this embodiment, as Figures 1-4 As shown, the telescopic component 30 includes a column 301, a groove 302, and a slide rod 303. The groove 302 is formed inside the column 301, and one end of the slide rod 303 slides in the groove 302 of the column 301. The slide rod 303 can slide in the groove 302 of the column 301, so that the user can adjust the length of the telescopic component 30 to bring the fan body 50 closer to the human body and optimize the wind power transmission effect.
[0045] The specific working process of this utility model is as follows:
[0046] (1) Pre-install multiple mounting plates 10
[0047] First, the mounting plate 10 is fixed to the building wall, such as the bedroom wall, living room wall, or kitchen wall, by tightening bolts or nails through the mounting plate 10.
[0048] (2) Use of fans in wall-mounted scenarios
[0049] Align the locking block 704 on the outside of the boss 702 with the limiting groove 703 through one side of the hanging plate 10, and make the boss 702 embedded in the opening 701 of the hanging plate 10. At this time, the locking block 704 is inserted along one side of the limiting groove 703. Since the limiting groove 703 is L-shaped, one side is perpendicular to the other side. By twisting the bearing plate 20, the locking block 704 can move to the other side along the trajectory of the L-shaped limiting groove 703, thereby realizing a firm connection between the hanging plate 10 and the bearing plate 20.
[0050] (3) Use fans in floor-standing scenarios
[0051] When disassembling the support plate 20, the card block 704 is rotated to the side of the limit groove 703 that passes through the hanging plate 10 by rotating the support plate 20 in the opposite direction, so that the hanging plate 10 and the support plate 20 can be easily separated. Then, the protrusion 702 at the bottom of the support plate 20 is used to support it on the horizontal ground, so that the fan can be used in the ground scene.
[0052] The above are merely preferred embodiments of the present utility model and are not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model shall be included within the protection scope of the present utility model.
Claims
1. A fan for multi-scenario applications, characterized in that, include: A mounting plate fixed to the wall of a building; A support plate, which is detachably connected to one side of the hanging plate; A telescopic component that can extend and retract, the telescopic component being hinged to a support plate; An L-shaped support arm, one side of which is hinged to the telescopic end of the telescopic component; The fan body is hinged to the other side of the support arm; An angle limiting structure is provided, comprising a first locking component, a second locking component, and a third locking component. The first locking component is located at the hinge between the bearing plate and the telescopic member, the second locking component is located at the hinge between the support arm and the telescopic member, and the third locking component is located at the hinge between the fan body and the support arm.
2. The multi-scenario application fan according to claim 1, characterized in that, A quick-release structure is provided between the hanging plate and the supporting plate.
3. A multi-scenario application fan according to claim 2, characterized in that, The quick-release structure includes an opening, a boss, multiple L-shaped limiting grooves, and multiple locking blocks with the same number of limiting grooves. The boss is fixed on the side of the support plate and the hanging plate facing each other, and the opening is opened on the side of the hanging plate and the support plate facing each other.
4. A multi-scenario application fan according to claim 3, characterized in that, Multiple limiting grooves are formed along a ring array on the inner side wall of the hanging plate opening, and one side of each limiting groove passes through one side of the hanging plate. Multiple locking blocks are fixed to the outside of the boss along a ring array.
5. A multi-scenario application fan according to claim 1, characterized in that, The first locking component, the second locking component, and the third locking component are all configured as Phillips head bolts.
6. A multi-scenario application fan according to claim 1, characterized in that, The telescopic component includes a column, a groove, and a sliding rod. The groove is formed inside the column, and one end of the sliding rod slides within the groove of the column.