Doll display stand
By combining a wraparound structure and a locking structure, the problems of unstable fixation and poor adaptability of the doll display stand are solved, achieving stable display and diverse adaptability of the dolls.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YIWU HEYI TECH CO LTD
- Filing Date
- 2025-07-21
- Publication Date
- 2026-07-14
AI Technical Summary
Traditional doll display stands are unstable and cannot flexibly adjust the display posture, resulting in poor adaptability and difficulty in meeting diverse display needs.
The first and second movable arms, which adopt a wrap-around structure, are connected to the support rod through a vertical rotation axis. Combined with a locking structure, they enable height adjustment and adaptation to the side profile of the doll, enhancing stability and flexibility of adjustment.
It achieves the desired display effect for dolls, enhancing the display effect of transmission through the fixed display posture of the fixed entity by the wrap-around structure. It can flexibly adapt to dolls of different sizes and shapes, stably maintain the preset posture, and meet diverse display needs.
Smart Images

Figure CN224483540U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of toy display technology, specifically to a doll display stand. Background Technology
[0002] In the field of displaying doll toys, traditional display methods often use flat placement or simple support, which have problems such as poor stability, easy tipping, and difficulty in flexibly adjusting the display state according to the size of the doll, thus affecting the display effect.
[0003] To improve this situation, specialized doll stands have emerged on the market. For example, Chinese invention patent application No. 201810005101.6 (publication No. CN107930143A) discloses "A Telescopic Doll Stand", which uses the cooperation of a support block on the base, a sliding telescopic block, a locking block, and a slot to adjust the height of the doll and provide bottom support, thus solving the problem of fixed height of traditional stands to a certain extent.
[0004] However, such stands still have obvious drawbacks: First, the fixing structure only supports the bottom of the doll and lacks adaptation and fixing for the upper part or the overall outline of the doll, which makes the doll easy to shake during the display and unable to maintain the preset display posture stably; Second, the adjustment method is limited, and can only achieve simple height adjustment. It cannot flexibly adjust the display height according to the side outline of the doll, and has poor adaptability to dolls of different shapes and sizes, making it difficult to meet diverse display needs.
[0005] Therefore, how to design a doll toy display stand that can adapt to the doll's outline through a wraparound structure, has dual adjustment functions of angle and height, can flexibly adjust its display height according to the doll's side outline, and is fixed reliably and not easily loosened has become a problem that urgently needs to be solved by those skilled in the art. Utility Model Content
[0006] The first technical problem this invention aims to solve is to provide a doll display stand that overcomes instability and poor adaptability by using a wrap-around fixing structure to adapt to the side contours of the doll, thus addressing the aforementioned technical limitations.
[0007] The second technical problem to be solved by this utility model is to provide a doll display stand that flexibly adjusts the display height by setting an adjustable support rod and combining it with a locking structure on the support rod, so that it can be combined with the height profile of the doll's side.
[0008] The technical solution adopted by this utility model to solve the first technical problem is: the doll display stand, including...
[0009] A support rod, the lower end of which is fixedly connected to the support carrier, and the upper end is provided with a connecting part;
[0010] Both the first and second movable arms are curved in an arc shape; among them
[0011] The first ends of the first movable arm and the second movable arm are respectively rotatably connected to the connecting part, and the rotation axis of each rotatable connection is set in the vertical direction.
[0012] While the first and second movable arms are rotating around their respective axes of rotation, the second ends of the first and second movable arms move in opposite directions in the horizontal plane and enclose to form a circumferential fixed space for holding the side profile of the doll.
[0013] To enhance the stability of the rotational connection between the first and second movable arms and the connecting part, and to prevent the movable arms from detaching from the connecting part, preferably, the first end of both the first and second movable arms is provided with a vertically extending circular protrusion, the connecting part is provided with a through hole adapted to the circular protrusion, the side of the circular protrusion is provided with a limiting block, and the side wall of the through hole is formed with a vertical groove for the limiting block to enter and exit at a set angle.
[0014] To further clarify the assembly method of the circular protrusion and the connecting part, and to ensure that the limiting block can reliably achieve upper and lower limits, preferably, the first end of the first movable arm and the second movable arm both form a docking platform, and the circular protrusion extends vertically downward from the bottom of the docking platform. After the circular protrusion is inserted into the through hole at a set angle aligned with the vertical groove of the limiting block, the limiting block can be engaged with the bottom of the connecting part by horizontal rotation to achieve upper and lower limits.
[0015] In order to keep the first and second movable arms stable during rotation and to be able to stay stably at any angle, thereby improving the stability after adjustment, preferably, the interval between the limiting block and the docking platform is adapted to the height of the connecting part. When the limiting block is engaged with the bottom of the connecting part, the bottom of the docking platform is in contact with the top of the connecting part, so that both the first and second movable arms can generate damping when rotating.
[0016] To facilitate the installation and replacement of the connecting parts and increase the flexibility of structural assembly, preferably, the upper end of the support rod is provided with a detachable top cover, and the connecting part protrudes laterally from the side of the top cover.
[0017] The technical solution adopted by this utility model to solve the second technical problem is as follows: the support rod includes an outer rod and an inner rod, the inner rod is adjustable up and down and passes through the outer rod, and a locking structure is provided between the outer rod and the inner rod to lock their relative positions.
[0018] To achieve flexible adjustment and reliable locking of the support rod height, the locking structure preferably includes multiple slots spaced vertically on the outer wall of the inner rod, and elastic buckles on the inner wall of the outer rod that are adapted to the slots. The height of the support rod is adjusted by the cooperation of the elastic buckles with the slots at different positions.
[0019] To facilitate user adjustment of the support rod height and improve ease of adjustment, preferably, a push button is provided on the outer wall of the inner rod, and a vertically extending clearance groove is provided on the outer rod. The push button is exposed through the clearance groove and can move up and down along the clearance groove, allowing for convenient vertical adjustment of the inner rod relative to the outer rod.
[0020] To enable the combined display of multiple dolls while effectively protecting the dolls and the support structure, preferably, it also includes a circular base plate and a circular transparent cover adapted to the circular base plate. The circular base plate is provided with one or more support rods, and the circular transparent cover is used to cover the first movable arm, the second movable arm, and the fixed dolls. When there are multiple support rods, the lower ends of each support rod are distributed circumferentially on the circular base plate.
[0021] To expand the variety of display stand appearances and adapt to different display scenarios, while also enabling the combined display and protection of multiple dolls, preferably, it also includes a square base plate and a square transparent cover adapted to the square base plate. The square base plate is provided with one or more support rods, and the square transparent cover is used to cover the first movable arm, the second movable arm, and the fixed doll. When there are multiple support rods, the lower ends of each support rod are distributed at intervals or in an array along the edge of the square base plate.
[0022] Compared with the prior art, the advantages of this utility model are as follows: By setting up a first movable arm and a second movable arm that are both curved in an arc shape, and making the first ends of the first movable arm and the second movable arm rotatably connected to the connecting part at the upper end of the support rod, since the rotation axis is set in the vertical direction, the second ends of the first movable arm and the second movable arm can open and close relative to each other in the horizontal plane to form an embracing fixed space. Because the embracing structure is adapted to the side contour of the doll, it overcomes the problem of unstable fixation and easy shaking caused by the traditional support only supporting the bottom, and can stably maintain the doll's preset display posture. At the same time, through the relative rotation adjustment of the first movable arm and the second movable arm, it can flexibly adapt to dolls of different sizes and shapes, solve the defect of poor adaptability of traditional supports, and meet diverse display needs. Attached Figure Description
[0023] Figure 1 This is a three-dimensional structural diagram of this embodiment;
[0024] Figure 2This is a three-dimensional structural diagram from another angle of this embodiment;
[0025] Figure 3 This is a schematic diagram of the decomposed state structure of this embodiment;
[0026] Figure 4 This is a schematic diagram of the decomposed state structure from another perspective in this embodiment;
[0027] Figure 5 This is a schematic diagram of the structure of the first and second movable arms after they have been deployed in this embodiment;
[0028] Figure 6 This is a schematic diagram of the support rod adjusted to its highest position in this embodiment;
[0029] Figure 7 This is a schematic diagram showing the doll in its fixed position in this embodiment;
[0030] Figure 8 This is a schematic diagram of the structure of mounting multiple brackets on the circular base in this embodiment;
[0031] Figure 9 This is a schematic diagram of the structure of a single bracket mounted on a circular base in this embodiment;
[0032] Figure 10 This is a schematic diagram of the structure of mounting multiple brackets on the square base in this embodiment. Detailed Implementation
[0033] The present invention will be further described in detail below with reference to the accompanying drawings and embodiments.
[0034] like Figures 1-10 The figure shown is the preferred embodiment of this utility model.
[0035] The doll display stand in this embodiment mainly includes a support rod 1, a connecting part 2, a first movable arm 3, a second movable arm 4, a top cover 5, and a locking structure 6. The doll display stand disclosed in this embodiment aims to solve the problems of poor stability and easy tipping in traditional display methods, as well as the problems of existing stands only supporting the bottom, poor adaptability, and single adjustment method. Its overall structure achieves stable display and flexible adaptation of dolls through a wrap-around fixing and multi-dimensional adjustment design.
[0036] The structure and connection relationships of each component are as follows:
[0037] Support rod 1: Reference Figures 1 to 4As shown, the support rod 1 serves as the core of the overall support. Its lower end is used to be fixedly connected to the support carriers such as the base, table, and display stand, and its upper end is provided with a connecting part 2. To solve the problem of "inflexible height adjustment" in the background technology, the support rod 1 here adopts a telescopic nested structure of outer rod 1a and inner rod 1b. The inner rod 1b can slide up and down along the inner wall of the outer rod 1a. Through this design, a wide range of height adjustment of the support can be achieved to accommodate dolls A of different heights.
[0038] First movable arm 3 and second movable arm 4: Reference Figures 1 to 3 As shown, the first movable arm 3 and the second movable arm 4, as the core components for encircling and fixing, are both curved into an arc shape (the curvature can be preset according to the side contour of a common doll A); their first ends are each provided with a vertically extending circular protrusion 3a, and a square limiting block 3b is integrally formed on the side of the circular protrusion 3a. Furthermore, the first ends of both the first movable arm 3 and the second movable arm 4 form a horizontally arranged docking platform 3c, with the circular protrusion 3a extending vertically downward from the bottom of the docking platform 3c. This connection end design with a limiting structure ensures both the flexible rotation of the movable arm and prevents it from falling off. Figure 5 The diagram shows the structure of the first movable arm 3 and the second movable arm 4 after they have been extended to a certain angle.
[0039] Connection part 2: Reference Figure 2 and Figure 3 As shown, the connecting part 2 serves as the connecting hub between the first movable arm 3 and the second movable arm 4 and the support rod 1. It is laterally protruding from the upper end of the support rod 1 and has a through hole 2a that matches the diameter of the circular protrusion 3a. The side wall of the through hole 2a has a vertical groove 2b for the limit block 3b to enter and exit. To improve assembly flexibility, the connecting part 2 is integrally formed on the side of the detachable top cover 5 at the upper end of the support rod 1. The top cover 5 and the support rod 1 can be quickly disassembled and assembled through a plug-in and pull-out structure. This modular design also makes it easy to replace or store the parts individually.
[0040] Locking Structure 6: Reference Figure 2 and Figure 4 As shown, the locking structure 6 is used to fix the telescopic height of the support rod 1. It includes multiple slots 6a spaced vertically on the outer wall of the inner rod 1b, and elastic buckles 6b on the inner wall of the outer rod 1a that fit the slots 6a. The elastic buckles 6b are integrally formed on the inner wall of the outer rod 1a and can be made of plastic with a reset capability. The elasticity of the elastic buckles 6b is enhanced by setting a U-shaped through groove on the inner wall of the outer rod 1a. The outer wall of the inner rod 1b also has an integrally formed push button 7. The corresponding position of the outer rod 1a has an upward and downward extending clearance groove 1a1. The push button 7 is exposed through the clearance groove 1a1 and can slide smoothly along the groove. The push button makes height adjustment possible by hand without additional tools. Figure 6 The diagram shown is a schematic of the structure when the support rod 1 is adjusted to its highest position.
[0041] Auxiliary components: Reference Figures 8 to 10 As shown, to adapt to the display needs of scenarios such as shop windows and exhibitions, a circular base plate 8 and a square base plate 10 can be set up, as well as a circular transparent cover 9a and a square transparent cover 9b that are respectively adapted to the circular base plate 8 and the square base plate 10; the lower end of the support rod 1 can be fixed to the base plate by screws or buckles. When multiple support rods 1 are set up, they are evenly distributed around the circular base plate 8 (e.g., 3-6 rods with equal spacing) and distributed along the edge or in a matrix on the square base plate 10; the circular transparent cover 9a and the square transparent cover 9b are both made of transparent acrylic material and are connected to the base plate by magnetic attraction or buckles, which can prevent dust from contaminating the doll, without obstructing the display effect, and facilitate quick handling of the doll.
[0042] The working principle of the doll display stand in this embodiment is as follows:
[0043] 1. Circumferential Fixing: The first movable arm 3 and the second movable arm 4 are rotatably connected to the through hole 2a of the connecting part 2 via a circular protrusion 3a, with the axis of rotation along the vertical direction (coinciding with the axis of the protrusion); when the first movable arm 3 and the second movable arm 4 are rotated, the second ends of each of the first movable arm 3 and the second movable arm 4 perform relative opening and closing movements in the horizontal plane, as shown in the reference. Figure 7 As shown, the arc-shaped structure can naturally fit the side contour of the doll, and the enclosed space can be flexibly adjusted according to the size of the doll, solving the problem of "easy wobbling and inability to maintain the preset posture" caused by traditional supports that only support the bottom.
[0044] 2. Limiting and Damping Formation: When installing the first movable arm 3 and the second movable arm 4, first align the limiting block 3b with the vertical groove 2b, and insert the circular protrusion 3a into the through hole 2a; then rotate the first movable arm 3 and the second movable arm 4 horizontally (e.g., rotate 30°-60°), the limiting block 3b deviates from the groove 2b and is engaged with the bottom of the connecting part 2, realizing the limiting in the vertical direction; at the same time, the bottom of the docking platform 3c is tightly fitted with the top of the connecting part 2, and the friction of the contact surface forms rotational damping, so that the movable arm can be stably stopped at any opening and closing angle, avoiding displacement due to slight contact.
[0045] 3. Height adjustment: Pushing the push button 7 (sliding along the clearance groove 1a1) can drive the inner rod 1b to move up and down within the outer rod 1a. The elastic buckle 6b is deformed by pressure and disengages from the current slot 6a. After moving to the target height, the buckle is locked into the corresponding slot 6a under its own elastic force, thus achieving height locking. The design of multiple slots makes the adjustment more precise and can be adapted to dolls A of various different heights.
[0046] 4. Multi-scene display: A single support rod 1, together with a circular base plate 8 or a square base plate 10, can be used to display doll A independently. Multiple support rods 1, distributed circumferentially or in an array on the base plate, can be used to achieve "combined display" (such as displaying series doll A). When the corresponding circular transparent cover 9a or square transparent cover 9b is fastened, it can protect the doll from external collisions and enhance the overall integrity and exquisiteness of the display, which is especially suitable for exhibitions and other scenarios that require long-term display.
[0047] It should be noted that in the description of this embodiment, the terms "front," "rear," "left," "right," "up," "down," etc., indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the accompanying drawings. They are merely 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. The terms "installation," "connection," and "linking" 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 direct connection or an indirect connection through an intermediate medium; they can refer to the internal connection of two components. For those skilled in the art, the specific meaning of the above terms in this utility model can be understood according to the specific circumstances.
Claims
1. A doll display stand, characterized in that: include The support rod (1) has its lower end fixedly connected to the support carrier and its upper end has a connecting part (2); Both the first movable arm (3) and the second movable arm (4) are curved in an arc shape; among them The first ends of the first movable arm (3) and the second movable arm (4) are respectively rotatably connected to the connecting part (2), and the rotation axis of each rotatable connection is set in the vertical direction; While the first movable arm (3) and the second movable arm (4) are rotating around their respective axes of rotation, the second ends of the first movable arm (3) and the second movable arm (4) make relative opening and closing movements in the horizontal plane and enclose to form a circumferential fixed space for holding the side profile of the doll (A).
2. The doll display stand according to claim 1, characterized in that: The first movable arm (3) and the second movable arm (4) are each provided with a vertically extending circular protrusion (3a) at their first ends. The connecting part (2) is provided with a through hole (2a) that is adapted to the circular protrusion (3a). The side of the circular protrusion (3a) is provided with a limiting block (3b). The side wall of the through hole (2a) is formed with a vertical groove (2b) for the limiting block (3b) to enter and exit at a set angle.
3. The doll display stand according to claim 2, characterized in that: The first movable arm (3) and the second movable arm (4) each have a docking platform (3c) at their first ends. The circular protrusion (3a) extends vertically downward from the bottom of the docking platform (3c). After the circular protrusion (3a) is inserted into the through hole (2a) at a set angle aligned with the vertical groove (2b) by the limiting block (3b), the corresponding limiting block (3b) can be engaged at the bottom of the connecting part (2) by horizontally rotating the first movable arm (3) or the second movable arm (4) to achieve upper and lower limits.
4. The doll display stand according to claim 3, characterized in that: The distance between the limiting block (3b) and the docking platform (3c) is adapted to the height of the connecting part (2). When the limiting block (3b) is engaged with the bottom of the connecting part (2), the bottom of the docking platform (3c) is in contact with the top of the connecting part (2), so that the first movable arm (3) and the second movable arm (4) can both form damping when rotating.
5. The doll display stand according to claim 1, characterized in that: The upper end of the support rod (1) is provided with a detachable top cover (5), and the connecting part (2) protrudes laterally from the side of the top cover (5).
6. The doll display stand according to any one of claims 1 to 5, characterized in that: The support rod (1) includes an outer rod (1a) and an inner rod (1b). The inner rod (1b) is adjustable up and down and passes through the outer rod (1a). A locking structure (6) is provided between the outer rod (1a) and the inner rod (1b) to lock their relative positions.
7. The doll display stand according to claim 6, characterized in that: The locking structure (6) includes multiple slots (6a) spaced apart vertically on the outer wall of the inner rod (1b), and an elastic buckle (6b) on the inner wall of the outer rod (1a) that is adapted to the slots (6a). The height of the support rod (1) can be adjusted by the cooperation of the elastic buckle (6b) with the slots (6a) at different positions.
8. The doll display stand according to claim 7, characterized in that: The inner rod (1b) is also provided with a push button (7) on its outer wall. The outer rod (1a) is provided with a vertically extending clearance groove (1a1). The push button (7) is exposed through the clearance groove (1a1) and can move up and down along the clearance groove (1a1). The push button (7) facilitates the vertical adjustment of the inner rod (1b) relative to the outer rod (1a).
9. The doll display stand according to claim 1, characterized in that: It also includes a circular base plate (8) and a circular transparent cover (9a) adapted above the circular base plate (8). The circular base plate (8) is provided with one or more support rods (1). The circular transparent cover (9a) is used to cover the first movable arm (3), the second movable arm (4) and the fixed doll (A). In the case where there are multiple support rods (1), the lower ends of each support rod (1) are distributed circumferentially on the circular base plate (8).
10. The doll display stand according to claim 1, characterized in that: It also includes a square base plate (10) and a square transparent cover (9b) adapted to the square base plate (10). The square base plate (10) is provided with one or more support rods (1). The square transparent cover (9b) is used to cover the first movable arm (3), the second movable arm (4) and the fixed doll (A). In the case of multiple support rods (1), the lower ends of each support rod (1) are distributed at intervals or in an array along the edge of the square base plate (10) on the square base plate (10).