Aluminum alloy picture frame line type capable of realizing lifting platform
By using the linear support platform, diagonal bracing ribs, and corner bracket groove structure of the aluminum alloy frame, the problems of suspension and stability of traditional picture frames are solved, achieving a visual effect where the picture is flush with the outer frame and facilitating easy replacement, thus improving the aesthetics and stability of the picture frame.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HANGZHOU FANGXING YUANCHUANG TECHNOLOGY CO LTD
- Filing Date
- 2025-10-14
- Publication Date
- 2026-07-07
AI Technical Summary
Traditional aluminum alloy picture frame profiles cannot achieve a floating picture effect, the picture is not flush with the frame, it is easily damaged during transportation, and it is inconvenient to replace the picture.
Design an aluminum alloy picture frame with a support platform, diagonal bracing ribs, and corner code slots. The support platform extends horizontally to stably support the picture, the diagonal bracing ribs distribute the force, and the corner code slots ensure compact transportation. Combined with a magnetic base plate and frameless design, it enables the picture to be displayed in a floating manner and can be easily replaced.
It achieves a visual effect where the image is flush with the outer frame, enhances the stability and transportation safety of the frame, simplifies the image replacement process, and expands the applicable range of the frame.
Smart Images

Figure CN224470075U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of decorative picture frame structures, and in particular to an aluminum alloy picture frame line that can realize a support platform. Background Technology
[0002] As material conditions continue to improve, people's needs in the spiritual realm are also constantly increasing. In terms of housing, people are paying more and more attention to the aesthetics of their home environment, which places new demands on the variety and functionality of decorative paintings. People especially hope to enhance the aesthetics of decorative paintings through details and require increasingly convenient ways to change the artwork.
[0003] However, most existing aluminum alloy picture frame profiles use a traditional structure with the inner edge of the frame and a snap-fit back panel. This structure has the following problems: the back panel is placed in the frame slot and fixed by clips or strips, which often causes the picture to be pressed down at the edge, failing to achieve the visual effect of a "floating picture"; although magnetic picture frames can reduce the difficulty of replacement, because the back panel needs to be pressed down by the outer frame, the ferrous medium picture can only be pressed against the surface of the back panel, failing to achieve the floating effect of the picture extending beyond the edge of the back panel; the size of the back panel and the picture is difficult to match perfectly, often resulting in the black magnetic base being exposed, affecting the aesthetics; in addition, the outer frame edge is relatively thick, the picture is stuck inside the edge, and the picture is lower than the front edge of the frame, creating a height difference that does not meet the aesthetic requirements of some people. In summary, the traditional picture frame profile structure is difficult to achieve both a floating picture effect and a visual aesthetic of the picture being flush with the outer frame. Utility Model Content
[0004] Purpose of the utility model: The purpose of this utility model is to provide a linear design solution for aluminum alloy picture frames that solves the problem of traditional picture frame structures being unable to achieve a floating image effect, make the image and the outer frame flush, and simultaneously reduce transportation volume and improve stability.
[0005] Technical solution: An aluminum alloy picture frame profile that can realize a support platform includes a profile body, an outer vertical edge integrally formed on the left side of the profile body, a support platform integrally formed on the upper right side of the outer vertical edge, the support platform extending horizontally outward, a diagonal bracing rib integrally formed below the support platform, and a corner code groove opened below the profile body.
[0006] Furthermore, the outer contour of the corner code slot is consistent with the inner height of the lifting platform.
[0007] Furthermore, the diagonal bracing ribs, the lifting platform, and the outer vertical edge form a triangular force-bearing structure, which is used to distribute the force on the lifting platform when it is under load, thereby improving the overall structural stability.
[0008] Beneficial effects: The lifting platform of this utility model, through its horizontally extended structural design, can stably support the frameless painting components or magnetic base plate, effectively solving the problem of the image sinking caused by the base plate being easily pressed in traditional painting frames. It ensures that the surface of the image is level with the front edge of the outer frame, avoiding the impact of height difference on the overall flatness of the painting frame and making the image presentation more regular and beautiful.
[0009] This utility model forms a triangular force-bearing structure by integrating the diagonal bracing ribs, the supporting platform, and the outer edge. When the load of the picture is applied to the supporting platform, the force will be evenly transmitted to the outer edge and the profile body through the diagonal bracing ribs. Combined with the lightweight characteristics of the aluminum alloy material itself, the support stability of the supporting platform is greatly enhanced without increasing the overall weight of the picture frame. This effectively prevents the platform from bending and deforming due to the cantilever structure, ensuring the structural stability of the picture frame for long-term use.
[0010] The outer contour of the corner code groove of this utility model is consistent with the inner height of the lifting platform. Combined with the interlocking design of the profile body, it avoids the shaking and collision of parts caused by gaps during transportation, effectively prevents the profile from being damaged, reduces transportation losses, and at the same time can achieve compact storage and reduce transportation volume.
[0011] One application example of this utility model is that traditional frameless paintings are fixed to the support platform with screws, which can achieve a non-sinking decorative effect with thinner consumables. At the same time, the connection between the frameless painting and the frame can also strengthen the structure of the outer frame, making the whole more stable.
[0012] Another application example of this utility is: the new magnetic base plate is fixed to the support platform by screws or adhesive, and the ferro-based printing medium is naturally attracted to the surface of the base plate by magnetism. Since the magnetic attraction does not restrict the consistency of the boundary between the image and the base plate, the image can extend beyond the boundary of the magnetic base plate, breaking the limitation of the traditional frame where the image and the base plate boundary coincide, achieving a unique floating display effect. At the same time, it avoids the problem of the base plate being exposed and affecting the aesthetics in the traditional structure, and enhances the artistic expression and visual sense of the frame. The magnetic base plate, together with the ferro-based medium, makes it easy to change the image and reduces the consumption of the outer frame.
[0013] This utility model combines the structural design of traditional frameless decorative paintings with magnetic base plates. It can achieve better results with less thickness when used with frameless paintings, and it can also support the magnetic base plate and facilitate the replacement of ferrous printing media. It is compatible with the convenient use scenarios of magnetic structures, greatly expanding the applicability of the frame and meeting the diverse needs of different users. Attached Figure Description
[0014] Figure 1 This is a schematic diagram of the overall structure of the profile body of this utility model;
[0015] Figure 2This is a front view structural schematic diagram of the cross-section of the profile body of this utility model;
[0016] Figure 3 This is a schematic cross-sectional view of the frame used in the application of the lifting platform, magnetic base plate and ferrous printing medium of this utility model.
[0017] Figure 4 This is a schematic diagram of the complete fit of the profile body when they are snapped together.
[0018] In the diagram: 1. Profile body; 2. Outer vertical edge; 3. Supporting platform; 4. Corner bracket groove; 5. Diagonal bracing rib. Detailed Implementation
[0019] To make the technical solution of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and specific embodiments.
[0020] Example
[0021] like Figures 1-4 As shown, an aluminum alloy picture frame profile that can realize a lifting platform is provided, including a profile body 1, an outer vertical edge 2 integrally formed on the left side of the profile body 1, a lifting platform 3 integrally formed on the upper right side of the outer vertical edge 2, the lifting platform 3 extending horizontally outward, and a corner code groove 4 opened at the bottom of the profile body 1.
[0022] The supporting base is formed by the profile body 1, and its outer edge 2 serves as the front side wall of the profile body 1. This not only effectively ensures the overall thickness of the frame, making it more three-dimensional and textured, but also enhances the product's aesthetics. The supporting platform 3 extends horizontally, precisely supporting the magnetic base plate or frameless components, and strictly controlling the support height to ensure that the surface of the magnetic base plate or picture core component is at the same height as the front edge of the frame, avoiding height differences that could cause the image to tilt, and ensuring the flatness and aesthetics of the frame display. The U-shaped corner bracket groove 4 at the bottom of the profile body 1 is specifically for inserting corner bracket connectors. During frame assembly, no additional drilling or welding is required; simply inserting the corner brackets into the grooves allows for quick splicing and fixing of different profile bodies 1. The installation process is simplified and assembly efficiency is improved. At the same time, the U-shaped structure can provide stable positioning for the corner brackets, preventing the corner brackets from loosening after assembly and causing the frame to fall apart. This enhances the overall structural stability of the frame. During use, the magnetic base plate is fixed to the support platform 3 by screws or adhesive. The ferrochrome printing media is magnetically attracted to the surface of the magnetic base plate. When installing or changing the image, there is no need for cumbersome fixing steps. Simply remove it and then attach it. This can save a lot of time when changing the image. Moreover, the image of the ferrochrome printing media can extend beyond the boundary of the magnetic base plate. The magnetic attraction property creates a unique floating effect, breaking the conventional form of the image and frame being tightly attached. This makes the image more visually impactful, improves the display effect, and meets users' needs for personalized and artistic frames.
[0023] At the same time, whether it is a frameless painting or a painting with a magnetic base connected to the frame, the structure of the outer frame will be reinforced, making the frame more stable as a whole.
[0024] like Figures 1-4 As shown, the lower part of the lifting platform 3 is integrally formed with a diagonal bracing rib 5; the diagonal bracing rib 5, the lifting platform 3 and the outer vertical edge 2 form a triangular force-bearing structure, which is used to distribute the force when the lifting platform 3 is bearing load and improve the overall structural stability.
[0025] In actual use, when the load of the ferrous printing media, magnetic base plate, and image core components is applied to the lifting platform 3, the load is transmitted through the lifting platform 3 to the diagonal brace 5, and then the diagonal brace 5 evenly transmits the force to the outer edge 2, and then through the outer edge 2 to the profile body 1 and the subsequent connected buckle seat. The entire force transmission process follows the principle of triangular force, which can effectively disperse the pressure on the cantilever end formed by the horizontal extension of the lifting platform 3, and prevent the lifting platform 3 from bending or deforming downward due to long-term bearing or bearing heavy images. At the same time, the design of the diagonal brace 5 integrated with the lifting platform 3 and the outer edge 2 does not require additional assembly, which simplifies the production process and enhances the connection strength between the lifting platform 3 and the outer edge 2, improves the structural stability of the entire profile body 1, and allows the lifting platform to maintain good load-bearing performance in long-term use, further extending the overall service life of the frame. In addition, the diagonal brace 5 is hidden under the lifting platform 3 and will not be exposed to affect the appearance and texture of the frame, taking into account both structural strength and visual aesthetics.
[0026] like Figure 4 As shown, the outer contour of the corner code groove 4 is consistent with the inner height of the lifting platform 3, so that the lines of the decorative painting can be tightly interlocked during the factory transportation process. Even if it encounters bumps or vibrations during transportation, the corner code groove 4, the diagonal brace 5 and the inner wall of the profile body 1 will not collide or rub due to the gap, effectively reducing the risk of loosening and damage of the parts.
[0027] like Figures 1-4 As shown, the entire body of the profile 1 is made of aluminum alloy.
[0028] The embodiments described above are merely illustrative of several implementations of this utility model, and while the descriptions are relatively specific and detailed, they should not be construed as limiting the scope of this utility model patent. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of this utility model, and these all fall within the protection scope of this utility model. Therefore, the protection scope of this utility model patent should be determined by the appended claims.
Claims
1. An aluminum alloy picture frame profile capable of supporting a platform, comprising a profile body (1), characterized in that: The profile body (1) has an integrally formed outer vertical edge (2) on the left side, and an integrally formed lifting platform (3) on the upper right side of the outer vertical edge (2). The lifting platform (3) extends horizontally outward, and an integrally formed diagonal bracing rib (5) is formed below the lifting platform (3). An angle code groove (4) is provided below the profile body (1).
2. The aluminum alloy picture frame profile according to claim 1, characterized in that: The outer contour of the corner code slot (4) is consistent with the inner height of the lifting platform (3).
3. The aluminum alloy picture frame profile according to claim 1, characterized in that: The diagonal bracing rib (5), the lifting platform (3), and the outer vertical edge (2) form a triangular force-bearing structure, which is used to disperse the force on the lifting platform (3) when it is bearing load and improve the overall structural stability.