A type of intelligent electric lifting TV bracket connecting plate profile
By adopting a T-shaped slot design in the TV bracket, the problem of limited connection position between the TV bracket and the TV is solved, enabling convenient position adjustment and adaptation to different TV sizes, and reducing resource waste.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU RIZHONGTIAN ALUMINUM CO LTD
- Filing Date
- 2025-06-26
- Publication Date
- 2026-06-30
AI Technical Summary
Existing TV brackets require bolts to connect to the TV, which severely limits their placement and makes them unsuitable for TVs of different sizes. Furthermore, the original brackets are often unusable after the TV is replaced, resulting in a waste of resources.
Featuring a T-slot design, the bolts can be quickly tightened via the T-slot, and the back bracket can be used for fixation, enabling convenient position adjustment and adaptation to different TV sizes.
It enables flexible installation and adaptation of TV brackets, reduces resource waste, and improves the convenience and applicability of installation.
Smart Images

Figure CN224433940U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of electric lifting TV bracket technology, specifically to a smart electric lifting TV bracket connecting plate profile. Background Technology
[0002] A TV stand is a peripheral device specifically designed for flat-screen TVs and LCD TVs. It is suitable for use in living rooms, bedrooms, offices, conference rooms, and other locations. Furthermore, with technological advancements, modern smart TVs are height-adjustable, greatly enhancing the user experience and allowing users to adjust the TV height to suit their needs.
[0003] Currently, when using a TV bracket to secure a smart TV, the bracket must first be connected to the support pillar, and then the TV bracket itself must be connected to the TV. This installation process presents the following problems:
[0004] When connecting a TV bracket to a TV, bolts are typically used to secure the two. This severely limits the mounting position of the TV bracket and the TV—the bolt holes on the bracket must precisely align with the screw holes on the back of the TV. Once the TV is replaced, the original bracket often becomes unusable due to the mismatched holes, necessitating the replacement of a new bracket and resulting in wasted resources.
[0005] Therefore, how to overcome the shortcomings of the existing technology mentioned above has become the subject of this utility model. Utility Model Content
[0006] This utility model provides a connecting plate profile for an intelligent electric lifting TV bracket, which aims to solve the technical problems mentioned in the background art.
[0007] To achieve the above objectives, the technical solution adopted by this utility model is: a smart electric lifting TV bracket connecting plate profile, comprising a profile body; viewed from a cross-sectional perspective, the profile body includes a first long plate, a second long plate, and symmetrically arranged first and second fixing structures; the first long plate and the second long plate are symmetrically arranged and spaced apart, and the first fixing structure and the second fixing structure are respectively located at both ends of the first long plate and the second long plate in the length direction; the first fixing structure includes a third long plate, a first short plate, a fourth long plate, and a second short plate; the third long plate, the first short plate, the fourth long plate, and the second short plate are connected end to end to form a closed polygonal structure; the first fixing structure and The second fixing structure is identical in structure; the ends of the first long plate and the second long plate on the same side are integrally connected to the first short plate of the first fixing structure, and the other ends of the first long plate and the second long plate on the opposite side are integrally connected to the first short plate of the second fixing structure; the first long plate, the first short plate of the first fixing structure, the second long plate, and the first short plate of the second fixing structure together form a rectangular structure; the first fixing structure also includes two symmetrical and spaced-apart locking blocks, both of which protrude from the surface of the third long plate along its length direction and together with the third long plate form a T-shaped slot, the T-shaped slot protrudes outward toward the outside of the polygonal structure, and the slot opening of the T-shaped slot faces outward toward the outside of the polygonal structure.
[0008] The relevant details of the above plan are explained below:
[0009] This solution uses a T-slot design to accommodate televisions of different sizes. The T-slot allows for quick and easy bolt tightening, and when the installation position needs to be adjusted, simply moving the bolt within the slot allows for convenient position adjustment, flexibly matching various television sizes.
[0010] It should be noted that some TV brackets are not directly inserted into the back of the TV when connecting to the TV, but are fixed by an L-shaped back frame (also known as a back plate).
[0011] In other words, when using this application, the TV can be fixed by using a back bracket or directly by inserting bolts into the T-slot.
[0012] In addition, the T-slot can also be used to assemble the support column, thereby supporting both the main body of the profile and the television simultaneously through the support column.
[0013] A further technical solution includes a third long plate comprising an integrally connected horizontal portion and an inclined portion. The inclined portion bends inward toward the polygonal structure from the connection point with the horizontal portion. The opposite ends of the horizontal portion and the inclined portion are integrally connected to the first short plate and the second short plate, respectively. Both locking blocks are vertically fixed to the surface of the horizontal portion and extend along the length of the horizontal portion. The height of the first short plate is greater than the height of the second short plate.
[0014] The above design allows the T-slot to be positioned on the horizontal part, serving as a guide and facilitating precise axial movement of the bolts during installation.
[0015] The inclined section is equivalent to forming a step in the T-slot, which facilitates the limiting of the bolts (when using the back frame, the bolts that fix the back frame can be limited).
[0016] In a further technical solution, both the polygonal and rectangular structures have multiple first wave-shaped grooves on their outer periphery.
[0017] The design of the first wave groove can not only enhance the aesthetics and three-dimensionality, but also hide the weld lines (black lines) generated during the surface treatment of the profile.
[0018] A further technical solution involves providing a pair of second wave-shaped grooves on the outer side of the rectangular structure on the surface of the first long plate.
[0019] The above design allows the nameplate to be cleverly installed here without compromising the overall aesthetics of the product; at the same time, the second wave pattern can also be used to position the screws when fixing the nameplate, making the installation operation easier.
[0020] In a further technical solution, the surface of the fourth long plate has multiple V-shaped grooves on the outside of the polygonal structure.
[0021] The V-groove design aims to enhance aesthetics and three-dimensionality, and effectively conceal weld lines (black lines) generated during the surface treatment of the profile.
[0022] A further technical solution is that reinforcing ribs are installed on the opposite side surfaces of the first and second long plates.
[0023] With the above design, 1. the flatness of the upper and lower two planes of the profile can be effectively guaranteed during the extrusion production, thus facilitating the subsequent installation of the overall product; 2. at the same time, the reinforcing rib can significantly enhance the rigidity of the connecting plate and effectively improve its service life.
[0024] A further technical solution involves making the thickness of the polygonal structure greater than that of the rectangular structure.
[0025] The above design facilitates the operator's determination of the position when fixing the nameplate, and also increases the operating space when installing components such as bolts.
[0026] The terms "first," "second," etc., used in this article do not specifically refer to order or sequence, nor are they intended to limit this case; they are merely used to distinguish components or operations described using the same technical terms.
[0027] The terms "connection" or "positioning" as used in this article can refer to two or more components or devices making direct physical contact with each other, or making indirect physical contact with each other, or to two or more components or devices operating or moving with each other.
[0028] The terms “include,” “including,” and “have” used in this article are all open-ended, meaning they include but are not limited to.
[0029] Unless otherwise specified, the terms used herein generally have their ordinary meaning in the context of the art, the subject matter, and the specific context. Certain terms used to describe this case will be discussed below or elsewhere in this specification to provide additional guidance to those skilled in the art in describing the case.
[0030] The terms “front,” “back,” “up,” “down,” “left,” and “right” used in this article are directional terms. In this case, they are only used to describe the positional relationship between the structures and are not intended to limit the specific direction of the protection scheme or its actual implementation.
[0031] The working principle and advantages of this utility model are as follows:
[0032] This invention employs a T-shaped slot design, which can accommodate televisions of different sizes. The T-shaped slot allows for quick tightening of bolts, and when the installation position needs to be adjusted, simply moving the bolt within the slot allows for convenient position adjustment, flexibly matching various television sizes. Attached Figure Description
[0033] Appendix Figure 1 This is a schematic diagram of the main structure of the profile in an embodiment of this utility model;
[0034] Appendix Figure 2 This is a structural diagram showing the connection between the profile body and the fixed support column in an embodiment of this utility model;
[0035] Appendix Figure 3 This is a schematic diagram of the structure when the profile body is connected to the TV back frame in an embodiment of this utility model.
[0036] In the above attached figures: 1. Profile body; 2. First long plate; 3. Second long plate; 4. First fixing structure; 5. Second fixing structure; 6. Third long plate; 7. First short plate; 8. Fourth long plate; 9. Second short plate; 10. Locking block; 11. T-slot; 12. Horizontal part; 13. Inclined part; 14. First corrugated groove; 15. Second corrugated groove; 16. V-groove; 17. Reinforcing rib; 18. Fixing support column; 19. TV set back frame. Detailed Implementation
[0037] The present invention will be further described below with reference to the accompanying drawings and embodiments:
[0038] Example: The present invention will be clearly described below with illustrations and detailed description. Any person skilled in the art who understands the examples of the present invention can make changes and modifications based on the technology taught in the present invention without departing from the spirit and scope of the present invention.
[0039] The terminology used herein is for the purpose of describing specific embodiments only and is not intended to limit the scope of this work. Singular forms such as “a,” “this,” “this,” “the,” and “the” as used herein also include plural forms.
[0040] See appendix Figures 1-3 As shown, a smart electric lifting TV bracket connecting plate profile includes a profile body 1. Viewed from a cross-sectional perspective, the profile body 1 includes a first long plate 2, a second long plate 3, and symmetrically arranged first fixing structures 4 and second fixing structures 5. The first long plate 2 and the second long plate 3 are symmetrically arranged and spaced apart. The first fixing structures 4 and 5 are respectively located at both ends of the first long plate 2 and the second long plate 3 in the length direction. The first fixing structure 4 includes a third long plate 6, a first short plate 7, a fourth long plate 8, and a second short plate 9. The third long plate 6, the first short plate 7, the fourth long plate 8, and the second short plate 9 are connected end-to-end to form a closed polygonal structure. The first fixing structure 4 and the second fixing structure 5 have the same structure. The first long plate 2 and the second long plate 3 are integrally connected to the first short plate 7 of the first fixing structure 4 at the same end on the same side, and the other end of the first long plate 2 and the second long plate 3 on the opposite side are integrally connected to the first short plate 7 of the second fixing structure 5. The first long plate 2, the first short plate 7 of the first fixing structure 4, the second long plate 3 and the first short plate 7 of the second fixing structure 5 together form a rectangular structure. The first fixing structure 4 also includes two symmetrical and spaced-apart locking blocks 10. Both locking blocks 10 protrude from the surface of the third long plate 6 in the length direction and together with the third long plate 6 form a T-shaped slot 11. The T-shaped slot 11 protrudes outward from the polygonal structure, and the slot opening of the T-shaped slot 11 faces outward from the polygonal structure.
[0041] This utility model adopts a T-shaped slot 11 design, which can be adapted to televisions of different sizes. The T-shaped slot 11 can quickly tighten the bolts, and when the installation position needs to be adjusted, simply move the bolts in the slot to achieve convenient position adjustment, flexibly matching various television sizes.
[0042] It should be noted that some TV brackets are not directly inserted into the back of the TV with bolts, but are fixed using an L-shaped backplate (also known as a back panel). See details. Figure 3 It shows the state when the main body of the profile 1 is connected to the TV back frame 19.
[0043] In other words, this application can be used as a reference. Figure 3 The TV can be fixed by using a back bracket, or it can be fixed directly by inserting the bolts into the T-slot 11.
[0044] In addition, the T-slot 11 can also be used for assembling the fixed support 18 (see...). Figure 2 The display shows the state when the profile body 1 is connected to the fixed support column 18, so that the fixed support column 18 can simultaneously support the profile body 1 and the TV.
[0045] Preferably, the third long plate 6 includes an integrally connected horizontal portion 12 and an inclined portion 13. The inclined portion 13 bends inward toward the polygonal structure from the connection point with the horizontal portion 12. The opposite ends of the horizontal portion 12 and the inclined portion 13 are integrally connected to the first short plate 7 and the second short plate 9, respectively. Both locking blocks 10 are vertically fixed to the surface of the horizontal portion 12 and extend along the length direction of the horizontal portion 12. The height of the first short plate 7 is greater than the height of the second short plate 9.
[0046] With the above design, the T-slot 11 is positioned on the horizontal part 12 to serve as a guide, facilitating the precise axial movement of the bolts during installation.
[0047] The inclined portion 13 is equivalent to forming a step in the T-slot 11, which facilitates the limiting of the bolt (see reference). Figure 3 When using a back frame, the bolts that secure the back frame can be limited.
[0048] Preferably, both the polygonal structure and the rectangular structure have multiple first wave-shaped grooves 14 on their outer peripheral surfaces.
[0049] The design of the first wave groove 14 can not only enhance the aesthetics and three-dimensionality, but also hide the weld lines (black lines) generated during the surface treatment of the profile.
[0050] Preferably, the surface of the first long plate 2 is provided with a pair of second wave grooves 15 on the outside of the rectangular structure.
[0051] The above design allows the nameplate to be cleverly installed here without compromising the overall aesthetics of the product; at the same time, the second wave pattern can also be used to position the screws when fixing the nameplate, making the installation operation easier.
[0052] Preferably, the surface of the fourth long plate 8 has multiple V-shaped grooves 16 on the outside of the polygonal structure.
[0053] The V-groove 16 is designed to enhance aesthetics and three-dimensionality, and can effectively hide the weld lines (black lines) generated during the surface treatment of the profile.
[0054] Preferably, reinforcing ribs 17 are installed on the opposite side surfaces of the first long plate 2 and the second long plate 3.
[0055] With the above design, 1. the flatness of the upper and lower two planes of the profile can be effectively guaranteed during the extrusion production, thus facilitating the subsequent installation of the overall product; 2. at the same time, the reinforcing rib 17 can significantly enhance the rigidity of the connecting plate and effectively improve its service life.
[0056] Preferably, the thickness of the polygonal structure is greater than the thickness of the rectangular structure.
[0057] The above design facilitates the operator's determination of the position when fixing the nameplate, and also increases the operating space when installing components such as bolts.
[0058] The above embodiments are only for illustrating the technical concept and features of this utility model, and are intended to enable those skilled in the art to understand the content of this utility model and implement it accordingly. They should not be construed as limiting the scope of protection of this utility model. All equivalent changes or modifications made in accordance with the spirit and essence of this utility model should be included within the scope of protection of this utility model.
Claims
1. A connecting plate profile for an intelligent electric lifting TV bracket, characterized in that: Including the profile body (1); From the perspective of cross-section, the profile body (1) includes a first long plate (2), a second long plate (3), and a first fixed structure (4) and a second fixed structure (5) arranged symmetrically. The first long plate (2) and the second long plate (3) are symmetrically arranged and spaced apart. The first fixing structure (4) and the second fixing structure (5) are respectively located at the two ends of the first long plate (2) and the second long plate (3) in the length direction. The first fixed structure (4) includes the third long plate (6), the first short plate (7), the fourth long plate (8) and the second short plate (9); The third long board (6), the first short board (7), the fourth long board (8), and the second short board (9) are connected end to end to form a closed polygonal structure; The first fixed structure (4) and the second fixed structure (5) have the same structure; The ends of the first long plate (2) and the second long plate (3) on the same side are integrally connected to the first short plate (7) of the first fixing structure (4), and the other ends of the first long plate (2) and the second long plate (3) on the same side are integrally connected to the first short plate (7) of the second fixing structure (5). The first long plate (2), the first short plate (7) of the first fixed structure (4), the second long plate (3) and the first short plate (7) of the second fixed structure (5) together form a rectangular structure; The first fixing structure (4) also includes two symmetrical and spaced-apart card blocks (10). Both card blocks (10) protrude from the surface of the third long plate (6) along its length and together with the third long plate (6) form a T-shaped slot (11). The T-shaped slot (11) protrudes outward toward the outside of the polygonal structure, and the slot of the T-shaped slot (11) faces outward toward the outside of the polygonal structure.
2. The smart electric lift TV stand adapter plate profile of claim 1, wherein: The third long plate (6) includes an integrally connected horizontal part (12) and an inclined part (13). The inclined part (13) bends towards the inside of the polygonal structure from the connection point with the horizontal part (12). The opposite ends of the horizontal part (12) and the inclined part (13) are integrally connected to the first short plate (7) and the second short plate (9), respectively. The two locking blocks (10) are both vertically fixed to the surface of the horizontal part (12) and extend along the length direction of the horizontal part (12). The height of the first short board (7) is greater than the height of the second short board (9).
3. The smart electric lift TV stand adapter plate profile of claim 1, wherein: Both the polygonal structure and the rectangular structure have multiple first wave-shaped grooves (14) on their outer periphery.
4. The smart electric lift TV stand adapter plate profile of claim 1 or 3, wherein: The surface of the first long plate (2) has a pair of second wave grooves (15) on the outside of the rectangular structure.
5. The smart electric lift TV stand adapter plate profile of claim 1 or 3, wherein: The surface of the fourth long plate (8) has multiple V-shaped grooves (16) on the outside of the polygonal structure.
6. The intelligent electric lifting TV bracket connecting plate profile according to claim 1, characterized in that: The first long plate (2) and the second long plate (3) have reinforcing ribs (17) installed on the opposite side of their surfaces.
7. The intelligent electric lifting TV bracket connecting plate profile according to claim 1, characterized in that: The thickness of a polygonal structure is greater than that of a rectangular structure.