Triple-monitor stand
By designing a rotatable three-screen splitter, the problem of limited display angle of existing splitters is solved, realizing free hovering and angle adjustment of the screen, improving user experience and the stability of the stand.
Patent Information
- Authority / Receiving Office
- WO · WO
- Patent Type
- Applications
- Current Assignee / Owner
- XIA GONGJUN
- Filing Date
- 2025-02-21
- Publication Date
- 2026-07-16
Smart Images

Figure CN2025078552_16072026_PF_FP_ABST
Abstract
Description
Three-screen splitter TECHNICAL FIELD
[0001] The present application relates to the technical field of splitter, in particular to a three-screen splitter. BACKGROUND
[0002] At present, the existing splitter on the market mostly adopts a small support frame or a small support bracket, and mostly adopts a 45-degree angle support structure, which has the problems of limited display angle, fatigue, and poor experience. SUMMARY
[0003] The present application provides a three-screen splitter, which solves the problems of the existing mode.
[0004] In order to achieve the above-mentioned purpose, the present application provides the following technical scheme: a three-screen splitter, comprising: a first screen 1, a second screen 2, a third screen 3, and a first support 4; the first screen 1 is rotatably connected to one end of the second screen 2, the third screen 3 is rotatably connected to the other end of the second screen 2, and the first support 4 is connected to the second screen 2; the first support 4 comprises a main plate 41, a sub-plate 42 and a support plate 43, the main plate 41 is fixedly connected to the second screen 2, one end of the sub-plate 42 is rotatably connected to the main plate 41, and the other end of the sub-plate 42 is rotatably connected to the support plate 43; the sub-plate 42 comprises a second connecting portion 421 and a third connecting portion 422, the second connecting portion 421 is provided with an extension portion 423, the third connecting portion 422 is provided with an extension slot 424, and the extension portion 423 is movably clamped in the extension slot 424.
[0005] Preferably, a first rotating shaft 5 is arranged, the first rotating shaft 5 is provided with a first through hole 53; one end of the sub-plate 42 is rotatably connected to the main plate 41 through the first rotating shaft 5, the other end of the sub-plate 42 is rotatably connected to the support plate 43 through the first rotating shaft 5, and the main plate 41 is rotatably connected to the second screen 2 through the first rotating shaft 5; one end of the sub-plate 42 is communicated with the main plate 41 through the first through hole 53, the other end of the sub-plate 42 is communicated with the support plate 43 through the first through hole 53, and the main plate 41 is communicated with the second screen 2 through the first through hole 53.
[0006] Preferably, the screen includes a second rotating shaft 6, on which a second through hole 61 is provided. A first groove 11 is provided at the right end of the first screen 1, a second groove 21 is provided at the left end of the second screen 2, a third groove 22 is provided at the right end of the second screen 2, and a fourth groove 31 is provided at the left end of the third screen 3. The first groove 11 is connected to the second groove 21 through the second rotating shaft 6, and the third groove 22 is connected to the fourth groove 31 through the second rotating shaft 6. The first screen 1 is connected to the second screen 2 through the second through hole 61, and the second screen 2 is connected to the third screen 3 through the second through hole 61.
[0007] Preferably, a fourth connecting part 425 and a spring 426 are provided in the telescopic groove 424. The left side of the fourth connecting part 425 is connected to the right side of the spring 426, and the right side of the spring 426 abuts against the side wall of the telescopic part 423. A first hook 427 facing to the right is provided above the fourth connecting part 425, and a second hook 428 facing to the left is provided below the telescopic part 423 corresponding to the first hook 427. A first protrusion 429 is provided in front of the fourth connecting part 425, and a fifth groove 430 is opened in front of the third connecting part 422 corresponding to the first protrusion 429. The first protrusion 429 is movably disposed in the fifth groove 430.
[0008] Preferably, a spring 431 is provided in the telescopic groove 424, and the spring 431 is connected to the telescopic part 423.
[0009] Preferably, the telescopic part 423 is provided with a heat-reflecting steel plate.
[0010] Preferably, a handle 432 is provided at the front of the support plate 43.
[0011] Preferably, a second bracket 433 is rotatably disposed above the support plate 43, and a support groove 434 is disposed behind the sub-plate 42.
[0012] Preferably, a storage limiting buckle 21 is provided above the second screen 2.
[0013] By implementing the above technical solutions, the following technical effects are achieved: the screen can be freely suspended, its height and angle can be adjusted, the strength and stability of the bracket are guaranteed, the need for freely choosing a comfortable angle is met, and the ease of use and practicality are improved. Attached Figure Description
[0014] Figure 1 is a perspective view of the overall structure of a three-screen splitter provided by the present invention.
[0015] Figure 2 is a perspective view of the overall structure of a three-screen splitter provided by the present invention;
[0016] Figure 3 is a perspective view of the overall structure of a three-screen splitter provided by the present invention.
[0017] Figure 4 is a partial enlarged perspective view of a three-screen splitter provided by the present invention.
[0018] Figure 5 is a partial enlarged perspective view of a three-screen splitter provided by the present invention.
[0019] Figure 6 is a partial enlarged perspective view of a three-screen splitter provided by the present invention.
[0020] Figure 7 is a partial enlarged perspective view of a three-screen splitter provided by the present invention.
[0021] Figure 8 is a partial enlarged perspective view of a three-screen splitter provided by the present invention.
[0022] Figure 9 is a partial enlarged schematic diagram (three-screen splitter) of the present invention. Detailed Implementation
[0023] To better understand the technical solution of the present invention, the embodiments provided by the present invention will be described in detail below with reference to the accompanying drawings.
[0024] As shown in Figures 1-9, this embodiment provides a three-screen splitter, including: a first screen 1, a second screen 2, a third screen 3, and a first bracket 4; the first screen 1 is rotatably connected to one end of the second screen 2, the third screen 3 is rotatably connected to the other end of the second screen 2, and the first bracket 4 is connected to the second screen 2; the first bracket 4 includes a main board 41, a sub-board 42, and a support plate 43, the main board 41 is fixedly connected to the second screen 2, one end of the sub-board 42 is rotatably connected to the main board 41, and the other end of the sub-board 42 is rotatably connected to the support plate 43; the sub-board 42 includes a second connecting part 421 and a third connecting part 422, the second connecting part 421 is provided with a telescopic part 423, the third connecting part 422 is provided with a telescopic groove 424, and the telescopic part 423 is movably engaged in the telescopic groove 424.
[0025] In this embodiment, during use, the three screens are opened horizontally to increase the display area, and the first bracket is opened. The main board, sub-board, and support plate form a triangular structure for stable support. The product height can be adjusted by changing the position of the telescopic part within the telescopic groove to meet the usage requirements of different users with different heights and the number of screens used. The product can be freely suspended, and the display height and angle of the screens can be adjusted, ensuring the strength and stability of the bracket. When storing, one side of the support plate is rotated to fit against the sub-board, and then the sub-board is rotated relative to the second screen, thereby fitting and locking the other side of the support plate against the back of the second screen, ensuring stability in the stored state. In addition, the first and third screens are stored sequentially close to the second screen, making the product very small in size, easy to store and transport, and improving ease of use and practicality. The main board contains a circuit board, which is electrically connected to the display screen. By changing the position of the telescopic part within the telescopic groove, the usage height can be changed, allowing users to adjust according to their needs and improving the user experience.
[0026] In Embodiment 2, further, a first rotating shaft 5 is included, on which a first through hole 53 is provided; one end of the sub-plate 42 is rotatably connected to the main board 41 via the first rotating shaft 5, and the other end of the sub-plate 42 is rotatably connected to the support plate 43 via the first rotating shaft 5; the main board 41 is rotatably connected to the second screen 2 via the first rotating shaft 5; one end of the sub-plate 42 is connected to the main board 41 via the first through hole 53, and the other end of the sub-plate 42 is connected to the support plate 43 via the first through hole 53; the main board 41 is connected to the second screen 2 via the first through hole 53. The relative rotation between the two integral parts of the first rotating shaft 5 (within its middle and outside) allows for the rotatable connection of a first structure and a second structure respectively connected to the two parts of the first rotating shaft 5; the through hole 53 between the two parts of the first rotating shaft 5 allows the first structure and the second structure respectively connected to the two parts of the first rotating shaft 5 to have their wiring routed through the first through hole 53, thereby achieving the function of concealing electrical connections and improving aesthetics.
[0027] Based on the above embodiments, a further improvement is made, including a second rotating shaft 6 with a second through hole 61. The first screen 1 has a first groove 11 at its right end, the second screen 2 has a second groove 21 at its left end, a third groove 22 at its right end, and a fourth groove 31 at its left end. The first groove 11 is connected to the second groove 21 via the second rotating shaft 6, and the third groove 22 is connected to the fourth groove 31 via the second rotating shaft 6. The first screen 1 is connected to the second screen 2 via the second through hole 61, and the second screen 2 is connected to the third screen 3 via the second through hole 61. By placing the second rotating shaft 6, which has the same thickness as the screen, between the two screens, a rotatable connection between a first structure and a second structure connected to the left and right parts of the second rotating shaft 6 is achieved. Through the through holes (second through holes 61) on the left and right parts of the second rotating shaft 6, the two screens connected to the left and right parts of the second rotating shaft 6 can have wiring routed through the second through holes 61, thereby achieving the function of concealing electrical connections and improving aesthetics.
[0028] Based on the above embodiments, a fourth connecting part 425 and a spring 426 are further provided in the telescopic groove 424. The left side of the fourth connecting part 425 is connected to the right side of the spring 426, and the right side of the spring 426 abuts against the side wall of the telescopic part 423. A first hook 427 facing to the right is provided above the fourth connecting part 425, and a second hook 428 facing to the left is provided below the telescopic part 423 corresponding to the first hook 427. A first protrusion 429 is provided in front of the fourth connecting part 425, and a fifth groove 430 is opened in front of the third connecting part 422 corresponding to the first protrusion 429. The first protrusion 429 is movably disposed in the fifth groove 430. When the product is not in use, the telescopic part 423 is completely retracted into the telescopic groove 424, the spring 426 provides elastic force to the fourth connecting part 425, and the first hook 427 is stably locked onto the second hook 428. When the product is in use, by changing the position of the first protrusion 429 in the fifth groove 430, the first hook 427 is controlled to disengage from the second hook 428, and then the telescopic part 423 can be pulled out from the telescopic groove 424, so as to achieve stable storage and convenient use of the product.
[0029] Furthermore, based on the above embodiments, a spring 431 is provided within the telescopic groove 424, and the spring 431 is connected to the telescopic part 423. When the telescopic part 423 extends or retracts relative to the telescopic groove 424, the spring 431 can provide it with a stable force that is opposite in direction to the magnitude of the gravity of the first screen 1, the second screen 2, the third screen 3, the motherboard 41, and the telescopic part 423. The telescopic part 423 can be stably suspended at any position relative to the telescopic groove 424, allowing users to choose the usage height according to their needs, thereby improving the user experience.
[0030] Furthermore, based on the above embodiments, the telescopic part 423 is provided with a heat-reflecting steel plate. When the telescopic part 423 extends or retracts relative to the telescopic groove 424, it can improve the user's handling experience; when used in a fixed position, it can improve the product's stability.
[0031] Furthermore, based on the above embodiments, a handle 432 is provided at the front of the support plate 43. After the product is fully stored, it can be moved by lifting the handle, which diversifies the product's usage environment and improves the user experience.
[0032] Furthermore, based on the above embodiments, a second bracket 433 is rotatably mounted on top of the support plate 43, and a support groove 434 is provided behind the sub-plate 42. In use, one end of the second bracket 433 is rotatably connected to the support plate, and the other end abuts against the support groove 434, forming a stable triangular support structure, improving the stability of the product during use and further enhancing the user experience. When not in use, the second bracket 433 is stored in the support groove 434, reducing the product's volume and improving space utilization.
[0033] Furthermore, based on the above embodiments, a storage limiting buckle 21 is provided above the second screen 2. During storage, one side of the support plate is rotated to fit against the sub-plate, and then the sub-plate is rotated relative to the second screen, thereby fitting the other side of the support plate against the back of the second screen. The storage limiting buckle 21 is then engaged with the support plate, thus limiting the position of the first bracket, ensuring stability in the stored state, and improving the user experience.
[0034] The above provides a detailed description of a three-screen splitter provided by the embodiments of the present invention. For those skilled in the art, based on the ideas of the embodiments of the present invention, there will be changes in the specific implementation methods and application scope. Therefore, the content of this specification should not be construed as a limitation of the present invention.
Claims
1. A three-screen splitter, characterized in that, include: The system comprises a first screen (1), a second screen (2), a third screen (3), and a first bracket (4). The first screen (1) is rotatably connected to one end of the second screen (2), and the third screen (3) is rotatably connected to the other end of the second screen (2). The first bracket (4) is connected to the second screen (2). The first bracket (4) includes a main board (41), a sub-board (42) and a support plate (43). The main board (41) is fixedly connected to the second screen (2). One end of the sub-board (42) is rotatably connected to the main board (41), and the other end of the sub-board (42) is rotatably connected to the support plate (43). The sub-plate (42) includes a second connecting part (421) and a third connecting part (422). The second connecting part (421) is provided with a telescopic part (423), and the third connecting part (422) is provided with a telescopic groove (424). The telescopic part (423) is movably engaged in the telescopic groove (424).
2. The three-screen splitter according to claim 1, characterized in that, Includes a first rotating shaft (5), on which a first through hole (53) is provided; One end of the sub-board (42) is rotatably connected to the main board (41) via the first rotating shaft (5), and the other end of the sub-board (42) is rotatably connected to the support plate (43) via the first rotating shaft (5). The main board (41) is rotatably connected to the second screen (2) via the first rotating shaft (5). One end of the sub-board (42) is connected to the main board (41) through the first through hole (53), and the other end of the sub-board (42) is connected to the support plate (43) through the first through hole (53). The main board (41) is connected to the second screen (2) through the first through hole (53).
3. The three-screen splitter according to claim 1, characterized in that, Includes a second rotating shaft (6), on which a second through hole (61) is provided, a first groove (11) is provided at the right end of the first screen (1), a second groove (21) is provided at the left end of the second screen (2), a third groove (22) is provided at the right end of the second screen (2), and a fourth groove (31) is provided at the left end of the third screen (3). The first groove (11) is connected to the second groove (21) via the second rotating shaft (6), and the third groove (22) is connected to the fourth groove (31) via the second rotating shaft (6); The first screen (1) is connected to the second screen (2) through the second perforation (61), and the second screen (2) is connected to the third screen (3) through the second perforation (61).
4. The three-screen splitter according to claim 1, wherein The telescopic groove (424) is provided with a fourth connecting part (425) and a spring (426). The left side of the fourth connecting part (425) is connected to the right side of the spring (426). The right side of the spring (426) abuts against the side wall of the telescopic part (423). A first hook (427) facing right is provided above the fourth connecting part (425). A second hook (428) facing left is provided below the telescopic part (423) corresponding to the first hook (427). The fourth connecting part (425) has a first protrusion (429) on its front side, and the third connecting part (422) has a fifth groove (430) on its front side corresponding to the first protrusion (429), and the first protrusion (429) is movably disposed in the fifth groove (430).
5. The three-screen splitter according to claim 4, characterized in that, A spring (431) is provided inside the telescopic groove (424), and the spring (431) is connected to the telescopic part (423).
6. The three-screen splitter according to claim 4, characterized in that, The telescopic part (423) is provided with a heat-reflecting steel plate.
7. The three-screen splitter according to claim 1, characterized in that, A handle (432) is provided at the front of the support plate (43).
8. The three-screen splitter according to claim 1, characterized in that, A second bracket (433) is rotatably mounted above the support plate (43), and a support groove (434) is provided behind the sub-plate (42).
9. The three-screen splitter according to claim 1, characterized in that, A storage limit buckle (21) is provided above the second screen (2).