Modular detachable touch all-in-one machine
The touch screen all-in-one machine, with its modular design and standardized interface, solves the problem of fixed and difficult-to-adjust components in existing technologies. It enables flexible adjustment and optimized layout of component positions, simplifies the installation process, and improves the adaptability and stability of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- SUZHOU LIANXUAN DISPLAY TECH CO LTD
- Filing Date
- 2026-03-04
- Publication Date
- 2026-06-05
Smart Images

Figure CN122152082A_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of all-in-one technology, and more particularly to a modular, detachable touch all-in-one computer. Background Technology
[0002] With the rapid development of information technology, touch screen all-in-one machines, as intelligent terminal devices integrating display, touch control, and computing, have been widely used in various fields such as commercial display, education and training, government offices, and industrial control. Most existing touch screen all-in-one machines adopt an integrated design, fixing the display panel, touch module, motherboard, power supply, and interfaces into a single casing. While the overall structure is compact and can meet basic usage needs, it has gradually revealed many limitations in practical applications, making it difficult to adapt to the diverse usage requirements and maintenance needs of various scenarios.
[0003] In terms of structural flexibility, traditional all-in-one touch screen PCs typically have a single welded or fixed encapsulated casing. Once the internal components are assembled, they are difficult to disassemble, replace, or reposition individually. The all-in-one structure cannot adjust component configurations according to changes in usage scenarios. For example, if a display panel with a higher color gamut or the addition of specific functional interfaces is needed, the fixed positions of these interfaces make it difficult to rationally adjust and arrange their layout. Furthermore, over time, plugged-in components are prone to loosening, leading to poor contact. Additionally, traditional all-in-one PCs require numerous auxiliary tools for disassembly, making them inconvenient. Therefore, a modular, detachable all-in-one touch screen PC is proposed. Summary of the Invention
[0004] The purpose of this invention is to address the shortcomings of existing technologies by proposing a modular, detachable touch screen all-in-one machine.
[0005] To achieve the above objectives, the present invention adopts the following technical solution: A modular and detachable touch screen all-in-one machine includes a display module, a body frame mounted on the rear side of the display module, a mounting base provided on the bottom side of the body frame, and a detachable component, an adjustment component, and a core functional module within the body frame. The detachable component is connected to the rear side of the body frame. The detachable component includes a detachable sealing plate, a detachable sealing block, and a crossbar. A disassembly port is provided on the rear side of the body frame. Multiple crossbars are provided and are installed between the inner walls of the disassembly port. Multiple detachable sealing blocks are provided and are arranged sequentially on the crossbars. The detachable sealing plate is limited on the other side of the multiple detachable sealing blocks. The adjustment assembly is installed inside the machine frame. The adjustment assembly includes an adjustment rod, a vertical rod, and a limiting plate. The vertical rod is fixedly installed inside the machine frame, the limiting plate is installed on the outside of the vertical rod, and the adjustment rod is slidably connected to the vertical rod.
[0006] Preferably, the display module uses an LCD or OLED high-definition display panel, integrates a display driving circuit and a signal receiving unit, supports different resolution adaptations, connects to the host module through a standardized video interface, and can replace display panels of different sizes and color gamuts as needed.
[0007] Preferably, the crossbar is integrally connected to the machine frame, and the top and bottom surfaces of the crossbar and the disassembly port are provided with mounting grooves. The right end of the mounting groove is provided with a mounting port. Limiting slides are installed between the inner walls on both sides of the mounting groove. Limiting slide grooves are provided on the top and bottom edges of the detachable block. The detachable blocks are sequentially connected in the mounting groove. A connecting block is installed on the left side of the removable block. Two symmetrically installed second plug rods are connected inside the connecting block. A manual lever is connected to one side of each second plug rod. The manual levers on the upper and lower sides are connected to the second plug rods by a spring. The second plug rods extend out of the upper and lower ends of the connecting block. A connecting groove is opened on the right side of the removable block. The connecting groove is adapted to the connecting block and the second plug rod. The removable blocks are connected in an adjustable position. A connecting groove is also opened on the inner left side of the disassembly port.
[0008] Preferably, the removable sealing plate is also provided with multiple connecting slots that are adapted to the mounting port. The removable seal is installed on the mounting port side. The mounting port of the cross frame is provided with a groove. The removable sealing plate is provided with a protrusion. Two third plug rods are connected to the protrusion with a spring. The third plug rods and the protrusions are adapted to the grooves. A toggle block is connected to the third plug rod. Each of the four corners of the removable sealing plate is spring-connected with a first plug rod. The mounting port has multiple positioning holes, and the first plug rod is connected to the positioning holes. A toggle block is also connected to one side of the first plug rod. The removable sealing plate, the removable sealing block, the cross frame, and the machine frame are all mutually compatible.
[0009] Preferably, there are two vertical rods, which are symmetrically installed between the inner walls on both sides of the machine frame. Each vertical rod has a limit plate installed on its outer side, and the limit plate has multiple limit slots. Each end of the adjusting rod has a slider installed on it, and the two sliders are slidably connected to the outer surfaces of the two vertical rods. Each slider is movably connected to a positioning screw, and each positioning screw has a rotating nut connected to its outer end. The rotating nut is connected to one side of the limit slot.
[0010] Preferably, multiple adjusting rods are provided, and multiple positioning blocks are movably connected to the adjusting rods. Each positioning block has an inner cavity, and a guide rod is vertically installed on the bottom surface of the inner cavity. A bending strip is slidably connected to the outer side of the guide rod, and a pressing rod is threaded to the top of the inner cavity. The pressing rod is sleeved on the outer side of the guide rod, and the bottom end of the pressing rod presses against one end of the bending strip.
[0011] Preferably, the core functional module includes a touch module, a host module, a power module, and a standardized interface component. The touch module is installed inside the display module. The host module is connected between the other ends of multiple bent strips. The standardized interface component includes a data interface, a power connector, and a signal interface. The power connector is installed on a removable plate. The power module is connected to the power connector. The data interface and signal interface are distributed on the removable plate. The rear side of the host module is plugged into the inner end of the signal interface.
[0012] The beneficial effects of this invention are: This solution allows for easy adjustment and installation of different interfaces through the design of removable sealing blocks. The removable sealing plate facilitates the positioning of the removable sealing blocks and the installation of components such as power supplies. The vertical rod and adjusting rod allow for easy positioning and clamping of the main module, reducing the frequency of loosening. Furthermore, the device can be installed and used without the aid of external tools, making it more convenient.
[0013] This solution reduces the possibility of fixed internal shapes and positions of the all-in-one machine, making it difficult to add new interfaces. It also reduces the possibility of fixed installation positions of internal components, making it impossible to optimize the layout when adding new components. This improves the device's ease of disassembly and reassembly, making disassembly and installation simple and stable after installation. It also enhances the all-in-one machine's ability to adjust and arrange its internal layout in multiple positions, allowing for a more reasonable layout after adding new components. Attached Figure Description
[0014] Figure 1 This is a schematic diagram of the front structure of a modular, detachable touch screen all-in-one machine proposed in this invention; Figure 2 This is a schematic diagram of the rear structure of a modular detachable touch screen all-in-one machine proposed in this invention; Figure 3 This is a schematic diagram of the main structure of the fuselage frame. Figure 4 This is a structural diagram showing the disassembly of the fuselage frame. Figure 5 This is a front view diagram of the fuselage frame when it is partially disassembled. Figure 6 for Figure 4 A schematic diagram of the structure of part A; Figure 7 This is a structural diagram of the removable panel section; Figure 8 This is a schematic diagram of the main structure of the removable panel. Figure 9 This is a structural diagram of the removable block section; Figure 10 This is a schematic diagram of the adjusting rod section; Figure 11 This is a partial structural diagram of the adjusting rod section.
[0015] In the diagram: 1. Display module; 2. Body frame; 3. Signal interface; 4. Removable sealing plate; 5. Removable sealing block; 6. Standardized interface assembly; 7. Power module; 8. Vertical rod; 9. Limiting plate; 10. Adjusting rod; 11. Positioning block; 12. Main unit module; 13. Horizontal frame; 14. Groove; 15. Mounting slot; 16. First plug-in rod; 161. Positioning socket; 17. Protrusion; 18. Power plug interface; 19. Connecting block; 20. Second plug-in rod; 21. Pressing rod; 22. Bending strip; 23. Slider; 24. Positioning screw; 25. Rotating nut. Detailed Implementation
[0016] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments.
[0017] Example: Refer to Figure 1-11 A modular and detachable touch screen all-in-one machine includes a display module 1, a body frame 2 mounted on the rear side of the display module 1, a mounting base provided on the bottom side of the body frame 2, and a detachable component, an adjustment component and a core functional module inside the body frame 2. The detachable component is connected to the rear side of the body frame 2. The detachable component includes a detachable sealing plate 4, a detachable sealing block 5 and a cross frame 13. A disassembly port is provided on the rear side of the body frame 2. Multiple cross frames 13 are provided and are installed between the inner walls of the disassembly port. Multiple detachable sealing blocks 5 are provided and are arranged sequentially on the cross frame 13. The detachable sealing plate 4 is limited on the other side of the multiple detachable sealing blocks 5. The adjustment assembly is installed inside the body frame 2. The adjustment assembly includes an adjustment rod 10, a vertical rod 8 and a limiting plate 9. The vertical rod 8 is fixedly installed inside the body frame 2, the limiting plate 9 is installed on the outside of the vertical rod 8, and the adjustment rod 10 is slidably connected to the vertical rod 8.
[0018] Preferably, the display module 1 uses an LCD or OLED high-definition display panel, integrates a display driving circuit and a signal receiving unit, supports different resolution adaptations, and is connected to the host module 12 through a standardized video interface. Different sizes and color gamuts of display panels can be replaced as needed.
[0019] Preferably, the cross frame 13 is integrally connected to the machine frame 2. The upper and lower sides of the cross frame 13 and the top and bottom surfaces of the disassembly port are provided with mounting grooves 15. The right end of the mounting groove 15 is provided with an installation port to facilitate the insertion of the removable sealing plate 4 and the removable sealing block 5. Limiting slide strips are installed between the inner walls on both sides of the mounting groove 15 to reduce the loosening of the removable sealing plate 4 and the removable sealing block 5. Limiting slide grooves are provided on the top and bottom edges of the removable sealing block 5. The removable sealing blocks 5 are sequentially connected in the mounting groove 15, and the installation order and position can be shuffled to facilitate more reasonable position adjustment. A connecting block 19 is installed on the left side of the removable sealing block 5. Two symmetrically installed second plug-in rods 20 are connected inside the connecting block 19. Each of the second plug-in rods 20 has a manual lever connected to one side for easy adjustment inside the frame 2 of the machine body, facilitating the installation and removal of the removable sealing block 5. The manual levers on the upper and lower sides are connected to the second plug-in rods 20 by springs, which makes it easy for the second plug-in rods 20 to be stably inserted into the slot. The second plug-in rods 20 extend out of the upper and lower ends of the connecting block 19. A connecting groove is opened on the right side of the removable sealing block 5. The connecting groove is adapted to the connecting block 19 and the second plug-in rods 20. The positions of the removable sealing blocks 5 are adjustable. A connecting groove is also opened on the left inner wall of the disassembly port to facilitate the insertion of the second plug-in rods 20.
[0020] Preferably, the removable sealing plate 4 is also provided with multiple connecting grooves that are adapted to the mounting port. The removable sealing plate 4 can limit the removable sealing block 5 when installed on the mounting port side. The mounting port of the cross frame 13 is provided with grooves 14. The removable sealing plate 4 is provided with protrusions 17. Two third plug rods are connected to the protrusions 17 by springs. The third plug rods and the protrusions 17 are adapted to the grooves 14. A toggle block is connected to the third plug rod. The four corners of the removable sealing plate 4 are all spring-connected with first plug rods 16. Multiple positioning holes 161 are opened on the mounting port. The first plug rods 16 are connected in the positioning holes 161. A toggle block is also connected to one side of the first plug rods 16 to facilitate the positioning and installation of the removable sealing plate 4. The removable sealing plate 4, the removable sealing block 5, the cross frame 13 and the machine frame 2 are all mutually compatible.
[0021] Preferably, there are two vertical rods 8, which are symmetrically installed between the inner walls on both sides of the frame 2. Limiting plates 9 are installed on the outer side of each vertical rod 8. Multiple limiting slots are provided on the limiting plates 9 to facilitate the adjustment rod 10. Slider 23 is installed on both ends of the adjustment rod 10. The two sliders 23 are slidably connected to the outer surface of the vertical rods 8 on both sides to facilitate adjustment to different positions. Positioning screws 24 are movably connected to the outer side of each slider 23. Rotating nuts 25 are connected to the outer end of each positioning screw 24. The rotating nuts 25 are connected to one side of the limiting slot to complete the positioning of the adjustment rod 10 at the specified position.
[0022] Preferably, multiple adjusting rods 10 are provided, and multiple positioning blocks 11 are movably connected to the adjusting rods 10. The positioning blocks 11 have an inner cavity, and a guide rod is vertically installed on the bottom surface of the inner cavity. A bending strip 22 is slidably connected to the outer side of the guide rod to facilitate the connection of the main unit module 12. A pressing rod 21 is threadedly connected to the top of the inner cavity. The pressing rod 21 is sleeved on the outer side of the guide rod. The bottom end of the pressing rod 21 is pressed against one end of the bending strip 22 to reduce the loosening of the main unit module 12. A positioning nut is also installed on the positioning block 11.
[0023] In this embodiment, the core functional modules include a touch module, a host module 12, a power module 7, and a standardized interface component 6. The touch module is installed inside the display module 1. The host module 12 is connected between the other ends of multiple bent strips 22. The standardized interface component 6 includes a data interface, a power connector 18, and a signal interface 3. The power connector 18 is installed on the removable sealing plate 4. The power module 7 is connected to the power connector 18. The data interface and the signal interface 3 are distributed on the removable sealing block 5. The rear side of the host module 12 is inserted into the inner end of the signal interface 3.
[0024] Touch module: It adopts capacitive or infrared touch technology, is attached to the surface of display module 1, and communicates with host module 12 through USB, HID or I2C interface. It supports multi-touch and precise positioning, and can be independently disassembled and replaced to adapt to different touch precision requirements.
[0025] The core functional modules also include an auxiliary protection module, which includes an electromagnetic shielding layer, dustproof components, and a heat dissipation coordination system. The electromagnetic shielding layer is located on the inner wall of the module's encapsulation shell and mounting cavity. The dustproof components include dustproof brushes and sealing gaskets. The heat dissipation coordination system uses an intelligent management module to regulate the heat dissipation units of each module and the frame's heat dissipation grille to form an airflow channel, ensuring that the equipment's temperature remains stable under high load.
[0026] Working principle: When the equipment is installed, first plan the placement positions of different interfaces according to the components of the equipment, and then put the removable sealing block 5 into the mounting slot 15 in sequence. During the insertion process, the second plug rod 20 is pressed towards the middle position. When it is put into the designated position, it is released. Under the action of the spring, the second plug rod 20 will be connected in the designated position. Then, the removable sealing block 5 is installed in sequence. After the installation is completed, the removable sealing plate 4 is installed at the mounting port, and the third plug rod and the first plug rod 16 are connected in the corresponding groove 14 and positioning hole 161. When installing the main module 12, connect the main module 12 between the bending strips 22, and then adjust the position of the main module 12 according to the position of the signal interface 3. First, adjust the position of the adjusting rod 10 up and down along the vertical rod 8. When the specified height is reached, flip the positioning screws 24 on both sides outward and insert them into the corresponding limit slots. Then, rotate the rotating nut 25 to tighten it on the outside of the limit slot. After both sides are tightened, the position of the adjusting rod 10 is completed. Then, slide the positioning block 11 to align the insertion interface on the back of the main module 12 with the inner end of the signal interface 3. Press the main module 12 inward to insert it into the inner end of the signal interface 3. Then, tighten the positioning nut on the positioning block 11 and rotate the pressing rod 21 to position the bending strip 22, thereby reducing the possibility of the main module 12 becoming loose and causing abnormal connection.
[0027] The contents not described in detail in this specification are existing technologies known to those skilled in the art.
[0028] All standard parts used in this invention can be purchased from the market, and irregular parts can be customized according to the description and drawings. The specific connection methods of each part adopt conventional methods such as bolts, rivets, and welding that are mature in the prior art. The machinery, parts and equipment adopt conventional models in the prior art, and the circuit connection adopts conventional connection methods in the prior art, which will not be described in detail here.
[0029] The above description is only a preferred embodiment of the present invention, but the scope of protection of the present invention is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in the present invention, based on the technical solution and inventive concept of the present invention, should be covered within the scope of protection of the present invention.
Claims
1. A modular, detachable touch screen all-in-one machine, characterized in that, include: The display module (1) has an organic frame (2) installed on its rear side. The bottom side of the organic frame (2) is provided with a mounting base. The organic frame (2) includes detachable components, adjustable components and core functional modules. The detachable component is connected to the rear side of the body frame (2). The detachable component includes a detachable sealing plate (4), a detachable sealing block (5), and a cross frame (13). A disassembly port is provided on the rear side of the body frame (2). Multiple cross frames (13) are provided, all installed between the inner walls of the disassembly port. Multiple detachable sealing blocks (5) are provided, all arranged sequentially on the cross frame (13). The detachable sealing plate (4) is limited to the other side of the multiple detachable sealing blocks (5). The adjustment assembly is installed inside the body frame (2). The adjustment assembly includes an adjustment rod (10), a vertical rod (8), and a limiting plate (9). The vertical rod (8) is fixedly installed inside the body frame (2). The limiting plate (9) is installed on the outside of the vertical rod (8). The adjustment rod (10) is slidably connected to the vertical rod (8).
2. The modular detachable touch screen all-in-one machine according to claim 1, characterized in that, The display module (1) adopts an LCD or OLED high-definition display panel, integrates a display driving circuit and a signal receiving unit, and supports different resolution adaptations.
3. A modular, detachable touchscreen all-in-one machine according to claim 1, characterized in that, The cross frame (13) is integrally connected to the body frame (2). The top and bottom surfaces of the cross frame (13) and the disassembly port are provided with mounting grooves (15). The right side of the mounting groove (15) is provided with an installation port. Limiting slides are installed between the inner walls on both sides of the mounting groove (15). Limiting slides are provided on the top and bottom edges of the detachable block (5). The detachable block (5) is sequentially connected to the mounting groove (15). A connecting block (19) is installed on the left side of the removable sealing block (5). Two symmetrically installed second plug rods (20) are connected inside the connecting block (19). A manual lever is connected to one side of each second plug rod (20). The manual levers on the upper and lower sides are connected to the second plug rod (20) by a spring. The second plug rod (20) extends out of the upper and lower ends of the connecting block (19). A connecting groove is provided on the right side of the removable sealing block (5). The connecting groove is adapted to the connecting block (19) and the second plug rod (20). The removable sealing blocks (5) are connected in an adjustable position. A connecting groove is also provided on the inner wall of the left side of the disassembly port.
4. A modular, detachable touchscreen all-in-one machine according to claim 3, characterized in that, The removable sealing plate (4) is also provided with multiple connecting slots that are adapted to the installation port. The removable sealing plate (4) is installed on the side of the installation port. The installation port of the cross frame (13) is provided with grooves (14). The removable sealing plate (4) is provided with protrusions (17). The protrusions (17) are connected to two third plug rods by springs. The third plug rods and the protrusions (17) are adapted to the grooves (14). The third plug rods are connected to a toggle block. The four corners of the removable sealing plate (4) are all spring-connected with first plug rods (16). The mounting port is provided with multiple positioning holes (161). The first plug rods (16) are connected in the positioning holes (161). A toggle block is also connected to one side of the first plug rods (16). The removable sealing plate (4), the removable sealing block (5), the cross frame (13) and the body frame (2) are all mutually compatible.
5. A modular, detachable touchscreen all-in-one machine according to claim 1, characterized in that, Two vertical rods (8) are provided, and the two vertical rods (8) are symmetrically installed between the inner walls on both sides of the body frame (2). Limiting plates (9) are installed on the outer side of each vertical rod (8). Multiple limiting slots are provided on the limiting plates (9). Slider (23) is installed on both ends of the adjusting rod (10). The two sliders (23) are slidably connected to the outer surface of the two vertical rods (8). Positioning screws (24) are movably connected to the outer side of each slider (23). Rotating nuts (25) are connected to the outer end of each positioning screw (24). The rotating nuts (25) are connected to one side of the limiting slot.
6. A modular, detachable touchscreen all-in-one machine according to claim 1, characterized in that, Multiple adjusting rods (10) are provided, and multiple positioning blocks (11) are movably connected to the adjusting rods (10). Each positioning block (11) has an inner cavity. A guide rod is vertically installed on the bottom surface of the inner cavity. A bent strip (22) is slidably connected to the outer side of the guide rod. A pressing rod (21) is threadedly connected to the top of the inner cavity. The pressing rod (21) is sleeved on the outer side of the guide rod, and the bottom end of the pressing rod (21) is pressed onto one end of the bent strip (22).
7. A modular, detachable touch screen all-in-one machine according to claim 1, characterized in that, The core functional modules include a touch module, a host module (12), a power module (7), and a standardized interface component (6). The touch module is installed inside the display module (1). The host module (12) is connected between the other ends of multiple bends (22). The standardized interface component (6) includes a data interface, a power connector (18), and a signal interface (3). The power connector (18) is installed on a removable plate (4). The power module (7) is connected to the power connector (18). The data interface and the signal interface (3) are distributed on the removable block (5). The rear side of the host module (12) is plugged into the inner end of the signal interface (3).