An integrated chassis
The integrated chassis design solves the problems of limited functionality and cumbersome wiring in existing chassis, enabling expansion of board slots and real-time on-site operation, thus improving transportation reliability and installation efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HEFEI ZHONGKE CAIXIANG TECH CO LTD
- Filing Date
- 2025-06-20
- Publication Date
- 2026-07-03
AI Technical Summary
The existing chassis has limited functionality and cannot be expanded. The wiring is cumbersome and inconvenient to carry and transport, and it cannot be operated in real time on site.
Design an integrated chassis comprising a chassis body and a detachable operating platform. The board slots can be expanded in the front, back, left, and right directions. The integrated operating platform is securely connected through fixing and limiting components, supporting multiple board slots and real-time on-site operation.
It enables flexible expansion of board slots, simplifies wiring, supports real-time on-site operation, and improves transportation reliability and installation efficiency.
Smart Images

Figure CN224457302U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of data acquisition chassis technology, and more specifically, to an integrated chassis. Background Technology
[0002] As the industry continues to develop, the amount of data and information that needs to be handled is also increasing. Currently, the commonly used plug-in type all-in-one machines on the market are limited in variety and have fixed forms. For example, CPCI equipment, while meeting on-site requirements, lacks expansion capabilities. If additional functional requirements arise in a project (such as function expansion, multi-channel acquisition, additional acquisition or output interfaces, etc.), it cannot be upgraded or used directly on the existing equipment. It requires a re-evaluation of the solution and a custom design of a new chassis, which increases project time and cost. Similarly, PXIe all-in-one machines, limited by their own board size, cannot achieve data communication and processing for complex systems. Multiple boards result in a large overall chassis space, and most control cables for this type of chassis are connected externally and not integrated into the chassis. This can easily lead to accidental signal interruption or other problems during use. Furthermore, this type of chassis does not support functional expansion; once the initial functional design is met, it cannot be changed or adjusted.
[0003] At the same time, the existing chassis structure and operating platform are separate, which is inconvenient to carry and transport. In some places where operation is inconvenient, on-site wiring and equipment construction are difficult, and it is impossible to process and operate on-site in real time. Utility Model Content
[0004] The purpose of this utility model is to provide an integrated chassis to solve the technical problems existing in the background art.
[0005] This utility model provides an integrated chassis, including a chassis body and an operating platform detachably mounted on the chassis body. The chassis body includes a chassis shell, board slots disposed within the chassis shell, a backplate structure, a heat dissipation module, and a power supply module. Several board slots are provided.
[0006] The operating platform is connected to the back panel module and the power module. A fixing component and a limiting component are provided between the operating platform and the housing shell. The fixing component includes a fixing part one provided on the housing shell and a fixing part two provided at the bottom of the operating platform that cooperates with the fixing part one. The fixing part one can be rotated to connect with or separate from the fixing part two.
[0007] In a preferred embodiment, the limiting component includes a limiting strip disposed on the outer shell of the housing, and a limiting groove is provided at the bottom of the operating platform. When the operating platform is placed on the outer shell of the housing, the limiting guide strip is located in the limiting groove.
[0008] In a preferred embodiment, the fixing component includes a rotating rod, a pressing member and a fastening member disposed on the rotating rod, and a fastening seat located on one side of the fastening member;
[0009] The second fixing member includes a connecting seat and a pressing seat adapted to the pressing member. When the rotating rod is rotated, the pressing member presses against the pressing seat, and the snap-fit member snaps onto the snap-fit seat.
[0010] In a preferred embodiment, the pressing member includes a pressing block protruding from the rotating rod, and the pressing seat is provided with a pressing groove corresponding to the pressing block, the pressing groove being adapted to the pressing block.
[0011] In a preferred embodiment, the buckle seat is provided with a snap-fit shaft, and the snap-fit component includes an arc-shaped snap-fit block adapted to the snap-fit shaft.
[0012] In a preferred embodiment, the arc-shaped card block is made of elastic plastic.
[0013] In a preferred embodiment, the operating platform includes a touch-screen operating platform and a keyboard operating platform.
[0014] In a preferred embodiment, the display screen of the keyboard operating platform is provided with a latch.
[0015] The beneficial effects of this utility model's technical solution are:
[0016] This solution allows for expansion of the board slots by arranging them front-to-back or left-to-right. It solves the problem of limited functionality and lack of expandability in existing CPCI and PXIe all-in-one machines by providing flexible customization through multiple board slots. The integrated operating platform avoids the cumbersome wiring required for external device connections and supports real-time on-site operation. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the overall structure of this utility model.
[0018] Figure 2 This utility model Figure 1 Enlarged view of part A in the middle.
[0019] Figure 3 This diagram shows the positional relationship between the pressing block and the pressing seat, and between the arc-shaped locking block and the locking shaft after the rotating rod of this utility model rotates.
[0020] Figure 4 This is a diagram showing the operating platform and the main chassis of this utility model separated.
[0021] Figure 5 This is a schematic diagram of the rear board slot of this utility model.
[0022] Figure 6 This is a schematic diagram of the touch screen operating platform used in this utility model.
[0023] Figure 7 This is a schematic diagram of the keyboard-type operating platform of this utility model located on the side of the main body of the chassis.
[0024] Figure 8 This is a schematic diagram of the touch screen operating platform of this utility model located on the side of the main body of the chassis.
[0025] Explanation of reference numerals in the attached diagram: 1 Chassis body, 2 Operating platform, 3 Chassis shell, 4 Board slot, 5 Backplate structure, 6 Heat dissipation module, 7 Power supply module, 8 Board structure, 9 Limiting strip, 10 Limiting groove, 11 Rotating rod, 12 Pressing block, 13 Snap fastener, 14 Snap-fit shaft, 15 Arc-shaped clip, 16 Pressing block, 17 Pressing seat, 18 Pressing groove, 19 Display screen, 20 Keyboard, 21 Snap fastener, 22 Touch screen. Detailed Implementation
[0026] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention are given for the purpose of illustration and description, and are not intended to be exhaustive or to limit the present invention to the disclosed forms. Many modifications and variations will be apparent to those skilled in the art. The embodiments were chosen and described to better illustrate the principles and practical applications of the present invention, and to enable those skilled in the art to understand the present invention and design various embodiments with various modifications suitable for a particular purpose.
[0027] like Figures 1-5 As shown, the present invention provides an integrated chassis, including a chassis body 1 and an operating platform 2 detachably mounted on the chassis body 1. The chassis body 1 includes a chassis shell 3, a board slot 4 disposed within the chassis shell 3, a backplate structure 5, a heat dissipation module 6, and a power supply module 7. Several board slots 4 are provided.
[0028] The main chassis 1 forms a physical protective frame through the outer shell 3. Board slots 4 are used to insert various functional boards 8 (such as data acquisition cards and communication cards). The backplane structure 5 enables data transmission and power distribution between boards via electrical connections. The heat dissipation module 6 maintains stable internal component temperatures through a fan. The power supply module 7 supplies power to the entire system. The operating platform 2 acquires and displays data through electrical connections (such as plugs or wires) with the backplane structure 5, and is simultaneously powered by the power supply module 7.
[0029] The board slot 4 in this solution can be distributed in various ways, such as front-to-back or left-to-right, to expand the board slot 4. This solution solves the problem of existing CPCI and PXIe all-in-one machines having limited functionality and being unable to expand, by using multiple board slots 4 to achieve flexible functional customization; the integrated operation platform 2 avoids the cumbersome wiring of external device connections and supports real-time on-site operation.
[0030] Operating platform 2 includes a touch-screen operating platform 2 and a keyboard-based operating platform 2, such as the touch-screen operating platform 2. Figure 6 As shown. The keyboard operating platform 2 has a latch 21 on its display screen 19. The touch / keyboard dual mode can adapt to different working scenarios and improve the versatility of use. The latch 21 design improves transportation reliability. The latch 21 of the keyboard operating platform 2 can lock when the display screen 19 is closed to prevent accidental opening and closing during transportation.
[0031] The operating platform 2 is connected to the back panel structure 5 and the power module 7. A fixing component and a limiting component are provided between the operating platform 2 and the housing shell 3. The fixing component includes a fixing part 1 set on the housing shell 3 and a fixing part 2 set at the bottom of the operating platform 2 that cooperates with the fixing part 1. The fixing part 1 can be rotated to connect with or separate from the fixing part 2.
[0032] The operating platform 2 communicates with the back panel structure 5 via connectors (such as board-to-board plug-in) and receives power through the power module 7. In the fixing assembly, fixing component one can rotate around a fulcrum. When rotated to a specific angle, fixing component one and fixing component two form a mechanical lock, securing the operating platform 2 to the housing 3. Reverse rotation releases the lock, facilitating disassembly. The fixing assembly, in conjunction with the limiting assembly, ensures the operating platform 2 is stable and does not wobble after installation, while also supporting quick disassembly for easy maintenance or replacement of the operating platform 2.
[0033] The limiting component includes a limiting strip 9 mounted on the housing shell 3 and a limiting groove 10 at the bottom of the operating platform 2. When the operating platform 2 is placed on the housing shell 3, the limiting strip 9 is located within the limiting groove 10. The cooperation between the limiting strip 9 and the limiting groove 10 provides a pre-positioning function for the fixing component, preventing the operating platform 2 from shifting during fixing. The structure is simple and reliable, allows for repeated positioning, improves installation efficiency, and reduces connector contact problems caused by positional deviations.
[0034] The first fixing component includes a rotating rod 11, a pressing member and a snap fastener disposed on the rotating rod 11, and a snap fastener seat 13 located on one side of the snap fastener. The second fixing component includes a connecting seat and a pressing seat 17 adapted to the pressing member. When the rotating rod 11 is rotated, the pressing member presses against the pressing seat 17, and the snap fastener snaps onto the snap fastener seat 13.
[0035] In the above scheme, the rotating rod 11 can rotate around the connecting seat. When rotating, the pressing member laterally presses the pressing seat 17, and at the same time, the fastening member engages with the fastening shaft 14 of the fastening seat 13. The pressing force of the pressing member and the fastening force of the fastening member together form a lock, pressing the operating platform 2 tightly onto the housing shell 3. When the rotating rod 11 is rotated in the opposite direction, the pressing member separates from the pressing seat 17, the fastening member resets and disengages from the fastening shaft 14, and the lock is released.
[0036] The pressing component includes a pressing block 12 protruding from the rotating rod 11, and a pressing groove 18 corresponding to the pressing block 12 on the pressing seat 17. The pressing groove 18 is adapted to the pressing block 12. The pressing block 12 is a columnar or block-shaped protrusion, and the pressing groove 18 is a corresponding groove structure. When the rotating rod 11 drives the pressing block 12 to insert into the pressing groove 18, the depth of the pressing groove 18 limits the downward stroke of the pressing block 12, ensuring that the snap-fit components complete the snap-fit synchronously.
[0037] The latching seat 13 is provided with a latching shaft 14, and the latching component includes an arc-shaped latching block 15 adapted to the latching shaft 14. The arc-shaped latching block 15 is made of elastic plastic. The latching shaft 14 is cylindrical, and the arc-shaped latching block 15 is an elastic structure (such as plastic material) with an inner arc groove. When the rotating rod 11 moves the arc-shaped latching block 15 close to the latching shaft 14, the arc-shaped latching block 15 is squeezed and undergoes elastic deformation, and returns to its original position after passing the latching shaft 14. The latching shaft 14 is then embedded in the arc-shaped groove to form a lock. During disassembly, external force rotates the rotating rod 11 to deform the arc-shaped latching block 15 again, disengaging it from the latching shaft 14.
[0038] like Figures 7-8 The diagram shows the operating platform located on the side of the chassis. The card slots are not limited to the horizontal slots shown; to adapt to different usage requirements, they can be configured as vertical slots. Furthermore, the card slots are not limited to the side of the chassis; they can also be located on the top, allowing the cards to be inserted from top to bottom. Therefore, the card slots can be positioned in various ways, allowing for multi-directional and combined configurations.
[0039] Obviously, the described embodiments are only a part of the embodiments of this utility model, and not all of them. All other embodiments obtained by those skilled in the art and related fields based on the embodiments of this utility model without creative effort should fall within the protection scope of this utility model. Structures, devices, and operating methods not specifically described and explained in this utility model, unless otherwise specified or limited, shall be implemented according to conventional means in the art.
Claims
1. An integrated chassis, characterized by: The system includes a chassis body and an operating platform detachably mounted on the chassis body. The chassis body includes a chassis shell, board slots disposed within the chassis shell, a backplate structure, a heat dissipation module, and a power supply module. Several board slots are provided. The operating platform is connected to the back panel module and the power module. A fixing component and a limiting component are provided between the operating platform and the housing shell. The fixing component includes a fixing part one provided on the housing shell and a fixing part two provided at the bottom of the operating platform that cooperates with the fixing part one. The fixing part one can be rotated to connect with or separate from the fixing part two.
2. The integrated chassis of claim 1, wherein: The limiting component includes a limiting strip disposed on the outer shell of the housing, and a limiting groove is provided at the bottom of the operating platform. When the operating platform is placed on the outer shell of the housing, the limiting guide strip is located in the limiting groove.
3. The integrated chassis of claim 1, wherein: The fixing component includes a rotating rod, a pressing member and a fastening member disposed on the rotating rod, and a fastening seat located on one side of the fastening member; The second fixing member includes a connecting seat and a pressing seat adapted to the pressing member. When the rotating rod is rotated, the pressing member presses against the pressing seat, and the snap-fit member snaps onto the snap-fit seat.
4. The integrated chassis of claim 3, wherein: The pressing member includes a pressing block protruding from the rotating rod, and a pressing groove is provided on the pressing seat corresponding to the pressing block, the pressing groove being adapted to the pressing block.
5. The integrated chassis of claim 3, wherein: The buckle seat is provided with a snap-fit shaft, and the snap-fit component includes an arc-shaped snap-fit block that is adapted to the snap-fit shaft.
6. The integrated chassis of claim 5, wherein: The arc-shaped card block is made of elastic plastic.
7. The integrated chassis of claim 1, wherein: The operating platform includes a touch-screen operating platform and a keyboard operating platform.
8. The integrated chassis of claim 7, wherein: The keyboard-type operating platform has a latch on its display screen.