A main board mounting structure for an electronic device
The snap-fit structure of the fixing plate and the loading plate solves the problems of inconvenient motherboard disassembly and loose or corroded screws in the existing technology, enabling quick disassembly and assembly of the motherboard and stable installation, thus improving ease of use and stability.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN ZHUO CHUANG INTELLIGENT TECH CO LTD
- Filing Date
- 2025-06-26
- Publication Date
- 2026-06-23
AI Technical Summary
Existing electronic device motherboards are fixed with screws, which are inconvenient to disassemble and the screws are prone to loosening and corrosion, leading to damage to the motherboard.
It adopts a fixed plate, loading plate and buckle structure, and realizes quick disassembly and stable installation of motherboard through the cooperation of slider and spring.
It enables quick disassembly and assembly of the motherboard and stable fixation, avoiding damage caused by loose or rusted screws, and improving ease of use and stability.
Smart Images

Figure CN224399804U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of electronic equipment technology, specifically to a motherboard mounting structure for electronic equipment. Background Technology
[0002] Electronic equipment refers to equipment composed of electronic components such as integrated circuits, transistors, and vacuum tubes, which uses electronic technology (including) software to function, including electronic computers and robots, numerical control or programmable control systems controlled by electronic computers;
[0003] Electronic devices mainly include computers, air conditioners, refrigerators, washing machines, microwave ovens, printers, fax machines, all-in-one machines, etc. During the use of electronic devices, the internal motherboard is one of the core components. The motherboard mainly plays the role of hardware connection and data transmission, but the existing electronic device motherboards have certain inconveniences in use.
[0004] First, most existing electronic device motherboards are fixed with screws during use. When the motherboard malfunctions, it is inconvenient to disassemble multiple sets of screws. Furthermore, the screws may experience stress fatigue after long-term use, making them prone to loosening. In addition, the screws have poor rust resistance, and corrosion can easily damage the motherboard.
[0005] Therefore, we propose a motherboard mounting structure for electronic devices. Utility Model Content
[0006] The main objective of this invention is to provide a motherboard mounting structure for electronic devices, which can effectively solve the problems in the background art.
[0007] To achieve the above objectives, the technical solution adopted by this utility model is as follows: a motherboard mounting structure for electronic devices, comprising a fixing plate, a loading plate, and a motherboard body. A positioning frame is provided on the upper outer surface of the fixing plate, a buckle is provided at the rear end of the loading plate, a sliding groove is provided in the middle of the fixing plate, a vertical spring is provided on the inner surface of one end of the positioning frame, a through groove is provided in the middle of the loading plate, a slider is provided on the lower outer surface of the loading plate, a transverse spring is provided on one side of the buckle, a pressing rod is fixedly connected to the other side of the buckle, a connecting rod is provided on the outer surface of the front end of the buckle, a handle is provided on the outer surface of the front end of the connecting rod, and a push plate is provided on the outer surface of one end of the vertical spring.
[0008] Preferably, the fixing plate is welded to the positioning frame, and the fixing plate and the slide groove are integrally formed.
[0009] Preferably, the push plate is movably connected to the positioning frame via vertical springs, and the vertical springs are all fixedly connected to the positioning frame and the push plate.
[0010] Preferably, the connecting rod and the handle are integrally formed, and the connecting rod passes through the through groove.
[0011] Preferably, the loading plate and the slider are integrally formed, and the slider is embedded in the middle of the groove.
[0012] Preferably, the buckle is welded to the transverse spring, and the buckle is symmetrically distributed. Beneficial effects
[0013] Compared with the prior art, the present invention has the following beneficial effects:
[0014] The mounting plate can be used to fix the motherboard body in place. The mounting plate can be smoothly pushed along the slide groove by the slider at the bottom. While pushing, the buckle can be extended or retracted by the connecting rod to fix the buckle to the positioning frame. It is convenient to quickly assemble and disassemble the mounting plate and the motherboard body during use, and it has high stability during use. The mounting plate can protect the motherboard body and prevent it from being damaged during use. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0016] Figure 2 This is a structural diagram of the fixing plate 1 of this utility model;
[0017] Figure 3 This is a bottom structural diagram of the loading plate 2 of this utility model;
[0018] Figure 4 This is a structural diagram of the buckle 4 of this utility model.
[0019] In the diagram: 1. Fixing plate; 2. Loading plate; 3. Main board body; 4. Buckle; 5. Slide groove; 6. Positioning frame; 7. Vertical spring; 8. Through groove; 9. Slider; 10. Horizontal spring; 11. Extrusion rod; 12. Connecting rod; 13. Handle; 14. Push plate. Detailed Implementation
[0020] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.
[0021] like Figure 1-4As shown, a motherboard mounting structure for an electronic device includes a fixing plate 1, a loading plate 2, and a motherboard body 3. A positioning frame 6 is provided on the upper outer surface of the fixing plate 1. A buckle 4 is provided at the rear end of the loading plate 2. A sliding groove 5 is provided in the middle of the fixing plate 1. A vertical spring 7 is provided on the inner surface of one end of the positioning frame 6. A through groove 8 is provided in the middle of the loading plate 2. A slider 9 is provided on the lower outer surface of the loading plate 2. A transverse spring 10 is provided on one side of the buckle 4, and a pressing rod 11 is fixedly connected to the other side of the buckle 4. A connecting rod 12 is provided on the outer surface of the front end of the buckle 4, and a handle 13 is provided on the outer surface of the front end of the connecting rod 12. A push plate 14 is provided on the outer surface of one end of the vertical spring 7. During use, the motherboard body 3 is snapped into the loading plate 2, and the fixing plate 1 is fixedly mounted on the electronic device. The loading plate 2 can be inserted into the sliding groove 5 via the bottom slider 9, allowing the slider 9 to move along the sliding groove 5, thus facilitating the smooth pushing of the loading plate 2 on the fixing plate 1. When moving, the handle 13 can be squeezed, causing the handle 13 to move the connecting rod 12 inward. At this time, the two latches 4 move closer to each other under the action of the connecting rod 12. During the process of the latches 4 moving closer, the horizontal spring 10 will be compressed. When the loading plate 2 moves the latches 4 into the positioning frame 6, the front end of the latches 4 will press against the push plate 14, causing the push plate 14 to move backward and compress the vertical spring 7. When the latches 4 are fully inserted into the positioning frame 6, the handle 13 can be released. At this time, the horizontal spring 10 will rebound and expand outward. The clip 4 is engaged, and then the vertical spring 7 rebounds to push the push plate 14 back to its original position, so that the push plate 14 pushes the clip 4 to lock onto the inner wall of the positioning frame 6, thereby completing the fixation of the loading plate 2 and the installation and positioning of the main board body 3. When it is necessary to disassemble the main board body 3, simply squeeze the handle 13 inward, so that the handle 13 drives the two clips 4 to move closer to each other through the connecting rod 12. At this time, the clips 4 can be disassembled from the positioning frame 6, thereby completing the disassembly of the loading plate 2 and the main board body 3, which is more convenient to use.
[0022] Furthermore, the fixing plate 1 is welded to the positioning frame 6, and the fixing plate 1 and the slide 5 are integrally formed. The positioning frame 6 is mainly used to position and fix the buckle 4 during use.
[0023] Furthermore, the push plate 14 is movably connected to the positioning frame 6 via vertical springs 7. The vertical springs 7 are fixedly connected to both the positioning frame 6 and the push plate 14. When in use, the vertical springs 7 can limit the push plate 14, allowing the push plate 14 to push and squeeze the buckle 4.
[0024] Furthermore, the connecting rod 12 and the handle 13 are integrally formed, with the connecting rod 12 passing through the through groove 8, and the handle 13 facilitating the squeezing and moving of the connecting rod 12 during use.
[0025] Furthermore, the loading plate 2 and the slider 9 are integrally formed. The slider 9 is embedded in the middle of the groove 5. The groove 5 is mainly for connecting the slider 9 during use, so that the slider 9 can drive the loading plate 2 to move smoothly.
[0026] Furthermore, the buckle 4 is welded to the transverse spring 10. The buckle 4 is symmetrically distributed. The transverse spring 10 is mainly used to limit the buckle 4, so that the buckle 4 can fix the loading plate 2.
[0027] Working principle
[0028] It should be noted that this utility model is a motherboard mounting structure for electronic devices. During use, the motherboard body 3 is snapped into the loading plate 2, and the fixing plate 1 is fixedly mounted on the electronic device. The loading plate 2 can be inserted into the slide groove 5 via the bottom slider 9, allowing the slider 9 to move along the slide groove 5, thus facilitating the smooth pushing of the loading plate 2 on the fixing plate 1. When the loading plate 2 is pushed, the handle 13 can be squeezed, causing the handle 13 to drive the connecting rod 12 inward. At this time, the two latches 4 move closer to each other under the action of the connecting rod 12. During the process of the latches 4 moving closer, the transverse spring 10 is compressed. When the loading plate 2 pushes the latches 4 into the positioning frame 6, the front of the latches 4... The end will press against the push plate 14, causing the push plate 14 to move backward and compress the vertical spring 7. When the buckle 4 is fully inserted into the positioning frame 6, the handle 13 can be loosened. At this time, the horizontal spring 10 rebounds and expands the buckle 4. Then the vertical spring 7 rebounds and pushes the push plate 14 to reset, so that the push plate 14 pushes the buckle 4 to lock onto the inner wall of the positioning frame 6, thereby completing the fixation of the loading plate 2 and the installation and positioning of the main board body 3. When it is necessary to disassemble the main board body 3, simply squeeze the handle 13 inward, so that the handle 13 drives the two buckles 4 to move closer to each other through the connecting rod 12. At this time, the buckles 4 can be released from the positioning frame 6, thereby completing the disassembly of the loading plate 2 and the main board body 3. It is convenient and practical to use.
[0029] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely preferred examples and are not intended to limit the utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.
Claims
1. A motherboard mounting structure for an electronic device, characterized in that, The device includes a fixed plate (1), a loading plate (2), and a main body (3). The upper outer surface of the fixed plate (1) is provided with a positioning frame (6), the rear end of the loading plate (2) is provided with a buckle (4), the middle part of the fixed plate (1) is provided with a sliding groove (5), one end of the inner surface of the positioning frame (6) is provided with a vertical spring (7), the middle part of the loading plate (2) is provided with a through groove (8), the lower outer surface of the loading plate (2) is provided with a slider (9), one side of the buckle (4) is provided with a transverse spring (10), the other side of the buckle (4) is fixedly connected with a pressing rod (11), the front outer surface of the buckle (4) is provided with a connecting rod (12), the front outer surface of the connecting rod (12) is provided with a handle (13), and one end of the vertical spring (7) is provided with a push plate (14).
2. The motherboard mounting structure for an electronic device according to claim 1, characterized in that: The fixing plate (1) is welded to the positioning frame (6), and the fixing plate (1) and the slide (5) are integrally formed.
3. The motherboard mounting structure for an electronic device according to claim 1, characterized in that: The push plate (14) is movably connected to the positioning frame (6) via vertical springs (7), and the vertical springs (7) are fixedly connected to the positioning frame (6) and the push plate (14).
4. The motherboard mounting structure for an electronic device according to claim 1, characterized in that: The connecting rod (12) and the handle (13) are integrally formed, and the connecting rod (12) passes through the through groove (8).
5. The motherboard mounting structure for an electronic device according to claim 1, characterized in that: The loading plate (2) and the slider (9) are integrally formed, and the slider (9) is embedded in the middle of the groove (5).
6. The motherboard mounting structure for an electronic device according to claim 1, characterized in that: The buckle (4) is welded to the transverse spring (10), and the buckle (4) is symmetrically distributed.