5G communication mainboard with wiring protection function
By designing a limit connection tray and a drive adjustment device on the 5G communication motherboard, multi-point limit fixation of the wire harness is achieved, which solves the problem of damage to the motherboard caused by external force stretching of the wire harness and improves the operational stability of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- SHENZHEN JINTAIYI ELECTRONIC CO LTD
- Filing Date
- 2022-09-07
- Publication Date
- 2026-06-19
AI Technical Summary
Existing 5G communication motherboards cannot effectively protect the connecting wires. External stretching can damage components and the motherboard, affecting the stability of equipment operation.
A 5G communication motherboard was designed, comprising a motherboard rack assembly, a limiting connection tray, a wire harness protection device, and a drive adjustment device. Through the cooperation of the limiting connection tray and the drive adjustment device, the wire harness can be fixed and stored at multiple points, reducing the tensile force on the connection between the motherboard and the wire harness.
It improves the stability of motherboard operation, reduces the impact of external forces on connecting wire harnesses, and enhances the overall stability of the device.
Smart Images

Figure CN116193702B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the 5G communication motherboard industry, specifically a 5G communication motherboard with wiring protection function. Background Technology
[0002] The deep integration of the new generation of information and communication technologies, represented by 5G, with various fields has provided new ways to realize the digital, networked, and intelligent development of industries in various fields. The performance goals of 5G are high data rate, reduced latency, energy saving, cost reduction, increased system capacity and large-scale device connection. With the development of mobile Internet, more and more devices are connected to mobile networks, and new services and applications are emerging one after another.
[0003] The 5G communication motherboard inside a 5G communication device determines the device's operating performance. Numerous components and their connecting harnesses are electrically installed on the outside of the communication motherboard. However, currently, the connecting harnesses and the communication motherboard can only be connected and fixed through connecting components. When the connecting harnesses protruding outside the motherboard are stretched by external forces, they will damage the components and the motherboard. Furthermore, this will affect the overall stability of the communication device's operation. Existing 5G communication motherboards cannot achieve active protection for the connecting harnesses. Therefore, to solve this problem, it is urgent to develop a 5G communication motherboard with wiring protection function. Summary of the Invention
[0004] The purpose of this invention is to provide a 5G communication motherboard with wiring protection function to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, the present invention provides the following technical solution:
[0006] A 5G communication motherboard with wiring protection function includes:
[0007] Motherboard;
[0008] A motherboard rack assembly, which is connected to the motherboard and is used for accommodating and limiting the motherboard;
[0009] At least four limiting connection trays are provided, which are connected to the motherboard rack assembly and are used for limiting and fixing the motherboard rack assembly.
[0010] A wire harness protection device, wherein the wire harness protection device is connected to a limiting connection tray frame;
[0011] A drive adjustment device, which is connected to the motherboard rack assembly, is used to limit the rotation adjustment drive of the connecting plate rack;
[0012] The wire harness protection device includes:
[0013] A wire harness connector assembly is internally connected to the motherboard rack assembly and is used to connect and limit the wire harness connection.
[0014] A stabilizing and limiting component is connected to the motherboard rack assembly and is used to cooperate with the limiting connection tray to complete the positioning and pressing of the wire harness connection frame assembly.
[0015] Compared with the prior art, the beneficial effects of the present invention are as follows: The device is reasonably designed and can achieve multi-point limiting and fixing of the rack compartment and its internal main board through the cooperation of the drive adjustment device and the limiting connection plate. At the same time, the wire harness connection frame assembly inside cooperates with the stabilizing limiting assembly to store and limit the main board connection wire harness, reduce the tension on the connection between the main board and the connection wire harness when stretched by external force, realize wiring protection, and further improve the operating stability of the main board. It has high practicality and market prospects. Attached Figure Description
[0016] Figure 1 This is a top-view internal structure diagram of a 5G communication motherboard with wiring protection function according to an embodiment of the present invention.
[0017] Figure 2 This is a top view of the external structure of a 5G communication motherboard with wiring protection function in an embodiment of the present invention.
[0018] Figure 3 This is a schematic diagram of the bottom structure of a 5G communication motherboard with wiring protection function in an embodiment of the present invention.
[0019] Figure 4 This is a schematic diagram of the internal structure of a rack compartment in a 5G communication motherboard with wiring protection function according to an embodiment of the present invention.
[0020] Figure 5 This is a schematic diagram of the cable tray structure in a 5G communication motherboard with wiring protection function according to an embodiment of the present invention.
[0021] In the diagram: 1-Main board, 2-Limiting connection tray frame, 3-Main board tray assembly, 4-Wire harness protection device, 5-Stabilizing limit assembly, 6-Wire harness connection frame assembly, 7-Drive adjustment device, 201-Spindle tray frame, 202-Half rack tray frame, 203-Limiting groove, 204-Transmission frame, 301-Panel, 302-First slide groove, 303-Elastic element, 304-Limiting groove frame, 305-Network frame, 306-Limiting through hole, 501-Positioning frame, 502-Connecting frame, 601-Fixing frame, 602-Wire harness frame, 603-Connecting groove, 701-Driver, 702-Arc frame, 703-Second slide groove, 704-Second elastic element, 705-Base frame, 706-Rack frame. Detailed Implementation
[0022] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0023] A 5G communication motherboard with wiring protection function, in one embodiment of the present invention, such as... Figures 1 to 3 As shown, it includes: a motherboard 1; a motherboard rack assembly 3, which is connected to the motherboard 1 and is used for accommodating and limiting the motherboard 1; at least four limiting connection trays 2, which are connected to the motherboard rack assembly 3 and are used for limiting and fixing the motherboard rack assembly 3; a wire harness protection device 4, which is connected to the limiting connection trays 2; and a drive adjustment device 7, which is connected to the motherboard rack assembly 3 and is used for driving the rotation adjustment of the limiting connection trays 2. The wire harness protection device 4 includes: a wire harness connection frame assembly 6, which is internally connected to the motherboard rack assembly 3 and is used for connecting and limiting the wire harness; and a stabilizing limiting component 5, which is connected to the motherboard rack assembly 3 and is used to cooperate with the limiting connection trays 2 to complete the positioning and pressing of the wire harness connection frame assembly 6.
[0024] In one embodiment of the present invention:
[0025] like Figures 1 to 4 As shown, the motherboard rack assembly 3 includes: a rack 301 connected to the motherboard 1; at least two sets of first sliding grooves 302 disposed inside the rack 301; a first elastic member 303 fixedly connected to the inside of the first sliding grooves 302; the first elastic member 303 is a spring; at least two limiting slots 304 fixedly connected to the inside of the rack 301; a mesh frame 305 disposed inside the top side of the rack 301; and a plurality of limiting through holes 306 disposed inside the mesh frame 305.
[0026] The rack compartment 301 is semi-enclosed. The outer side of the internal limiting slot 304 of the rack compartment 301 is provided with protrusions. The motherboard 1 is inserted into the rack compartment 301. The outer side of the motherboard 1 is limited by the protrusions on both sides. The mesh frame 305 on the top side of the rack compartment 301 can realize the heat dissipation and connection of the motherboard 1. The wire harness connecting frame assembly 6 can limit the connection wire harness of the motherboard 1. The limited wire harness can be discharged through several limiting through holes 306 inside the mesh frame 305 and connected to external equipment (not shown in the figure).
[0027] In one embodiment of the present invention:
[0028] like Figures 1 to 3 As shown, the limiting connection plate frame 2 includes: a rotating shaft plate frame 201, which abuts against the bottom side of the frame compartment 301; a limiting groove 203, which is disposed inside the rotating shaft plate frame 201; and a semi-rack plate frame 202, which is fitted and fixedly connected to the rotating shaft plate frame 201.
[0029] The rotating shaft frame 201 is rotatably connected to the inside of the equipment. When the main board 1 is placed inside the rack compartment 301 and the wiring is completed, the drive adjustment device 7 is operated. In conjunction with the half rack frame 202, the rotating shaft frame 201 is driven to rotate in opposite directions. Through the inner wall of the limiting groove 203, the four corners of the rack compartment 301 are positioned, thereby improving the stability of the rack compartment 301 and its internal main board 1.
[0030] In one embodiment of the present invention:
[0031] like Figures 1 to 3 As shown, the limiting connection plate 2 further includes a transmission frame 204, which is fixedly connected to the top side of the rotating shaft plate 201;
[0032] When the rotating shaft plate 201 rotates in opposite directions, the transmission frame 204, which is fixedly connected to the top side of the rotating shaft plate 201, rotates synchronously, thereby driving the transmission frame 204, which is fixedly connected to the top side of the rotating shaft plate 201, to rotate synchronously in opposite directions, thereby driving the two side stabilizing limit components 5 to move.
[0033] In one embodiment of the present invention:
[0034] like Figures 1 to 3 As shown, the stabilizing and limiting component 5 includes: a positioning frame 501, which is slidably limited and connected to the limiting groove frame 304 through the frame compartment 301 and abuts against the transmission frame 204; at least two connecting frames 502, which are fixedly connected to the positioning frame 501 and are connected to the elastic member 303 through the first sliding groove 302.
[0035] After the wire harness is limited by the wire harness connecting frame assembly 6, the positions of several wire harness connecting frame assemblies 6 are determined. The transmission frame 204 rotating in opposite directions on both sides drives the positioning frames 501 on both sides to slide in opposite directions along the inner groove of the limiting groove frame 304, and abut against the outer side of several wire harness connecting frame assemblies 6, thereby limiting and fixing several wire harness connecting frame assemblies 6. While the positioning frames 501 on both sides slide, the connecting frame 502 moves in a limited position inside the first sliding groove 302.
[0036] In one embodiment of the present invention:
[0037] like Figure 3As shown, the drive adjustment device 7 includes: a drive component 701 connected to the rack 301; the drive component 701 is an electric roller; an arc frame 702 fitted to the drive component 701; at least two sets of second slide grooves 703 located on the inner side of the bottom of the rack 301; a second elastic element 704 fixedly connected to the inside of the second slide groove 703; the second elastic element 704 is a spring; a base frame 705 passing through the second slide groove 703 and connected to the second elastic element 704; and a rack frame 706 fixedly connected to the base frame 705, meshing with the two side half-rack frames 202, and abutting against the arc frame 702.
[0038] During adjustment, the drive component 701 drives the arc frame 702 to rotate axially. The arc frame 702 is elliptical in shape. The axially rotating arc frame 702 can drive the rack frames 706 on both sides to move in opposite directions. The base frame 705 moves within the second slide grooves 703 on both sides. The moving rack frame 706 drives the half rack disc frame 202 that meshes with it to rotate.
[0039] In this application, the driving component 701 is not limited to an electric roller shaft. It can also be a linear motor, an electric cylinder, or a drive, as long as it can achieve the rotation adjustment drive of the arc frame 702. No specific limitation is made here.
[0040] In one embodiment of the present invention:
[0041] like Figure 1 and Figure 5 As shown, the wire harness connection frame assembly 6 includes: a fixed frame 601, which is fixedly connected to the inside of the frame compartment 301; a plurality of wire harness frames 602, which are slidably connected to the fixed frame 601; and a plurality of connecting slots 603, which are disposed inside the wire harness frames 602.
[0042] According to the position of the connecting wire harness, slide the wire harness bracket 602 along the fixing bracket 601, adjust the position of the wire harness bracket 602, and connect two connecting slots 603 together. Then, place the end of each connecting wire harness away from the motherboard 1 through the two connecting slots 603 in an S-shape, and thread the wires as follows. Figure 4 As shown, the corresponding limiting through hole 306 then passes through and connects to an external device (not shown in the figure); if the connecting wire harness passing through the rack compartment 301 is stretched, it can be limited by the wire harness bracket 602, so that the force at the connection between the connecting wire harness and the motherboard 1 is reduced.
[0043] The working principle of this invention is as follows: The rack 301 is semi-enclosed. A protrusion is provided on the outer side of the internal limiting slot 304 of the rack 301. The mainboard 1 is inserted into the rack 301, and the outer side of the mainboard 1 is limited by the protrusions on both sides. The top mesh frame 305 of the rack 301 allows for the discharge and connection of heat from the mainboard 1. The wire harness connecting frame assembly 6 can limit the connection of the wire harness to the mainboard 1. The limited wire harness can be discharged through several limiting through holes 306 inside the mesh frame 305 and connected to external equipment (not shown in the figure). The rotating disc frame 201 is rotatably connected to the inside of the equipment. The mainboard 1 is placed inside the rack compartment 301. After the wiring is completed, the drive adjustment device 7 is operated. In conjunction with the half rack and pinion plate 202, it drives the rotating shaft plate 201 to rotate in opposite directions. Through the inner wall of the limiting groove 203, the four corners of the rack compartment 301 are positioned, which improves the stability of the rack compartment 301 and the mainboard 1 inside. When the rotating shaft plate 201 rotates in opposite directions, the transmission frame 204, which is fixedly connected to the top side of the rotating shaft plate 201, rotates synchronously. This drives the transmission frame 204, which is fixedly connected to the top side of the rotating shaft plate 201, to rotate synchronously in opposite directions, thereby driving the two side stabilizing limiting components 5 to move.
[0044] After the wire harness is limited by the wire harness connecting frame assembly 6, the positions of several wire harness connecting frame assemblies 6 are determined. The transmission frame 204 rotating in opposite directions on both sides drives the positioning frame 501 on both sides to slide in opposite directions along the inner groove of the limiting groove frame 304, and abut against the outer side of several wire harness connecting frame assemblies 6, thereby limiting and fixing several wire harness connecting frame assemblies 6. While the positioning frame 501 on both sides slides, the connecting frame 502 moves in a limited position inside the first slide groove 302. When adjusting, the driving component 701 drives the arc frame 702 to rotate axially. The arc frame 702 is elliptical in shape. The axially rotating arc frame 702 can drive the rack frame 706 on both sides to move in opposite directions. The base frame 705 moves in a limited position inside the second slide groove 703 on both sides. The moving rack frame 706 thereby drives the rack frame 706 to move in opposite directions. The meshing semi-rack and pinion frame 202 rotates. The driving component 701 is not limited to an electric roller shaft; it can also be a linear motor, electric cylinder, or drive, as long as it can achieve the rotational adjustment drive of the arc frame 702. No specific limitation is made here. According to the position of the connecting wire harness, the wire harness frame 602 slides along the fixed frame 601 to adjust the position of the wire harness frame 602. The two connecting slots 603 are grouped together. Then, the end of each connecting wire harness away from the main board 1 is inserted into the two connecting slots 603 in an S-shape, and then through the corresponding limiting through hole 306 to connect with the external equipment (not shown in the figure). If the connecting wire harness that passes through the frame compartment 301 is stretched, it can be limited by the wire harness frame 602 to reduce the force at the connection between the connecting wire harness and the main board 1.
[0045] In summary, this device can achieve multi-point limiting and fixing of the rack compartment 301 and its internal main board 1 by cooperating with the drive adjustment device 7 and the limiting connection tray 2. At the same time, the internal wire harness connection frame assembly 6 cooperates with the stabilizing limiting assembly 5 to store and limit the main board connection wire harness, reduce the tension on the connection between the main board 1 and the connection wire harness when stretched by external force, realize wiring protection, and further improve the operational stability of the main board.
[0046] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.
Claims
1. A 5G communication motherboard with wiring protection function, characterized in that, include: Motherboard; A motherboard rack assembly, which is connected to the motherboard and is used for accommodating and limiting the motherboard; At least four limiting connection trays are provided, which are connected to the motherboard rack assembly and are used for limiting and fixing the motherboard rack assembly. A wire harness protection device, wherein the wire harness protection device is connected to a limiting connection tray frame; A drive adjustment device, which is connected to the motherboard rack assembly, is used to limit the rotation adjustment drive of the connecting plate rack; The wire harness protection device includes: A wire harness connector assembly is internally connected to the motherboard rack assembly and is used to connect and limit the wire harness connection. A stabilizing and limiting component is connected to the motherboard rack assembly and is used to cooperate with the limiting connection tray to complete the positioning and pressing of the wire harness connection frame assembly; The motherboard rack assembly includes: The rack is connected to the motherboard; At least two sets of first chutes, which are located inside the rack; The first elastic element is fixedly connected to the inside of the first groove; At least two limiting slots are fixedly connected to the inside of the shelving unit; a wire frame is disposed inside the top side of the shelving unit. Several limiting through holes are set inside the space frame; The wire harness connector assembly includes: The fixed frame is fixedly connected to the interior of the shelf compartment; Several cable bundles, wherein the cable bundles are slidably connected to the fixing frame; Several sets of connecting slots are arranged inside the cable tie frame.
2. The 5G communication motherboard with wiring protection function according to claim 1, characterized in that, The limiting connection plate frame includes: A rotating disc frame, which abuts against the bottom side of the shelf compartment; A limiting groove is provided inside the rotating shaft disc frame; A semi-rack disc frame, wherein the semi-rack disc frame is fixedly connected to the rotating shaft disc frame.
3. The 5G communication motherboard with wiring protection function according to claim 2, characterized in that, The limiting connection plate frame also includes: A transmission frame is fixedly connected to the top side of the rotating shaft disc frame.
4. The 5G communication motherboard with wiring protection function according to claim 3, characterized in that, The stabilizing limiting component includes: The positioning frame is slidably limited to the frame compartment and the limiting slot frame, and abuts against the transmission frame; At least two connecting frames are fixedly connected to the positioning frame and pass through the first sliding groove and are connected to the elastic element.
5. The 5G communication motherboard with wiring protection function according to claim 2, characterized in that, The drive adjustment device includes: A drive unit, which is connected to the rack; An arc-shaped frame, which is connected to the drive assembly; At least two sets of second slides are provided on the inner side of the bottom of the shelf; The second elastic element is fixedly connected to the inside of the second groove. The base frame is connected to the second elastic element through the second sliding groove. The rack frame is fixedly connected to the base frame, meshes with the two side half-rack frames, and abuts against the arc-shaped frame.