Gateway device with heat dissipation function
By creating heat dissipation slots on both sides and the bottom of the gateway device, and equipping it with cooling fans and a brush layer, the problem of poor heat dissipation of the gateway device is solved, achieving efficient ventilation, heat dissipation, and dust cleaning, ensuring the safety and stability of the device.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- ANHUI HEXIN TECH DEV
- Filing Date
- 2022-12-20
- Publication Date
- 2026-06-23
AI Technical Summary
The existing gateway devices have a large-area enclosed structure, which results in poor heat dissipation and affects the lifespan and safety of the internal electrical components.
Side and bottom heat dissipation slots are provided on both sides and the bottom of the gateway device body, and it is equipped with a cooling fan, protective components, a transmission belt and a brush layer. The fan drives the transmission belt to move the brush layer to clean the dust, ensuring good ventilation and heat dissipation.
It effectively improves the heat dissipation of gateway devices under high load, avoids overheating of electrical components, ensures equipment safety, and maintains the ventilation effect of the protective mesh, making it easy to clean dust and impurities.
Smart Images

Figure CN115866434B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of gateway device technology, and more particularly to a gateway device with heat dissipation function. Background Technology
[0002] According to patent document CN217883672U, a gateway device includes: a housing body, an adjustment button and a display screen at the front end of the housing body (the display screen is located to the left of the adjustment button), multiple wiring holes at the rear end of the housing body, and a switch at the edge of the rear end of the housing body. The housing body has an internal cavity. This invention allows the housing body to be stably placed on a placement platform, improving its stability and preventing it from falling off the platform due to shaking. It also prevents damage to the housing body and the circuit board inside the cavity, thus ensuring the safety of the housing body and the circuit board. Furthermore, the connecting rod can drive a piston to compress the air drawn into the air storage tube, allowing the air to enter the suction cup through the connecting rod, further separating the suction cup from the placement platform and facilitating the user to move the housing body.
[0003] This gateway device has certain defects during use. For example, the outer shell of the gateway device is a large-area enclosed structure. This type of structure has poor heat dissipation. When the gateway device is working under high load, the heat inside cannot be dissipated quickly, which will affect the service life and safety of the electrical components inside the gateway device. Summary of the Invention
[0004] The purpose of this invention is to solve the problems existing in the prior art by proposing a gateway device with heat dissipation function.
[0005] To achieve the above objectives, the present invention adopts the following technical solutions:
[0006] A gateway device with heat dissipation function includes a gateway device body, side heat dissipation slots on both sides of the gateway device body, an inner horizontal plate fixed on the inner wall of each side heat dissipation slot, multiple cooling fans rotatably mounted on the side wall of the inner horizontal plate, protective components on both sides of the gateway device body, and a bottom heat dissipation slot at the bottom of the gateway device body.
[0007] As a further technical solution of the present invention, each of the protective components includes a hexagonal mounting frame fixed on the side wall of the gateway device body, and two side protective nets are fixed on the inner wall of the hexagonal mounting frame.
[0008] As a further technical solution of the present invention, a transmission belt is rotatably provided on the side wall of each of the H-shaped mounting frames, an outer transverse plate is fixed on the side wall of the H-shaped mounting frame, a rubber connecting plate is provided between the transmission belt and the outer transverse plate, and a rotating brush layer is fixed on the side wall of the rubber connecting plate.
[0009] As a further technical solution of the present invention, an L-shaped rubber connecting block is fixed on the upper end face of each rubber connecting plate, and the end of the L-shaped rubber connecting block away from the rubber connecting plate is fixedly connected to the outer side wall of the transmission belt. A rubber slider is fixed on the lower end face of the rubber connecting plate, and an annular groove for use with the rubber slider is opened on the outer side wall of the outer transverse plate.
[0010] As a further technical solution of the present invention, each of the rubber connecting plates has a locking block fixed on its upper and lower end faces, and the lower end face of the L-shaped rubber connecting block and the upper end face of the rubber slider are provided with a locking groove for use with the locking block.
[0011] As a further technical solution of the present invention, a plurality of rotating limit wheels are rotatably provided on the side wall of the H-shaped mounting frame for use with the transmission belt. The rotating shaft of two rotating limit wheels located on the same side rotates through the outer transverse plate and is fixedly connected to the rotating shaft of the corresponding cooling fan.
[0012] As a further technical solution of the present invention, a ventilated storage plate is fixed on the inner wall of the bottom heat dissipation groove, a pull-out groove is opened through the inner wall of the bottom heat dissipation groove, a bottom protective net is movably arranged in the pull-out groove, a fixed brush layer is fixed on the inner wall of the bottom heat dissipation groove, the fixed brush layer is in contact with the surface of the bottom protective net, and a pull block is provided on one side of the bottom protective net.
[0013] The beneficial effects of this invention are:
[0014] 1. When the gateway device starts working under high load, the temperature of the electrical components inside the device is high, requiring enhanced heat dissipation. At this time, the cooling fan starts working to improve ventilation and heat dissipation within the gateway device, preventing the electrical components from overheating and affecting safety. During the rotation of the cooling fan, the drive belt rotates slowly, moving the rubber connecting plate and rotating brush layer. This movement of the brush layer cleans dust and impurities adhering to the outer wall of the side protective net, preventing these impurities from affecting ventilation during normal use.
[0015] 2. During use, some dust and impurities may adhere to the lower surface of the bottom protective net. At this time, the operator can pull the pull block outward to move the bottom protective net outward. During the movement, the fixed brush layer cleans the lower surface of the bottom protective net. After the bottom protective net is completely pulled out, it is convenient to clean the dust adhering to the upper surface of the bottom protective net. It is easy to use. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the overall structure of the present invention;
[0017] Figure 2 This is a schematic diagram of the internal structure of the side heat dissipation groove of the present invention;
[0018] Figure 3 This is a schematic diagram showing the connection between the gateway device body and the H-shaped mounting frame of the present invention;
[0019] Figure 4 This is an exploded view of the L-shaped rubber connecting block, rubber connecting plate, and rubber slider of the present invention.
[0020] Figure 5 This is a schematic diagram of the bottom structure of the gateway device body of the present invention;
[0021] Figure 6 This is a schematic diagram of the internal structure of the bottom heat dissipation groove of the present invention.
[0022] In the diagram: 1. Gateway device body; 2. Side heat dissipation groove; 3. Inner horizontal plate; 4. Cooling fan; 5. Bottom heat dissipation groove; 6. H-shaped mounting frame; 7. Side protective net; 8. Transmission belt; 9. Outer horizontal plate; 10. Rubber connecting plate; 11. Rotating brush layer; 12. L-shaped rubber connecting block; 13. Rubber slider; 14. Locking block; 15. Locking groove; 16. Rotating limit wheel; 17. Ventilation shelf; 18. Bottom protective net; 19. Fixed brush layer; 20. Pull block. Detailed Implementation
[0023] To further illustrate the technical means and effects of the present invention in achieving its intended purpose, the following detailed description of the specific implementation methods, structures, features, and effects of the present invention, in conjunction with the accompanying drawings and preferred embodiments, is provided below.
[0024] Reference Figures 1-6A gateway device with heat dissipation function includes a gateway device body 1. Side heat dissipation slots 2 are provided on both sides of the gateway device body 1. An inner horizontal plate 3 is fixed on the inner wall of each side heat dissipation slot 2. Multiple cooling fans 4 are rotatably arranged on the side wall of the inner horizontal plate 3. The cooling fans 4 are electrically connected to the gateway device body 1. Protective components are provided on both sides of the gateway device body 1. A bottom heat dissipation slot 5 is provided at the bottom of the gateway device body 1.
[0025] The gateway device itself 1 is based on existing technology and supports access to the Internet via WIFI, 5G or 4G, Ethernet ports and other methods. It can connect to multiple networks simultaneously, has strong edge computing capabilities, integrates data collection, processing and execution, real-time analysis, and is secure and efficient. Multiple stability tests have been conducted to ensure that the device can be left unattended for extended periods in harsh environments.
[0026] By opening large-area side heat dissipation slots 2 and bottom heat dissipation slots 5 on the gateway device body 1, the gateway device body 1 has good ventilation and heat dissipation effect, and can ensure good heat dissipation effect even without using cooling fan 4.
[0027] Each protective component includes a U-shaped mounting frame 6 fixed to the side wall of the gateway device body 1. Two side protective nets 7 are fixed on the inner wall of the U-shaped mounting frame 6. The side protective nets 7 prevent impurities and foreign objects from entering the interior of the gateway device body 1 during daily use and affecting the safety of the gateway device body 1.
[0028] Each of the H-shaped mounting frames 6 has a drive belt 8 rotatably mounted on its side wall. An outer transverse plate 9 is fixed on the side wall of the H-shaped mounting frame 6. A rubber connecting plate 10 is provided between the drive belt 8 and the outer transverse plate 9. A rotating brush layer 11 is fixed on the side wall of the rubber connecting plate 10.
[0029] During daily use, some dust and impurities may adhere to the side wall of the side protective net 7 due to static electricity and other factors.
[0030] When the gateway device 1 starts working under high load, the temperature of the electrical components inside the gateway device 1 is high, requiring enhanced heat dissipation. At this time, the cooling fan 4 starts working, thereby enhancing the ventilation and heat dissipation effect inside the gateway device 1, preventing the electrical components inside the gateway device 1 from overheating and affecting safety. In addition, during the rotation of the cooling fan 4, it drives the transmission belt 8 to rotate slowly. During the rotation of the transmission belt 8, the rubber connecting plate 10 and the rotating brush layer 11 move. During the movement of the rotating brush layer 11, it cleans the dust and impurities adhering to the outer wall of the side protective net 7, preventing the presence of dust and impurities from affecting the ventilation effect of the side protective net 7 under normal use.
[0031] Each rubber connecting plate 10 has an L-shaped rubber connecting block 12 fixed on its upper end face. The end of the L-shaped rubber connecting block 12 away from the rubber connecting plate 10 is fixedly connected to the outer side wall of the transmission belt 8. A rubber slider 13 is fixed on the lower end face of the rubber connecting plate 10. An annular groove for use with the rubber slider 13 is provided on the outer side wall of the outer transverse plate 9.
[0032] During the rotation of the transmission belt 8, it will drive the L-shaped rubber connecting block 12 to move together, thereby driving the rubber connecting plate 10 and the rotating brush layer 11 to move. Through the cooperation of the set annular sliding groove with the outer transverse plate 9, the movement of the rubber connecting plate 10 is guided and supported.
[0033] Each rubber connecting plate 10 has a locking block 14 fixed on its upper and lower end faces. The lower end face of the L-shaped rubber connecting block 12 and the upper end face of the rubber slider 13 are provided with a slot 15 for use with the locking block 14. By the cooperation of the locking block 14 and the slot 15, the rubber connecting plate 10 is locked and fixed between the L-shaped rubber connecting block 12 and the rubber slider 13. When the rotating brush layer 11 is worn to a certain extent, the rubber connecting plate 10 and the rotating brush layer 11 can be removed from the corresponding L-shaped rubber connecting block 12 and the rubber slider 13, and a new rubber connecting plate 10 and the rotating brush layer 11 can be replaced. The disassembly and replacement are convenient.
[0034] Multiple rotating limit wheels 16 are rotatably mounted on the side wall of the H-shaped mounting frame 6 to cooperate with the transmission belt 8. A rotating shaft 1 is provided inside the rotating limit wheel 16, and a rotating shaft 2 is provided inside the cooling fan 4. The rotating shaft 1 of the two rotating limit wheels 16 located on the same side rotates through the outer horizontal plate 9 and is fixedly connected to the rotating shaft 2 of the corresponding cooling fan 4.
[0035] When the cooling fan 4 is rotating, it will drive the corresponding rotation limit wheel 16 to rotate, thereby driving the transmission belt 8 to rotate. It is easy to use, and because the rotation limit wheel 16 is small in size, the rotation speed of the transmission belt 8 is low.
[0036] A ventilation plate 17 is fixed on the inner wall of the bottom heat dissipation groove 5. A pull-out groove is opened through the inner wall of the bottom heat dissipation groove 5. A bottom protective net 18 is movably installed in the pull-out groove. A fixed brush layer 19 is fixed on the inner wall of the bottom heat dissipation groove 5. The fixed brush layer 19 is in contact with the surface of the bottom protective net 18. A pull block 20 is on one side of the bottom protective net 18.
[0037] During use, some dust and impurities may adhere to the lower surface of the bottom protective net 18. At this time, the operator can pull the pull block 20 outward to move the bottom protective net 18 outward. During the movement, the fixed brush layer 19 cleans the lower surface of the bottom protective net 18. After the bottom protective net 18 is completely pulled out, it is convenient to clean the dust adhering to the upper surface of the bottom protective net 18. It is easy to use.
[0038] When in use, the present invention provides good ventilation and heat dissipation by opening large-area side heat dissipation slots 2 and bottom heat dissipation slots 5 on the gateway device body 1, and can ensure good heat dissipation even without using the cooling fan 4.
[0039] When the gateway device 1 starts working under high load, the temperature of the electrical components inside the gateway device 1 is high, requiring enhanced heat dissipation. At this time, the cooling fan 4 starts working to enhance the ventilation and heat dissipation effect inside the gateway device 1, preventing the electrical components inside the gateway device 1 from overheating and affecting safety. In addition, during the rotation of the cooling fan 4, the transmission belt 8 will slowly rotate. During the rotation of the transmission belt 8, the rubber connecting plate 10 and the rotating brush layer 11 will move. During the movement of the rotating brush layer 11, the dust and impurities adhering to the outer wall of the side protective net 7 will be cleaned, preventing the presence of dust and impurities from affecting the ventilation effect of the side protective net 7 under normal use.
[0040] During use, some dust and impurities may adhere to the lower surface of the bottom protective net 18. At this time, the operator can pull the pull block 20 outward to move the bottom protective net 18 outward. During the movement, the fixed brush layer 19 cleans the lower surface of the bottom protective net 18. After the bottom protective net 18 is completely pulled out, it is convenient to clean the dust adhering to the upper surface of the bottom protective net 18. It is easy to use.
[0041] The above description is merely a preferred embodiment of the present invention and is not intended to limit the present invention in any way. Although the present invention has been disclosed above with reference to preferred embodiments, it is not intended to limit the present invention. Any person skilled in the art can make some modifications or alterations to the above-disclosed technical content to create equivalent embodiments without departing from the scope of the present invention. Any simple modifications, equivalent changes and alterations made to the above embodiments based on the technical essence of the present invention without departing from the scope of the present invention shall still fall within the scope of the present invention.
Claims
1. A gateway device with heat dissipation function, comprising a gateway device body (1), characterized in that, The gateway device body (1) has side heat dissipation slots (2) on both sides, and an inner horizontal plate (3) is fixed on the inner wall of each side heat dissipation slot (2). Multiple cooling fans (4) are rotatably arranged on the side wall of the inner horizontal plate (3). Protective components are provided on both sides of the gateway device body (1), and a bottom heat dissipation slot (5) is provided at the bottom of the gateway device body (1). Each of the protection components includes a hexagonal mounting frame (6) fixed to the side wall of the gateway device body (1), and two side protection nets (7) are fixed to the inner wall of the hexagonal mounting frame (6). A transmission belt (8) is rotatably provided on the side wall of each of the aforementioned H-shaped mounting frames (6), an outer transverse plate (9) is fixed on the side wall of the H-shaped mounting frame (6), a rubber connecting plate (10) is provided between the transmission belt (8) and the outer transverse plate (9), and a rotating brush layer (11) is fixed on the side wall of the rubber connecting plate (10).
2. A gateway device with heat dissipation function according to claim 1, characterized in that, Each of the rubber connecting plates (10) has an L-shaped rubber connecting block (12) fixed on its upper end face. The end of the L-shaped rubber connecting block (12) away from the rubber connecting plate (10) is fixedly connected to the outer side wall of the transmission belt (8). A rubber slider (13) is fixed on the lower end face of the rubber connecting plate (10). An annular groove for use with the rubber slider (13) is provided on the outer side wall of the outer transverse plate (9).
3. A gateway device with heat dissipation function according to claim 1, characterized in that, Each of the rubber connecting plates (10) has a locking block (14) fixed on its upper and lower end faces. The lower end face of the L-shaped rubber connecting block (12) and the upper end face of the rubber slider (13) are provided with a slot (15) for use with the locking block (14).
4. A gateway device with heat dissipation function according to claim 1, characterized in that, The side wall of the shaped mounting frame (6) is rotatably provided with multiple rotating limit wheels (16) that work with the transmission belt (8). The rotating shaft of two rotating limit wheels (16) located on the same side rotates through the outer transverse plate (9) and is fixedly connected to the rotating shaft of the corresponding cooling fan (4).
5. A gateway device with heat dissipation function according to claim 1, characterized in that, A ventilation plate (17) is fixed on the inner wall of the bottom heat dissipation groove (5). A pull-out groove is opened through the inner wall of the bottom heat dissipation groove (5). A bottom protective net (18) is movably installed in the pull-out groove. A fixed brush layer (19) is fixed on the inner wall of the bottom heat dissipation groove (5). The fixed brush layer (19) is in contact with the surface of the bottom protective net (18). There is a pull block (20) on one side of the bottom protective net (18).