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CN-122001812-A - Router

CN122001812ACN 122001812 ACN122001812 ACN 122001812ACN-122001812-A

Abstract

The invention relates to the technical field of electronic products, and particularly discloses a router which comprises a base, a circuit board, a first shell and a driving assembly, wherein the base is provided with an air inlet and an avoidance opening, the air inlet is formed in the bottom of the base, the circuit board is arranged on the base, a first light-emitting part and an inserting part are arranged on the circuit board, the inserting part is at least partially positioned in the avoidance opening, the first shell is rotationally arranged on the base and covers the periphery of the circuit board and the first light-emitting part, the first shell is provided with ventilation holes, the driving assembly comprises a servo motor, a driving wheel and a gear ring, the servo motor is arranged on the base, the driving wheel is connected with the servo motor, the gear ring is arranged on the first shell, and inner side teeth of the gear ring are meshed with the driving wheel. The visual attraction is improved, and the heat dissipation effect is improved through the arrangement.

Inventors

  • XU SHUWEN
  • SHEN MINGZHE

Assignees

  • 昆山联滔电子有限公司

Dates

Publication Date
20260508
Application Date
20260128

Claims (18)

  1. 1. A router for a network of routers, characterized by comprising the following steps: the base (100) is provided with an air inlet (110) and an avoidance port, and the air inlet (110) is arranged at the bottom of the base (100); The circuit board (200), the circuit board (200) is arranged on the base (100), the circuit board (200) is provided with a first luminous element and a plug connector (210), and the plug connector (210) is at least partially positioned in the avoidance port; The first shell (300) is rotatably arranged on the base (100), and covers the periphery of the circuit board (200) and the first luminous piece, and the first shell (300) is provided with ventilation holes (310); The driving assembly (400), the driving assembly (400) comprises a servo motor (410), a driving wheel (420) and a gear ring (430), wherein the servo motor (410) is arranged on the base (100), the driving wheel (420) is connected with the servo motor (410), the gear ring (430) is arranged on the first shell (300), and inner side teeth of the gear ring (430) are meshed with the driving wheel (420).
  2. 2. The router of claim 1, wherein a first annular protrusion (120) is provided between the base (100) and the first housing (300), and a first annular groove is provided in the other, the first annular protrusion (120) being rotatably provided in the first annular groove, and/or, The base (100) and the first shell (300) are in running fit through a first bearing.
  3. 3. The router of claim 1, wherein the router comprises a first supporting frame (500), the first supporting frame (500) is disposed on the base (100) and is located inside the first housing (300), the circuit board (200) is disposed on the first supporting frame (500), and the first housing (300) is further rotatably disposed on the first supporting frame (500).
  4. 4. A router according to claim 3, wherein one of the top of the first support frame (500) and the first housing (300) is provided with a second annular protrusion (320), the other is provided with a second annular groove, the second annular protrusion (320) being rotatably provided in the second annular groove, and/or, The first supporting frame (500) and the first shell (300) are rotatably matched through a second bearing.
  5. 5. The router of claim 4, wherein the first support frame (500) comprises a square frame (510) and an annular frame (520) is provided on top of the square frame (510), the circuit board (200) is provided on the inner side of the square frame (510), and the second annular groove is provided on top of the annular frame (520).
  6. 6. The router of claim 5, wherein a light exit hole is formed in a top of the first housing (300), a first via hole is formed in a top of the first supporting frame (500), and the second light emitting element (220) on the circuit board (200) is at least partially located in the first via hole.
  7. 7. The router of claim 6, wherein the router comprises a light shield (230), the light shield (230) is disposed inside the annular frame (520), the light shield (230) is of a flaring structure with an upward opening, and the light of the second light emitting element (220) is emitted outwards from the light emitting hole through the light shield (230).
  8. 8. The router of claim 6, wherein the router includes a first light-transmissive cover (240), the first light-transmissive cover (240) being disposed on the first housing (300) and covering the light exit aperture.
  9. 9. The router of any of claims 1-8, wherein the vent (310) has a plurality of, all of the vents (310) are distributed and each of the vents (310) has a non-circular profile.
  10. 10. The router of claim 1, further comprising an impeller (600), wherein the top of the first housing (300) has an air outlet, the impeller (600) is disposed in the first housing (300) and is connected to the first housing (300), and the impeller (600) rotates synchronously with the first housing (300) to drive the air in the first housing (300) to flow out at least through the air outlet.
  11. 11. The router of claim 10, wherein the impeller (600) comprises a support cylinder (610) and a plurality of blades (620), the plurality of blades (620) are wound around the periphery of the support cylinder (610), and an end of the impeller (600) away from the support cylinder (610) is connected with the first housing (300).
  12. 12. The router of claim 11, wherein the router comprises a second support frame (700), the second support frame (700) is disposed on the base (100) and is located inside the first housing (300), the circuit board (200) is disposed on the second support frame (700), and the support cylinder (610) is rotatably disposed on the second support frame (700).
  13. 13. The router according to claim 12, wherein the top of the second supporting frame (700) is provided with at least two arc-shaped grooves (710), all the arc-shaped grooves (710) are concentrically arranged, and the lower end of the supporting cylinder (610) is rotatably arranged in all the arc-shaped grooves (710).
  14. 14. The router of claim 11, wherein the router comprises a second housing (800), the second housing (800) is clamped or screwed to the base (100) and covers the periphery of the first housing (300), at least the peripheral side of the second housing (800) is made of a light-transmitting material, and a mesh hole is formed in the top of the second housing (800).
  15. 15. The router of claim 14, wherein the second housing (800) includes a cylindrical housing (810) and a top cover (820), the cylindrical housing (810) is disposed on the base (100), the top cover (820) is disposed on top of the cylindrical housing (810), the cylindrical housing (810) is made of a light-transmitting material, and the mesh holes are disposed on the top cover (820).
  16. 16. The router of claim 15, wherein the top cover (820) is fixedly arranged on the cylindrical housing (810) and is in rotating fit with the supporting cylinder (610), a third annular groove (821) is formed in the lower side of the top cover (820), and the top end of the supporting cylinder (610) is inserted into and rotatably arranged in the third annular groove (821).
  17. 17. The router of claim 15, wherein the top cover (820) has a light shielding groove (822), the light shielding groove (822) is located at a middle part of the top cover (820), a second via hole which is communicated with the inside of the first housing (300) is formed in a bottom of the light shielding groove (822), the second light emitting element (220) on the circuit board (200) is located at least partially in the second via hole, and light rays are emitted outwards through the light shielding groove (822).
  18. 18. The router of claim 17, wherein the second housing (800) further comprises a second light transmissive cover (830), the second light transmissive cover (830) being disposed on the top cover (820) and covering a notch disposed in the light shielding slot (822).

Description

Router Technical Field The invention relates to the technical field of electronic products, in particular to a router. Background Communication technology iteration promotes users to climb the transmission demand of routers, and promotes equipment to evolve towards high-speed, low-delay and strong multi-band capacity. However, the increase of speed and transceiving capability causes the load of internal electronic components (such as a processor and a radio frequency module) of the router to increase sharply, and the heat energy increases sharply. The existing heat dissipation design is difficult to match with high-load heat generation, and local overheating is easy to occur. Insufficient heat dissipation not only reduces the efficiency and the service life of the element, but also triggers the thermal protection to reduce the frequency, so that transmission fluctuation, delay increase and unstable signals are caused, and the high-performance requirement is difficult to meet. Therefore, it is necessary to study a router to solve the problem of poor heat dissipation so as to ensure efficient and stable operation of the router. Disclosure of Invention The invention aims to provide a router to solve the problem that in the prior art, the stability and reliability of equipment are affected due to poor heat dissipation capability. In order to achieve the above purpose, the invention adopts the following technical scheme: a router, comprising: the base is provided with an air inlet and an avoidance port, and the air inlet is arranged at the bottom of the base; The circuit board is arranged on the base, a first light-emitting part and a plug connector are arranged on the circuit board, and the plug connector is at least partially positioned in the avoidance port; The first shell is rotationally arranged on the base and covers the periphery of the circuit board and the periphery of the first luminous piece, and the first shell is provided with ventilation holes; The driving assembly comprises a servo motor, a driving wheel and a gear ring, wherein the servo motor is arranged on the base, the driving wheel is connected with the servo motor, the gear ring is arranged on the first shell, and the inner side tooth part of the gear ring is meshed with the driving wheel. As an alternative solution of the router, a first annular protrusion is provided between the base and the first housing, and a first annular groove is provided in the other, the first annular protrusion being rotatably provided in the first annular groove, and/or, The base and the first shell are in running fit through a first bearing. As an optional technical scheme of router, the router includes first braced frame, first braced frame is located the base, and is located the inside of first casing, the circuit board is located first braced frame, first casing still rotates to be located first braced frame. As an alternative to a router, one of the top of the first support frame and the first housing is provided with a second annular projection, the other is provided with a second annular groove in which the second annular projection is rotatably provided, and/or, The first supporting frame and the first shell are in rotary fit through a second bearing. As an alternative technical scheme of router, first braced frame include square frame with square frame top is equipped with the cyclic annular frame, the circuit board is located square frame's inboard, the second annular groove is located the top of cyclic annular frame. As an alternative technical scheme of the router, the top of the first shell is provided with a light outlet, the top of the first supporting frame is provided with a first via hole, and the second light emitting part on the circuit board is at least partially positioned in the first via hole. As an optional technical scheme of router, the router includes the lens hood, the lens hood is located the inside of ring frame, just the lens hood is the flaring structure that the opening up, the light of second luminous element is via the lens hood is followed the light-emitting hole is outwards launched. As an optional technical scheme of the router, the router comprises a first light-transmitting cover, wherein the first light-transmitting cover is arranged on the first shell and covers the light outlet. As an alternative technical scheme of the router, the air holes are in a plurality, all the air holes are distributed in a dispersed mode, and the outline of each air hole is non-circular. As an optional technical scheme of the router, the router further comprises an impeller, an air outlet is formed in the top of the first shell, the impeller is arranged in the first shell and connected with the first shell, and the impeller and the first shell synchronously rotate to drive air in the first shell to flow out at least through the air outlet. As an alternative technical scheme of the router, the impeller comprises a plurality of blades of a supp