An outdoor waterproof router
By installing waterproof clips and sliding baffles on the router, the problem of poor waterproof performance of outdoor routers is solved, achieving effective waterproof protection.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN KANGYUAN INTELLIGENT CO LTD
- Filing Date
- 2025-08-15
- Publication Date
- 2026-06-09
AI Technical Summary
Existing routers have poor waterproof and protective performance when used outdoors, and are easily damaged by rain or water splashes, resulting in component damage and economic losses.
An outdoor waterproof router was designed, which uses a waterproof buckle and baffle assembly. The main baffle and the secondary baffle are slidably connected by a sliding component to expand the shielding range and prevent water from entering the router.
It effectively prevents rain or water from splashing into the router, protecting router components and avoiding damage and financial loss.
Smart Images

Figure CN224343223U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of communication equipment technology, and in particular relates to an outdoor waterproof router. Background Technology
[0002] With the continuous development of the Internet and network applications, the application areas and technological status of routers are also constantly evolving and progressing to meet increasingly complex network needs and security challenges. Their application areas and technological status include the following aspects: home networks, enterprise networks, data centers, cloud service providers, and telecommunications operators.
[0003] A router is a computer network device. As a network device, a router's structure typically includes the following main parts, each with a specific function and role. These mainly include: housing, processor, operating system memory, interface card, routing engine, switching engine, power supply unit, management interface, security function module, and other components. The specific structure and composition of a router can vary depending on the manufacturer, model, and intended use.
[0004] Existing routers have poor waterproof and protective capabilities when used outdoors. If a router is placed outdoors and encounters rain, or if a cup of water is spilled on the router, water can enter the router's interior, causing damage to router components, rendering it unusable, and resulting in economic losses. Utility Model Content
[0005] The purpose of this utility model embodiment is to provide an outdoor waterproof router, which aims to solve the problem that existing routers have poor waterproof and protective effects when used outdoors. If the router is placed outdoors and encounters rain, or if a cup of water is spilled on the router, water will enter the router and cause damage to the router components, making it unusable and causing economic losses.
[0006] This utility model embodiment is implemented as follows: an outdoor waterproof router, the outdoor waterproof router comprising:
[0007] The router body has several waterproof clips, which are fastened to the interfaces on the router body.
[0008] The baffle assembly includes a main baffle, a secondary baffle, and a sliding component. The main baffle and the secondary baffle are located above the router body. The main baffle engages with a connecting protrusion on the secondary baffle via a sliding groove, allowing the secondary baffle to slide below the main baffle and thus change the relative position of the main baffle and the secondary baffle. The sliding component is mounted on the router body and is connected to the secondary baffle via a telescopic shaft. The sliding component is used to move the secondary baffle.
[0009] Preferably, the router body includes a mounting shell, an antenna assembly, and an interface assembly. The mounting shell is used for mounting the antenna assembly and the interface assembly. The mounting shell is an irregular shell. The top surface of the mounting shell is provided with several heat dissipation holes for heat dissipation inside the router body. The side surface of the mounting shell is provided with multiple first mounting holes, second mounting holes, and first positioning holes. The first mounting holes are used to mount the antenna assembly, the second mounting holes are used to mount the interface assembly, and the positioning holes are used to position the waterproof buckle.
[0010] Preferably, the antenna assembly is provided in multiple sets and includes an antenna body and a mounting bracket. The mounting bracket is installed on the first mounting hole of the mounting shell. The mounting bracket is provided with a mounting groove. The mounting groove is rotatably connected to the end of the antenna body through a rotating shaft. The end of the antenna body is provided with a connecting groove. Two opposite groove walls of the connecting groove are provided with connecting holes. The connecting holes cooperate with the two ends of the rotating shaft to make the antenna body rotatably connected to the mounting bracket.
[0011] Preferably, the interface component is provided with multiple connection interfaces, which are mounted on the second mounting hole and are used to connect to external devices via connection cables.
[0012] Preferably, the waterproof buckle is provided with a connecting part and an installation part, the connecting part and the installation part are connected by a connecting strap, the installation part is embedded in the positioning hole, and the connecting part is plugged into the interface assembly and covers the entire connection interface to achieve the protective function.
[0013] Preferably, the main baffle is configured as an arc-shaped plate structure with a high center and low sides. The bottom surface of the main baffle is provided with multiple sliding grooves. A connecting plate is provided on the bottom surface of the main baffle and is fixedly connected to the top surface of the router body. The connecting plate is used to support the main baffle. The connection between the main baffle and the router body through the connecting plate facilitates the router body to achieve ventilation and heat dissipation through the heat dissipation holes.
[0014] Preferably, the auxiliary baffle assembly consists of a first auxiliary baffle and a second auxiliary baffle, located on opposite sides below the first main baffle. The inner sides of the upper surfaces of the first and second auxiliary baffles are respectively provided with a first connecting protrusion and a second connecting protrusion, which respectively cooperate with the sliding groove to connect the main baffle to the first and second auxiliary baffles. The lower surfaces of the first and second auxiliary baffles are respectively provided with a first mounting protrusion and a second mounting protrusion, which are used to mount the telescopic rod of the sliding assembly.
[0015] Preferably, the telescopic rod is provided with a first telescopic rod and a second telescopic rod. The first telescopic rod is connected to a first auxiliary baffle, and the second telescopic rod is connected to a second auxiliary baffle. The telescopic rod is provided with a first connecting rod and a second connecting rod. One end of the first connecting rod is sleeved on one end of the second connecting rod, and the other end of the first connecting rod is rotatably connected to a first mounting protrusion and a second mounting protrusion respectively through a connecting shaft. The other end of the second connecting rod is connected to a sliding assembly through a first transmission wheel, and the second connecting rod is installed on the side of the mounting shell.
[0016] Preferably, the sliding assembly includes a power component and a transmission assembly. The power component is installed on the inner wall of the mounting shell of the router body. The transmission assembly is provided with a first transmission group and a second transmission group. The power component is connected to the first transmission group, and the first transmission group is connected to the second transmission group. The second transmission group is used to drive the first and second auxiliary baffles to move in the horizontal direction.
[0017] This utility model provides an outdoor waterproof router. Several waterproof clips are installed on the router body to protect the router's interfaces and prevent water from seeping in and affecting its operation. A baffle assembly is also included, with a main baffle and a secondary baffle located above the router body. A sliding assembly allows the main and secondary baffles to slide together, changing their relative positions. Sliding the secondary baffle towards the sides of the main baffle expands their shielding range, thus providing protection. This solves the problem that when a router is placed outdoors and encounters rain, or when a cup of water is spilled on it, water can enter the router, causing damage to components, rendering it unusable, and resulting in economic losses. Attached Figure Description
[0018] Figure 1 A three-dimensional structural diagram of an outdoor waterproof router provided for an embodiment of this utility model;
[0019] Figure 2 This is a schematic diagram of the structure of an outdoor waterproof router after the secondary baffle has been unfolded, provided by an embodiment of the present utility model;
[0020] Figure 3 A schematic diagram of the structure of the main baffle in an outdoor waterproof router provided by this utility model embodiment;
[0021] Figure 4 A schematic diagram of the structure of the secondary baffle and the top surface of the mounting shell in an outdoor waterproof router provided by this utility model embodiment;
[0022] Figure 5 This is a structural schematic diagram of the transmission principle of a sliding component in an outdoor waterproof router, provided as an embodiment of the present invention.
[0023] In the attached diagram: 1. Router body; 11. Mounting shell; 111. Heat dissipation hole; 12. Antenna assembly; 13. Waterproof buckle; 14. Interface assembly; 2. Baffle assembly; 21. Main baffle; 211. Slide groove; 212. Connecting plate; 22. Sub-baffle; 221. Connecting protrusion; 23. Sliding assembly; 231. Telescopic rod; 2311. First connecting rod; 2312. Second connecting rod; 2313. First transmission wheel; 232. Power component; 233. Transmission assembly; 2331. First transmission group; 2332. Second transmission group. Detailed Implementation
[0024] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present utility model and are not intended to limit the present utility model.
[0025] The specific implementation of this utility model will be described in detail below with reference to specific embodiments.
[0026] like Figure 1-5 The diagram shown is a structural diagram of an outdoor waterproof router provided in an embodiment of the present utility model, including: a router body 1, and a plurality of waterproof buckles 13, wherein the waterproof buckles 13 are fastened to the interface of the router body 1;
[0027] The baffle assembly 2 includes a main baffle 21, a secondary baffle 22, and a sliding assembly 23. The main baffle 21 and the secondary baffle 22 are located above the router body 1. The main baffle 21 engages with the connecting protrusion 221 on the secondary baffle 22 via a sliding groove 211, allowing the secondary baffle 22 to slide below the main baffle 21, thereby changing the relative position of the main baffle 21 and the secondary baffle 22. The sliding assembly 23 is mounted on the router body 1 and is connected to the secondary baffle 22 via a telescopic shaft. The sliding assembly 23 is used to move the secondary baffle 22.
[0028] In this embodiment of the utility model, preferably, the outdoor waterproof router can provide waterproof protection for the router body 1 when used outdoors to prevent water from entering the router and damaging the internal components. The outdoor waterproof router mainly consists of the router body 1 and the baffle assembly 2. The router body 1 is provided with several waterproof buckles 13. The waterproof buckles 13 can be used according to the number of interfaces on the router body 1 and the usage status. When the interface does not need to be connected to the connection cable, the waterproof buckle 13 can be fastened to the interface to facilitate waterproofing. The baffle assembly 2 is mainly installed on the top of the router body 1 through the main baffle 21 and the secondary baffle 22 to protect the router body 1. The main baffle 21 and the secondary baffle 22 are connected by the cooperation of the sliding groove 211 and the connecting protrusion 221, and are connected to the secondary baffle 22 by the telescopic rod 231 so that the sliding assembly 23 can drive the secondary baffle 22 to move through the telescopic rod 231 to change the relative position of the main baffle 21 and the secondary baffle 22, so that the user can adjust the protection range of the secondary baffle 22 according to the usage needs of the router body 1.
[0029] In one embodiment of this utility model, several waterproof buckles 13 are provided on the router body 1. The waterproof buckles 13 are used to protect the interfaces on the router body 1 and prevent water from seeping into the interfaces and affecting the use of the router body 1. A baffle assembly 2 is provided, with the main baffle 21 and the secondary baffle 22 located above the router body 1. The main baffle 21 and the secondary baffle 22 are slidably connected by a sliding assembly 23 to change the relative position between the main baffle 21 and the secondary baffle 22. The secondary baffle 22 is slid towards both sides of the main baffle 21 to expand the shielding range of the main baffle 21 and the secondary baffle 22 to achieve a protective effect. This solves the problem that when the router is placed outdoors and encounters rain, or when a cup of water is spilled on the router, water enters the router and causes damage to the router components, making it unusable and causing economic losses.
[0030] like Figure 1-5 As shown in the preferred embodiment of this utility model, the router body 1 includes a mounting shell 11, an antenna assembly 12, and an interface assembly 14. The mounting shell 11 is used for mounting the antenna assembly 12 and the interface assembly 14. The mounting shell 11 is an irregular shell. The top surface of the mounting shell 11 is provided with a plurality of heat dissipation holes 111 for heat dissipation inside the router body 1. The side surface of the mounting shell 11 is provided with a plurality of first mounting holes, second mounting holes, and first positioning holes. The first mounting holes are used to mount the antenna assembly 12, the second mounting holes are used to mount the interface assembly 14, and the positioning holes are used to position the waterproof buckle 13.
[0031] In this embodiment of the utility model, preferably, the router body 1 mainly consists of a mounting shell 11, an antenna assembly 12, and an interface assembly 14. The mounting shell 11 can be an irregular semi-enclosed shell. Several heat dissipation holes 111 are provided on the top surface of the mounting shell 11. Multiple first mounting holes provided on the side of the mounting shell 11 can be used to install the antenna assembly 12. Second mounting holes and positioning holes can be provided on the same side of the mounting shell 11. The second mounting holes and positioning holes can be arranged side by side on the mounting shell 11. The positioning holes are used to install waterproof buckles 13 so that the waterproof buckles 13 can be fastened to the interface assembly 14 and protect the unused interface assembly 14. The router body also has functional modules installed inside the mounting shell, mainly consisting of hardware components such as a main control circuit board, a memory chip installed on the main control circuit board, and a power module. The mounting shell protects the hardware components, and the main control circuit board, memory chip, power module, antenna assembly, and interface assembly realize physical layer data transmission and processing. The antenna assembly and interface assembly are electrically connected to the main control circuit board, and can also transmit data through the antenna to realize network management and data forwarding in the software aspect.
[0032] like Figure 1-5 As shown, in a preferred embodiment of the present invention, the antenna assembly 12 is provided in multiple sets and includes an antenna body and a mounting bracket. The mounting bracket is installed on the first mounting hole of the mounting shell 11. The mounting bracket is provided with a mounting groove. The mounting groove is rotatably connected to the end of the antenna body through a rotating shaft. The end of the antenna body is provided with a connecting groove. Two connecting holes are provided on the two opposite groove walls of the connecting groove. The connecting holes cooperate with the two ends of the rotating shaft to make the antenna body rotatably connected to the mounting bracket.
[0033] In this embodiment of the present invention, preferably, the antenna assembly 12 is provided in multiple sets and a mounting bracket is provided for mounting the antenna body. The mounting bracket is configured as a cylindrical structure. The connecting groove at the end of the antenna body is connected to the mounting groove on the mounting bracket via a rotating shaft. The connecting groove on the antenna body can be configured as U-shaped so that the connecting hole on the connecting groove is connected to the rotating shaft, allowing the antenna body to be rotatably connected to the mounting bracket. This allows the position of the antenna body to be adjusted according to usage requirements to prevent obstruction of the movement of the sub-baffle 22 above the mounting shell 11.
[0034] like Figure 1-5 As shown in the preferred embodiment of the present invention, the interface component 14 is provided with a plurality of connection interfaces, the connection interfaces are installed on the second mounting hole, and the connection interfaces are used to connect with external devices via connection cables.
[0035] In this embodiment of the present invention, preferably, the interface component 14 can be configured with multiple connection interfaces as needed. The connection interfaces can be connected to external devices and external power supplies via connection cables to facilitate the transmission of data signals to the router body 1.
[0036] like Figure 1-5 As shown, in a preferred embodiment of the present invention, the waterproof buckle 13 is provided with a connecting part and an installation part. The connecting part and the installation part are connected by a connecting strap. The installation part is embedded in the positioning hole. The connecting part is plugged into and plugged into the interface assembly 14 and the connecting part covers the entire connection interface to achieve a protective function.
[0037] In this embodiment of the present invention, preferably, the waterproof buckle 13 can be provided with a connecting strap to connect the mounting part and the connecting part. The connecting strap can be a strip structure of elastic material with a certain length. The mounting part is embedded in the positioning hole of the mounting shell 11. The connecting part and the connecting interface on the interface assembly 14 can be plugged and unplugged to facilitate the user to use the waterproof buckle 13 as needed. When the connecting part is fastened to the connecting interface, the protrusion of the connecting part is embedded in the connecting interface. The external structure of the connecting part covers and adheres to the mounting shell 11 to achieve the function of protecting and waterproofing the connection.
[0038] like Figure 1-5 As shown in the preferred embodiment of this utility model, the main baffle 21 is configured as an arc-shaped plate structure with a high middle and low sides. The bottom surface of the main baffle 21 is provided with multiple sliding grooves 211. The bottom surface of the main baffle 21 is provided with a connecting plate 212, which is fixedly connected to the top surface of the router body 1. The connecting plate 212 is used to support the main baffle 21. The main baffle 21 and the router body 1 are connected by the connecting plate 212 to facilitate the router body 1 to achieve ventilation and heat dissipation through the heat dissipation holes 111.
[0039] In this embodiment of the present invention, preferably, the main baffle 21 can be an arc-shaped plate with a certain thickness and a high center and low periphery. A groove 211 is provided on the bottom surface of the main baffle 21. The length direction of the groove 211 can be towards the side where the interface component 14 is installed so that the main baffle 21 can guide the secondary baffle 22 to move and protect the side where the interface component 14 is located. Multiple connecting plates 212 are provided at the center line position of the bottom surface of the main baffle 21. The connecting plates 212 are used to support the main baffle 21 so that the main baffle 21 and the top surface of the mounting shell 11 form a gap with a certain width. The gap can facilitate the heat dissipation holes 111 on the mounting shell 11 to dissipate heat, making the cavity flow area larger and heat dissipation more timely.
[0040] like Figure 1-5As shown in the preferred embodiment of this utility model, the auxiliary baffle 22 is provided as a first auxiliary baffle 22 and a second auxiliary baffle 22. The first auxiliary baffle 22 and the second auxiliary baffle 22 are located on both sides below the first main baffle 21. The inner side of the upper surface of the first auxiliary baffle 22 and the second auxiliary baffle 22 are respectively provided with a first connecting protrusion 221 and a second connecting protrusion 221. The first connecting protrusion 221 and the second connecting protrusion 221 cooperate with the sliding groove 211 so that the main baffle 21 is connected to the first auxiliary baffle 22 and the second auxiliary baffle 22 respectively. The lower bottom surface of the first auxiliary baffle 22 and the second auxiliary baffle 22 is respectively provided with a first mounting protrusion and a second mounting protrusion. The first mounting protrusion and the second mounting protrusion are used to install the telescopic rod 231 of the sliding component 23.
[0041] In this embodiment of the present invention, preferably, the secondary baffle 22 can be in two sets, namely a first secondary baffle 22 and a second secondary baffle 22. The lengths of the first secondary baffle 22 and the second secondary baffle 22 are the same as those of the main baffle 21 and are greater than the length of the mounting shell 11. The first secondary baffle 22 and the second secondary baffle 22 are connected to the sliding groove 211 on the bottom surface of the main baffle 21 by the first connecting protrusion 221 and the second connecting protrusion 221, respectively. The first secondary baffle 22 and the second secondary baffle 22 are arranged side by side on the bottom surface of the main baffle 21 and located on both sides of the connecting plate 212. During use, the first secondary baffle 22 and the second secondary baffle 22 are moved outward by the telescopic rod 231 on the sliding assembly 23 to expand the covering range of the main baffle 21, the first secondary baffle 22 and the second secondary baffle 22. When stored, the first secondary baffle 22 and the second secondary baffle 22 are moved inward by the telescopic rod 231 on the sliding assembly 23 and retract to be located directly below the main baffle 21.
[0042] like Figure 1-5 As shown, in a preferred embodiment of the present invention, the telescopic rod 231 is provided with a first telescopic rod 231 and a second telescopic rod 231. The first telescopic rod 231 is connected to the first auxiliary baffle 22, and the second telescopic rod 231 is connected to the second auxiliary baffle 22. The telescopic rod 231 is provided with a first connecting rod 2311 and a second connecting rod 2312. One end of the first connecting rod 2311 is sleeved on one end of the second connecting rod 2312. The other end of the first connecting rod 2311 is rotatably connected to the first mounting protrusion and the second mounting protrusion respectively through a connecting shaft. The other end of the second connecting rod 2312 is connected to the sliding assembly 23 through the first transmission wheel 2313. The second connecting rod 2312 is installed on the side of the mounting shell 11.
[0043] In this embodiment of the present invention, preferably, the telescopic rod 231 is provided with two sets of first telescopic rods 231 respectively installed on both sides of the first auxiliary baffle 22, and two sets of second telescopic rods 231 respectively installed on both sides of the second auxiliary baffle 22. The first telescopic rods 231 and the second telescopic rods 231 have the same structure. The telescopic rod 231 is composed of a first connecting rod 2311 and a second connecting rod 2312 that are sleeved on each other. The first connecting rod 2311 is rotatably connected to the mounting protrusion on the bottom surface of the auxiliary baffle 22, and the second connecting rod 2312 is installed on the side adjacent to the side where the interface assembly 14 is located.
[0044] like Figure 1-5 As shown, in a preferred embodiment of the present invention, the sliding component 23 includes a power component 232 and a transmission component 233. The power component 232 is installed on the inner wall of the mounting shell 11 of the router body 1. The transmission component 233 is provided with a first transmission group 2331 and a second transmission group 2332. The power component 232 is connected to the first transmission group 2331, and the first transmission group 2331 is connected to the second transmission group 2332. The second transmission group 2332 is used to drive the first sub-baffle 22 and the second sub-baffle 22 to move in the horizontal direction.
[0045] In this embodiment of the present invention, preferably, the sliding component 23 is provided with a power component 232 to provide power to the transmission component 233. The transmission component 233 is connected to the output end of the power component 232. The first transmission group 2331 in the transmission component 233 drives the second transmission wheel on the first transmission rod in the second transmission group 2332 to mesh with the first transmission wheel 2313 of the telescopic rod 231 so as to drive the telescopic rod 231 to rotate and drive the other end of the telescopic rod 231 to move the auxiliary baffle 22. Two sets of first transmission rods can be provided, and two sets of second transmission wheels can be provided on the first transmission rods so as to control the movement of the first auxiliary baffle 22 and the second auxiliary baffle 22.
[0046] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. An outdoor waterproof router, characterized in that, The outdoor waterproof router includes: The router body has several waterproof clips, which are fastened to the interfaces on the router body. The baffle assembly includes a main baffle, a secondary baffle, and a sliding component. The main baffle and the secondary baffle are located above the router body. The main baffle engages with a connecting protrusion on the secondary baffle via a sliding groove, allowing the secondary baffle to slide below the main baffle and thus change the relative position of the main baffle and the secondary baffle. The sliding component is mounted on the router body and is connected to the secondary baffle via a telescopic shaft. The sliding component is used to move the secondary baffle.
2. The outdoor waterproof router according to claim 1, characterized in that, The router body includes a mounting shell, an antenna assembly, and an interface assembly. The mounting shell is used to install the antenna assembly and the interface assembly. The mounting shell is an irregular shell. The top surface of the mounting shell is provided with several heat dissipation holes for heat dissipation inside the router body. The side surface of the mounting shell is provided with multiple first mounting holes, second mounting holes, and first positioning holes. The first mounting holes are used to install the antenna assembly, the second mounting holes are used to install the interface assembly, and the positioning holes are used to position the waterproof buckle.
3. The outdoor waterproof router according to claim 2, characterized in that, The antenna assembly is provided in multiple sets and includes an antenna body and a mounting bracket. The mounting bracket is installed on the first mounting hole of the mounting shell. The mounting bracket is provided with a mounting groove. The mounting groove is rotatably connected to the end of the antenna body through a rotating shaft. The end of the antenna body is provided with a connecting groove. Two connecting holes are provided on the two opposite groove walls of the connecting groove. The connecting holes cooperate with the two ends of the rotating shaft to make the antenna body rotatably connected to the mounting bracket.
4. The outdoor waterproof router according to claim 2, characterized in that, The interface component is provided with multiple connection interfaces, which are installed on the second mounting hole and are used to connect to external devices via connection cables.
5. The outdoor waterproof router according to claim 4, characterized in that, The waterproof buckle is provided with a connecting part and an installation part. The connecting part and the installation part are connected by a connecting strap. The installation part is embedded in the positioning hole. The connecting part is plugged into the interface component and covers the entire connection interface to achieve a protective function.
6. The outdoor waterproof router according to claim 2, characterized in that, The main baffle is configured as an arc-shaped plate structure with a high center and low sides. Multiple grooves are provided on the bottom surface of the main baffle. A connecting plate is provided on the bottom surface of the main baffle and is fixedly connected to the top surface of the router body. The connecting plate is used to support the main baffle. The connection between the main baffle and the router body is facilitated by the connecting plate to enable the router body to achieve ventilation and heat dissipation through the heat dissipation holes.
7. The outdoor waterproof router according to claim 2, characterized in that, The auxiliary baffle assembly consists of a first auxiliary baffle and a second auxiliary baffle, located on either side below the first main baffle. The inner sides of the upper surfaces of the first and second auxiliary baffles are respectively provided with a first connecting protrusion and a second connecting protrusion, which respectively cooperate with the sliding grooves to connect the main baffle to the first and second auxiliary baffles. The lower surfaces of the first and second auxiliary baffles are respectively provided with a first mounting protrusion and a second mounting protrusion, used for mounting the telescopic rod of the sliding assembly.
8. The outdoor waterproof router according to claim 7, characterized in that, The telescopic rod is provided with a first telescopic rod and a second telescopic rod. The first telescopic rod is connected to a first auxiliary baffle, and the second telescopic rod is connected to a second auxiliary baffle. The telescopic rod is provided with a first connecting rod and a second connecting rod. One end of the first connecting rod is sleeved on one end of the second connecting rod. The other end of the first connecting rod is rotatably connected to a first mounting protrusion and a second mounting protrusion respectively through a connecting shaft. The other end of the second connecting rod is connected to a sliding assembly through a first transmission wheel. The second connecting rod is installed on the side of the mounting shell.
9. The outdoor waterproof router according to claim 8, characterized in that, The sliding assembly includes a power component and a transmission assembly. The power component is installed on the inner wall of the mounting shell of the router body. The transmission assembly is provided with a first transmission group and a second transmission group. The power component is connected to the first transmission group, and the first transmission group is connected to the second transmission group. The second transmission group is used to drive the first and second auxiliary baffles to move horizontally.