CN112929288B

CN112929288B - High-performance 5G router

Info

Publication number: CN112929288B
Application number: CN202110148080.5A
Authority: CN
Inventors: 颜子浩; 李爽; 张思炀
Original assignee: Jiangxi Shanshui Optoelectronic Technology Co ltd
Current assignee: Jiangxi Shanshui Optoelectronic Technology Co ltd
Priority date: 2021-02-03
Filing date: 2021-02-03
Publication date: 2022-11-22
Anticipated expiration: 2041-02-03
Also published as: CN112929288A

Abstract

The invention belongs to the technical field of network communication equipment, and particularly relates to a high-performance 5G router which comprises a shell, a group of data transceivers, a routing processor, a group of data ports, a data line plug, a locking module and a USB socket, wherein the shell is provided with a plurality of data ports; the inner wall of each data port is provided with a locking module for locking a data line plug, and the locking module comprises a group of first annular grooves and a group of U-shaped rods; each U-shaped rod is rotatably connected to the middle position of the inner wall of the first annular groove through a rotating shaft, so that the U-shaped rods can swing in the first annular groove; through setting up U type pole, when the data line plug inserted data port, U type pole atress revoluted the rotation of axes and contacts and press from both sides tight data line plug, increased the fixed degree of data line plug in the port, prevented that the data line plug from droing, leads to the signal to disappear, influences the router and normally works.

Description

High-performance 5G router

Technical Field

The invention belongs to the technical field of network communication equipment, and particularly relates to a high-performance 5G router.

Background

A router may also be referred to as a gateway device. The router is a network layer relay task and a third layer relay task which are completed in OSI/RM, stores and transmits packets between different networks, and mainly separates the networks in different logics; the data is transmitted to another sub-network in one sub-network and can be processed by the routing function of the router; in network communication, the router has the functions of judging network addresses and selecting IP paths, a flexible link system can be constructed in a plurality of network environments, and various subnets are linked through different data packets and medium access modes; the router only receives information transmitted by a source station or other relevant routers in operation, and is an interconnection device based on a network layer, and the router is used for connecting a network transmission medium, connecting a remote transmission medium and requiring corresponding devices;

the invention discloses a router in China (CN 2017103864362), which comprises a base, wherein a square tube is arranged on the base, a shaft hole is formed in the tube wall of the square tube, a shaft rod is arranged in the shaft hole, one end of the shaft rod is connected with a gear in the square tube, the other end of the shaft rod is connected with a round handle, a support arm is arranged in the square tube, a rack which is meshed with the gear is longitudinally arranged on the front surface of the support arm, and the support arm moves up and down in the square tube through the matching of the gear and the rack to adjust the height of a support plate and avoid collision on a router body.

In view of the above, through the matching of the U-shaped rod and the arc-shaped groove, when the data line plug is inserted into the input or data port, the data port tightly clamps the data line plug, so that the data line plug is prevented from loosening, and the normal work of the router is prevented from being influenced by the disappearance of signals.

Disclosure of Invention

In order to make up for the defects of the prior art and solve the problems that signals disappear due to looseness of a data line plug and normal operation of a router is affected, the invention provides the high-performance 5G router.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a high-performance 5G router, which comprises a shell, a group of data transceivers, a routing processor, a group of data ports, a data line plug, a locking module and a USB socket, wherein the shell is provided with a plurality of data transceivers; a routing processor is fixedly connected with the middle position in the shell; each data transceiver is uniformly and fixedly connected to one side of the shell and is electrically connected with the routing processor; each data port is uniformly arranged at the position of the shell corresponding to the data transceiver and is electrically connected with the routing processor; the USB socket is arranged on one side of the data port; a locking module is arranged on the inner wall of each data port, and each data port is connected with a data line plug; the locking module comprises a first annular groove and a U-shaped rod; first annular grooves are respectively formed in the inner walls of the data ports which are symmetrical along the data line plug, and a U-shaped rod is rotatably installed in each first annular groove; when the data line plug is not inserted into the data port, two ends of each U-shaped rod are arranged in the data port;

in the prior art, a data line plug is fixed by matching a pressing part with a data port, when the data line plug is inserted into the data port, the position of connected equipment in the working process moves, a fan in a cooling system blows air, and vibration caused by large-scale equipment in working can cause shaking and even pulling of a data line, so that the situation that the data line plug is loosened in the data port is caused, and meanwhile, when the data line plug is used for a long time, the possibility that the plastic part shrinks and deforms due to slight heating of the data line plug and the plastic part at an interface end of the data line plug is aged can be increased, so that a data signal disappears, even the data line plug is damaged, and the normal work of a router is influenced.

Preferably, arc-shaped grooves are formed in the sides, corresponding to the U-shaped rods, of the data line plugs, and one ends, far away from the bottoms of the data ports, of the U-shaped rods can enter the arc-shaped grooves; the cross section of each arc-shaped groove is in an ear shape, each arc-shaped groove consists of an arc a and a straight line b, the straight line b is tangent to the arc a, and the radius of the arc a is larger than that of the arc at one end of the U-shaped rod entering the arc-shaped groove;

during the use, insert the data port with the data line plug, because the cross section design of arc wall is the ear shape, make the one end of U type pole get into the arc wall along sharp b, thereby avoid blocking the data line plug because of the excessive extrusion data line plug of U type pole when rotating, lead to the data line plug to damage, increase the cost of changing the part, influence the normal work of router, after U type pole gets into the arc wall, because the radius of circular arc a is greater than the circular arc radius that the U type pole got into the one end of arc wall, make the one end of U type pole can the in close contact with arc wall, thereby prevent that the data line plug from sliding not hard up, lead to the signal to disappear, influence the normal work of router, further increase U type pole and press from both sides tight effect to the data line plug, through setting up the arc wall, solve the problem that the data line plug still can slide under the tight condition of U type pole.

Preferably, a first air bag is arranged in each arc-shaped groove; no gas exists in the first air bag in the initial state; a second air bag is arranged at the pressing position of the data line plug, and the second air bag is filled with gas in the initial state; the first air bag and the second air bag are communicated with each other through an air pipe, and the first air bag is smaller than the second air bag;

during the use, press the data line plug and insert data port, no. two gasbags of the interior gas flow direction of gasbag, make No. two gasbags aerify the inflation, the one end of U type pole is lived in the parcel, reduce the turning clearance of U type pole, thereby increase the fastening degree of data line plug, prevent that the data line plug is not hard up, data signal connects unstably, through the cooperation of an gasbag and No. two gasbags, when the solution is inserted at the data line plug, U type pole still has turning clearance, lead to the data line plug not hard up, the unstable problem of data signal connects.

Preferably, one end of the U-shaped rod in the arc-shaped groove is provided with a second annular groove, and the opening direction of the second annular groove faces one side of the routing processor;

during the use, when a gasbag inflation reaches the certain degree, a gasbag continues to expand along the inner wall of arc wall and No. two annular groove trails, further parcel lives the one end of U type pole, increase the parcel area of a gasbag to U type pole, thereby further increase the firm degree of U type pole, reduce the clearance for rotation of U type pole, increase the fastening degree of data line plug, through setting up No. two annular grooves, solve the problem that can release the one end of U type pole from the arc wall when a gasbag expands to the certain degree.

Preferably, a third annular groove is formed in the inner wall of the second annular groove at a position close to the arc groove; a sliding block is connected in the third annular groove in a sliding mode, the sliding block is fixedly connected with the bottom of the third annular groove through a spring, and the sliding block can reciprocate in the second annular groove through the cooperation of the third annular groove, the sliding block and the spring;

when the air bag type data line plug is used, after the first air bag expands to enter the second annular groove, the first air bag pushes the sliding block to slide and extrude the first air bag in the arc-shaped groove, the first air bag is prevented from continuing to expand into the second annular groove, one end of the U-shaped rod is prevented from being pushed out due to the fact that the first air bag excessively expands in the second annular groove, the sliding block prevents the first air bag from expanding into the second annular groove, the first air bag is made to be full of a gap between the U-shaped rod and the arc-shaped groove, the rotating gap of the U-shaped rod is further reduced, the fastening degree of the data line plug is increased, the data line plug is prevented from loosening, connection of a data signal is unstable, meanwhile, the first air bag does not expand after expanding to the maximum degree, the second air bag is made to be larger than the first air bag, gas still exists in the second air bag, the clamping effect of the pressing position of the data line plug and a data port in the prior art is increased, the fastening degree of the data line plug is further increased, and the problem that one end of the U-shaped rod is pushed out due to the fact that the first air bag continuously expands in the second annular groove is solved through the cooperation of the third annular groove, the sliding block and the spring.

Preferably, the end part of each sliding block, which is close to the arc-shaped groove, is provided with gear teeth, so that the first air bag is extruded;

during the use, when the slider slides the extrusion to an gasbag in the arc wall, every teeth of a cogwheel all can contact and extrude a gasbag after the inflation, form the effect of blocking layer upon layer, further strengthen the blocking effect of slider to the interior gas flow of gasbag, thereby increase the fastening degree of data line plug, reduce the turning gap of U type pole, prevent that the data line plug from becoming flexible, lead to data signal connection unstable, through setting up the teeth of a cogwheel, solve the problem that the slider blocks a gasbag gas flow effect, when needing to extract the data line plug, continuously press the data line plug, gas in No. two gasbags lasts to a gasbag exhaust, make a gasbag overexpansion, the one end of U type pole in the arc wall is by a gasbag overexpansion and the extrusion rotation, because data line plug top both sides are the wedge shape, make the one end that the U type pole is close to the route treater can withstand the wedge of data line plug and promote towards the direction of keeping away from the route treater, make the data line plug released from the data port by U type pole.

The invention has the following beneficial effects:

1. according to the high-performance 5G router, the U-shaped rod is arranged, when the data line plug is inserted into the data port, the U-shaped rod is stressed to rotate around the rotating shaft to contact and clamp the data line plug, the fixing degree of the data line plug in the port is increased, the data line plug is prevented from loosening, signals disappear, and the normal work of the router is influenced.

2. According to the high-performance 5G router, the arc-shaped groove is formed, the phenomenon that the data line plug is damaged due to the fact that the data line plug is clamped by excessively extruding the data line plug when the U-shaped rod rotates is avoided, the cost of replacing parts is increased, and normal work of the router is influenced.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a partial cross-sectional view of the present invention in operation;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is an enlarged view of a portion of FIG. 3 at B;

FIG. 5 is an enlarged view of a portion of FIG. 1 at C;

FIG. 6 is an enlarged view of a portion of FIG. 4 at D;

FIG. 7 is a schematic view of the data line plug of the present invention when not in operation;

in the figure: the device comprises a shell 1, a data port 11, a first annular groove 12, a U-shaped rod 13, a second annular groove 131, a sliding block 132, gear teeth 133, a third annular groove 134, a data transceiver 2, a routing processor 3, a data line plug 4, an arc-shaped groove 41, a first air bag 42, a second air bag 43, a locking module 5 and a USB socket 6.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 7, the high performance 5G router according to the present invention includes a housing 1, a set of data transceivers 2, a routing processor 3, a set of data ports 11, a data line plug 4, a locking module 5, and a USB socket 6; a routing processor 3 is fixedly connected to the middle position in the shell 1; each data transceiver 2 is uniformly and fixedly connected to one side of the shell 1, and each data transceiver 2 is electrically connected with the routing processor 3; each data port 11 is uniformly arranged at the position of the shell 1 corresponding to the data transceiver 2, and the data ports 11 are electrically connected with the routing processor 3; the USB socket 6 is arranged at one side of the data port 11; a locking module 5 is installed on the inner wall of each data port 11, and each data port 11 is connected with a data line plug 4; the locking module 5 comprises a first annular groove 12 and a U-shaped rod 13; first annular grooves 12 are respectively formed in the inner walls of the data ports 11 which are symmetrical along the data line plug 4, and a U-shaped rod 13 is rotatably installed in each first annular groove 12; when the data line plug 4 is not inserted into the data port 11, two ends of each U-shaped rod 13 are arranged in the data port 11;

when the router is used, the data line plug 4 is fixed by the matching of the pressing part and the data port 11 in the prior art, the fixing degree is not high, the pressing part of the data line plug 4 is easily damaged under the influence of external force, the data line plug 4 is loosened, and the normal work of the router is influenced.

As an embodiment of the present invention, arc-shaped grooves 41 are formed on both sides of the data line plug 4 corresponding to the U-shaped rod 13, and one end of the U-shaped rod 13 away from the bottom of the data port 11 can enter the arc-shaped grooves 41; the cross section of each arc-shaped groove 41 is in an ear shape, each arc-shaped groove 41 consists of an arc a and a straight line b, the straight line b is tangent to the arc a, and the radius of the arc a is larger than that of the arc at one end of the U-shaped rod 13 entering the arc-shaped groove 41;

during the use, insert data line plug 4 data port 11, because the cross section design of arc wall 41 is the ear shape, make the one end of U type pole 13 get into arc wall 41 along straight line b, thereby avoid excessively squeezing data line plug 4 and blocking data line plug 4 when rotating because of U type pole 13, lead to data line plug 4 to damage, increase the cost of changing the part, influence the normal work of router, after U type pole 13 got into arc wall 41, because the radius of circular arc a is greater than the circular arc radius that U type pole 13 got into the one end of arc wall 41, make the one end of U type pole 13 can the in close contact with arc wall 41, thereby prevent that data line plug 4 from sliding not hard up, lead to the signal to disappear, influence the normal work of router, further increase U type pole 13 and to the tight effect of data line plug 4 clamp, through setting up arc wall 41, solve data line plug 4 and still can gliding problem under the tight circumstances of U type pole 13 clamp.

As an embodiment of the present invention, a first air bag 42 is disposed in each of the arc-shaped slots 41; and no gas is present inside the first air bag 42 in the initial state; a second air bag 43 is arranged at the pressing position of the data line plug 4, and the second air bag 43 is filled with gas in the initial state; the first air bag 42 and the second air bag 43 are communicated with each other through an air pipe, and the first air bag 42 is smaller than the second air bag 43;

during the use, press data line plug 4 and insert data port 11, no. two gasbags 42 of the interior gas flow direction of gasbag 43, make No. two gasbags 43 inflate the inflation, the one end of U type pole 13 is lived in the parcel, reduce the turning gap of U type pole 13, thereby increase data line plug 4's fastening degree, prevent that data line plug 4 is not hard up, data signal connects unstably, cooperation through a gasbag 42 and No. two gasbags 43, when the solution is inserted at data line plug 4, U type pole 13 still has turning gap, lead to data line plug 4 not hard up, the unstable problem of data signal connection.

As an embodiment of the present invention, one end of the U-shaped rod 13 located in the arc-shaped groove 41 is provided with a second annular groove 131, and an opening direction of the second annular groove 131 faces one side of the route processor 3;

during the use, when gasbag 42 inflation reaches the certain degree, gasbag 42 continues to expand along the inner wall of arc wall 41 and No. two annular groove 131 trails, further wrap up the one end of U type pole 13, increase the parcel area of gasbag 42 to U type pole 13, thereby further increase the firm degree of U type pole 13, reduce U type pole 13's turning circle, increase data line plug 4's fastening degree, through setting up No. two annular groove 131, solve the problem that gasbag 42 inflation can be released U type pole 13's one end from arc wall 41 when reaching the certain degree in.

As an embodiment of the present invention, a third annular groove 134 is formed on the inner wall of the second annular groove 131 at a position close to the arc-shaped groove 41; the sliding block 132 is connected in the third annular groove 134 in a sliding mode, the sliding block 132 is fixedly connected with the bottom of the third annular groove 134 through a spring, and the sliding block 132 can reciprocate in the second annular groove 131 through the cooperation of the third annular groove 134, the sliding block 132 and the spring;

when the data line plug 4 is used, after the first air bag 42 is expanded to enter the second annular groove 131, the first air bag 42 pushes the sliding block 132 to slide and press the first air bag 42 in the arc-shaped groove 41, the first air bag 42 is prevented from being expanded continuously to the second annular groove 131, the situation that one end of the U-shaped rod 13 is pushed out due to the fact that the first air bag 42 is excessively expanded in the second annular groove 131 is avoided, the sliding block 132 prevents the first air bag 42 from being expanded to the second annular groove 131, the first air bag 42 is made to fill the gap between the U-shaped rod 13 and the arc-shaped groove 41, the rotating gap of the U-shaped rod 13 is further reduced, the fastening degree of the data line plug 4 is increased, the data line plug 4 is prevented from loosening, data signal connection is unstable, meanwhile, the first air bag 42 is not expanded to the maximum degree, the second air bag 43 is larger than the first air bag 42, gas still exists in the second air bag 43, the effect that the pressing position of the data line plug 4 and the data port 11 in the prior art is improved, the fastening degree of the data line plug 4 is further increased, and the problem that the U-shaped rod is pushed out due to the fact that the annular groove 132 and the annular groove 132 are continuously is solved through the annular groove 131 and the annular groove 13 is matched.

As an embodiment of the present invention, the end of each sliding block 132 close to the arc-shaped slot 41 is provided with a gear 133 to achieve the function of squeezing the first air bag 42;

when the data line plug 4 is required to be pulled out, the data line plug 4 is continuously pressed, the gas in the second air bag 43 is continuously exhausted to the first air bag 42, the first air bag 42 is excessively expanded, one end of the U-shaped rod 13 in the arc-shaped groove 41 is excessively expanded by the first air bag 42 to be extruded and rotated, and because the two sides of the top end of the data line plug 4 are in the wedge shape, one end of the U-shaped rod 13 close to the route processor 3 can be abutted against the direction of the wedge face of the data line plug 4, which is far away from the route processor 3, so that the data line plug 4 is pushed out from the data line port 11, and the data line plug 4 is pushed out of the data line port 11.

During operation, in the prior art, the data line plug 4 fixes the data line plug 4 by means of the matching of the pressing part and the data port 11, the fixing degree is not high, the pressing part of the data line plug 4 is easily damaged by external force, the data line plug 4 is loosened, and the normal operation of the router is influenced, by the arrangement of the U-shaped rod 13, when the data line plug 4 is inserted into the data port 11, the U-shaped rod 13 is forced to rotate around the rotating shaft to contact and clamp the data line plug 4, the fixing degree of the data line plug 4 in the port is increased, the loosening of the data line plug 4 is prevented, signals are prevented from disappearing, the normal operation of the router is influenced, the data line plug 4 is clamped by the U-shaped rod 13, and therefore the loosening is not easy, the normal operation of the router is influenced, meanwhile, the U-shaped rod 13 is arranged in the port and is not easy to be damaged, and the replacement cost of components is reduced; inserting the data line plug 4 into the data port 11, wherein the cross section of the arc-shaped groove 41 is designed into an ear shape, so that one end of the U-shaped rod 13 enters the arc-shaped groove 41 along the straight line b, and the damage to the data line plug 4 caused by the fact that the data line plug 4 is clamped by excessively extruding the data line plug 4 when the U-shaped rod 13 rotates is avoided, the cost of replacing parts is increased, and the normal work of the router is influenced; the data line plug 4 is pressed to be inserted into the data port 11, and gas in the second air bag 43 flows to the first air bag 42, so that the second air bag 43 is inflated to wrap one end of the U-shaped rod 13, and the rotating clearance of the U-shaped rod 13 is reduced, so that the fastening degree of the data line plug 4 is increased, the data line plug 4 is prevented from loosening, and the data signal connection is unstable; when the first air bag 42 is inflated to a certain degree, the first air bag 42 continues to expand along the inner wall of the arc-shaped groove 41 and the track of the second annular groove 131, so that one end of the U-shaped rod 13 is further wrapped, the wrapping area of the first air bag 42 on the U-shaped rod 13 is increased, the stability degree of the U-shaped rod 13 is further increased, the rotating clearance of the U-shaped rod 13 is reduced, and the fastening degree of the data line plug 4 is increased; after the first air bag 42 is expanded into the second annular groove 131, the first air bag 42 pushes the sliding block 132 to slide and extrude the first air bag 42 in the arc-shaped groove 41, the first air bag 42 is prevented from being expanded into the second annular groove 131 continuously, one end of the U-shaped rod 13 is prevented from being pushed out due to the fact that the first air bag 42 is expanded excessively in the second annular groove 131, the sliding block 132 prevents the first air bag 42 from being expanded into the second annular groove 131, the first air bag 42 is made to fill a gap between the U-shaped rod 13 and the arc-shaped groove 41, the rotating gap of the U-shaped rod 13 is further reduced, the fastening degree of the data line plug 4 is increased, the data line plug 4 is prevented from loosening, data signal connection is unstable, the first air bag 42 is not expanded to the maximum degree, the second air bag 43 is made to be large compared with the first air bag 42, gas still exists in the second air bag 43, the clamping effect of the pressing position of the data line plug 4 and the data port 11 in the prior art is increased, and the fastening degree of the data line plug 4 is further increased; when the sliding block 132 slides and extrudes the first air bag 42 in the arc-shaped groove 41, each gear tooth 133 contacts and extrudes the expanded first air bag 42 to form a layer-by-layer blocking effect, and further, the blocking effect of the sliding block 132 on the gas flow in the first air bag 42 is enhanced, so that the fastening degree of the data line plug 4 is increased, the rotating gap of the U-shaped rod 13 is reduced, the data line plug 4 is prevented from loosening, and the data signal connection is unstable, when the data line plug 4 needs to be pulled out, the data line plug 4 is continuously pressed, the gas in the second air bag 43 is continuously exhausted to the first air bag 42, so that the first air bag 42 is excessively expanded, one end of the U-shaped rod 13 in the arc-shaped groove 41 is excessively expanded by the first air bag 42 and is extruded and rotated, and because both sides of the top end of the data line plug 4 are in a wedge shape, one end of the U-shaped rod 13, which is close to the route processor 3, pushes the wedge-shaped surface of the data line plug 4 towards the direction far away from the route processor 3, so that the data line plug 4 is pushed out from the data port 11 by the U-shaped rod 13.

The front, the back, the left, the right, the upper and the lower are all based on figure 1 in the attached drawings of the specification, according to the standard of the observation angle of a person, the side of the device facing an observer is defined as the front, the left side of the observer is defined as the left, and the like.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are merely intended to facilitate the description of the present invention and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the scope of the present invention.

The foregoing shows and describes the general principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A high performance 5G router, characterized by: the device comprises a shell (1), a group of data transceivers (2), a routing processor (3), a group of data ports (11), a data line plug (4), a locking module (5) and a USB socket (6); a routing processor (3) is fixedly connected with the middle position in the shell (1); each data transceiver (2) is uniformly and fixedly connected to one side of the shell (1), and each data transceiver (2) is electrically connected with the routing processor (3); each data port (11) is uniformly arranged at the position of the shell (1) corresponding to the data transceiver (2), and the data ports (11) are electrically connected with the routing processor (3); the USB socket (6) is arranged on one side of the data port (11); a locking module (5) is installed on the inner wall of each data port (11), and each data port (11) is connected with a data line plug (4); the locking module (5) comprises a first annular groove (12) and a U-shaped rod (13); the inner walls of the data ports (11) which are symmetrical along the data line plug (4) are respectively provided with a first annular groove (12), and a U-shaped rod (13) is rotatably installed in each first annular groove (12); when the data line plug (4) is not inserted into the data port (11), two ends of each U-shaped rod (13) are arranged in the data port (11);

arc-shaped grooves (41) are formed in one sides, corresponding to the U-shaped rods (13), of the data line plugs (4); when the data line plug (4) is inserted into the data port (11), one end of the U-shaped rod (13) far away from the routing processor (3) is inserted into the arc-shaped groove (41); the cross section of each arc-shaped groove (41) is in an ear shape, each arc-shaped groove (41) consists of an arc a and a straight line b, the straight line b is tangent to the arc a, and the radius of the arc a is larger than that of the arc at one end of the U-shaped rod (13) entering the arc-shaped groove (41);

a first air bag (42) is arranged in each arc-shaped groove (41); and no gas is in the first air bag (42) in the initial state; a second air bag (43) is arranged at the pressing position of the data line plug (4), and the second air bag (43) is filled with gas in the initial state; the first air bag (42) and the second air bag (43) are communicated with each other through an air pipe, and the first air bag (42) is smaller than the second air bag (43).

2. The high-performance 5G router according to claim 1, wherein: one end of the U-shaped rod (13) in the arc-shaped groove (41) is provided with a second annular groove (131), and the opening direction of the second annular groove (131) faces one side of the route processor (3).

3. A high performance 5G router according to claim 2, wherein: a third annular groove (134) is formed in the inner wall of the second annular groove (131) at a position close to the arc-shaped groove (41); no. three annular groove (134) sliding connection have slider (132), and slider (132) link firmly through the spring with No. three annular groove (134) bottom, through the cooperation between No. three annular groove (134), slider (132) and the spring, realize slider (132) reciprocating motion in No. two annular groove (131).

4. A high performance 5G router according to claim 3, characterized by: gear teeth (133) are arranged at the end part of each sliding block (132) close to the arc-shaped groove (41), so that the first air bag (41) is extruded.