CN114844829A

CN114844829A - Double-layer multi-connector-lug 5G router

Info

Publication number: CN114844829A
Application number: CN202210500790.4A
Authority: CN
Inventors: 汪文英
Original assignee: Beijing Sanyueyu Culture Communication Co ltd
Current assignee: Guoke Semiconductor Shenzhen Co ltd
Priority date: 2022-05-10
Filing date: 2022-05-10
Publication date: 2022-08-02
Anticipated expiration: 2042-05-10
Also published as: CN114844829B

Abstract

The invention relates to the technical field of 5G routers, in particular to a double-layer multi-connector-lug 5G router, which comprises a 5G router main body, wherein a first groove is formed in the side wall of the 5G router main body, and the double-layer multi-connector-lug 5G router also comprises: the first fixing plates are fixed on the side wall of the mounting plate in an array mode and are correspondingly positioned below the butt joint ports; the connector lug fixing device is arranged on one side of the turnover part; and the sealing dustproof device is arranged on the other side of the turnover part. This device passes through connector lug fixing device's setting for the circular back that the net twine tip passed arc roll-over stand and enclosed with the slip support frame, extrusion pushing mechanism can promote the connector lug to the direction of router interface, makes the connector lug more stable with being connected of router interface, thereby is favorable to the router to use for a long time or remove the in-process and the net twine that causes to connect unstably.

Description

Double-layer multi-connector-lug 5G router

Technical Field

The invention relates to the field of 5G routers, in particular to a double-layer multi-connector-lug 5G router.

Background

A router is a hardware device that connects two or more networks, acts as a gateway between the networks, and is a dedicated intelligent network device that reads the address in each packet and then decides how to transmit.

The prior art discloses the invention patent in the aspect of a part of 5G router, and Chinese patent with application number CN202110148080.5 discloses a high-performance 5G router, which comprises a shell, a group of data transceivers, a route processor, a group of data ports, a data line plug, a locking module and a USB socket; 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; every U type pole rotates through the pivot and connects in annular groove inner wall intermediate position, realizes U type pole swing in annular groove No. one.

In the modern 5G society, a large amount of 5G routers are used in families and work and life, the routers are often placed in one corner when in use, so that dust entering the interface can exist after the routers are placed in the corners for a long time, on one hand, the dust entering the interior of the routers can cause obstruction to the connection of the interface and a connector lug, on the other hand, the dust can cause poor contact and influence the connection performance, and in addition, after the routers are connected with a network cable, when an operator cleans and moves the positions where the routers are placed, the movement of the routers can cause the situation that the interface is pulled to be loosened. To this end, the present invention proposes a double-layer multi-connector-head 5G router to solve the above problems.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a double-layer multi-connector-head 5G router.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows: the utility model provides a double-deck many connector posts 5G router, includes 5G router main part, set up double-deck a plurality of router interface on the lateral wall of 5G router main part, first recess has been seted up on the lateral wall of 5G router main part, still include:

the mounting plate is fixed inside the first groove;

the butt-joint ports penetrate through the side wall of the mounting plate and are arranged on the side wall of the mounting plate in an array mode, and the butt-joint ports are aligned with the router ports;

the first fixing plates are fixed on the side wall of the mounting plate in an array mode and are correspondingly positioned below the butt joint ports;

the overturning part is rotatably connected to the top of the first fixing plate;

the connector lug fixing device is arranged on one side of the turnover part;

the sealed dustproof device is arranged on the other side of the turnover part;

wherein, upset portion is used for driving connector lug fixing device and sealed dust keeper overturn in step, connector lug fixing device is used for extrudeing the location to the net twine joint of connector lug behind router connection net twine, sealed dust keeper is used for when router does not connect the net twine right the interface seals, sealed dust keeper and connector lug fixing device can carry out the position conversion on upset portion.

Preferably, the turning part comprises a rotating frame and a second fixing plate, the end of the rotating frame is rotatably installed at the top of the first fixing plate, an installation opening is formed in the rotating frame, the turning plate is rotatably installed in the installation opening, and the second fixing plate array is fixed at the top of the side wall of the 5G router body and aligned with the first fixing plate.

Preferably, the connector lug fixing device comprises two first sliding grooves symmetrically arranged at the top of the turnover plate, first sliding blocks are connected inside the two first sliding grooves in a sliding manner, first springs are fixed between one sides of the two first sliding blocks back to the mounting plate and the inner walls of the first sliding grooves, sliding support frames are fixed at the tops of the two first sliding blocks, one end of the top of the sliding support frame is rotatably connected with an arc-shaped roll-over stand, one sides of the sliding support frame and the arc-shaped roll-over stand facing the mounting plate are provided with an extrusion pushing mechanism, the extrusion pushing mechanism is used for extruding and pushing the connector lug to ensure that the connector lug is stably connected when the network cable is connected, a fixing mechanism is arranged between the sliding support frame and the end of the arc-shaped turnover frame which is not rotationally connected, the fixing mechanism is used for fixedly connecting the sliding support frame with the arc-shaped turnover frame.

Preferably, the extrusion pushing mechanism comprises a first arc-shaped pushing plate and a second arc-shaped pushing plate, the first arc-shaped pushing plate is positioned on one side of the sliding support frame, which faces the mounting plate, the second arc-shaped pushing plate is positioned at one side of the arc-shaped turnover frame facing the mounting plate, straight rods are fixed at one sides of the first arc-shaped pushing plate and the second arc-shaped pushing plate back to the mounting plate, the sliding support frame with all run through on the lateral wall of arc roll-over stand seted up a plurality ofly with the corresponding through-hole of straight-bar, whole the straight-bar dorsad the one end of mounting panel is extended away after all passing the through-hole, and is whole the outer lane of straight-bar all overlaps and is equipped with the second spring, is located the top the both ends of second spring respectively with the arc roll-over stand with second arc slurcam fixed connection is located the below the both ends of second spring respectively with first arc slurcam with sliding support frame fixed connection.

Preferably, the fixing mechanism comprises a mounting groove, a first limiting groove and a through hole, the mounting groove is arranged at the bottom of one end of the arc-shaped turnover frame opposite to the rotary joint of the sliding support frame, two first elastic clamping pieces are symmetrically fixed in the mounting groove, a third spring is fixed between the two first elastic clamping pieces, the first limiting groove is arranged at the top of one end of the sliding support frame opposite to the rotary joint of the sliding support frame, the two first elastic clamping pieces are inserted in the first limiting groove in a limiting manner, the through hole is arranged on the side wall of the sliding support frame, two sides of the through hole are communicated with the first limiting groove, a concave pushing block is connected in the through hole in a sliding manner, a fourth spring is fixed between the concave pushing block and the side wall of the through hole, and two ends of the concave pushing block penetrate through two ends of the through hole and extend to the inside of the first limiting groove, a second inclined plane is arranged between the opposite sides of the two end parts of the concave pushing block, and first inclined planes corresponding to the second inclined planes are arranged on the opposite sides of the two first elastic clamping pieces.

Preferably, the opposite sides of the first arc-shaped pushing plate and the sliding support frame and the opposite sides of the arc-shaped overturning frame and the second arc-shaped pushing plate are both provided with second grooves, the inner wall of the second groove is fixedly connected with the straight rod and the second spring which are arranged on the same side, the end parts of the first arc-shaped pushing plate and the second arc-shaped pushing plate which face one sides of the sliding support frame and the arc-shaped turnover frame are both fixed with second elastic clamping pieces, the sliding support frame and the opposite side of the second groove in the arc-shaped roll-over stand are both provided with a second limiting groove, all run through on the lateral wall of second spacing groove and seted up two openings, the slip support frame with the opposite side of arc roll-over stand all is fixed with two butt joint slurcam, the butt joint slurcam passes extend to behind the opening the inside of second spacing groove.

Preferably, first arc pushing plate orientation one side of mounting panel is fixed with first rubber slab, second arc pushing plate orientation one side of mounting panel is fixed with the second rubber slab.

Preferably, sealed dust keeper includes first gasbag, the sealed piece of rubber and the sealed groove of stepping down, first gasbag is fixed in slide support frame with between the first arc slurcam, the sealed piece of rubber is fixed in the returning face plate dorsad one side of first fixed plate, the outer lane of the sealed piece of rubber is fixed with the second gasbag, the sealed groove of stepping down is seted up in on the lateral wall to the interface, the second gasbag with the sealed groove phase-match that steps down, the second gasbag with install sliding connection mechanism between the first gasbag, sliding connection mechanism is used for when connector lug fixing device promotes fixedly the intercommunication the second gasbag with first gasbag, the side intercommunication of first gasbag has one-way mechanism of admitting air, the intercommunication has exhaust mechanism on the surface of second gasbag.

Preferably, the sliding connection mechanism comprises a second chute, the second chute is arranged in the turnover plate, the side wall of the second chute is communicated with one of the first chutes, a second slider is slidably connected in the second chute, the second slider is fixedly connected with the first slider, a connecting through groove is jointly formed in the second slider and the first slider, the inside of the connecting through groove is fixedly communicated with the first air bag through a first connecting pipe, the first connecting pipe is penetratingly arranged in the sliding support frame, a second connecting pipe is fixedly communicated with the side wall of the second slider, the second connecting pipe is located in the second chute, and one end, far away from the second slider, of the second connecting pipe penetrates through the rubber sealing block and then is communicated with the second air bag.

Preferably, the one-way air inlet mechanism comprises an air inlet opening, the air inlet opening is formed in the surface of the sliding support frame, the air inlet opening is fixedly communicated with an air inlet of the first air bag, a first one-way valve is fixedly connected to the inner wall of the air inlet opening, the exhaust mechanism comprises a third connecting pipe, the third connecting pipe is fixedly communicated with the side wall of the second air bag, one end, facing away from the second air bag, of the third connecting pipe sequentially penetrates through the rubber sealing block and the turnover plate and then extends out, and a sealing plug is inserted into one end, facing away from the second air bag, of the third connecting pipe in a threaded manner.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, through the arrangement of the connector lug fixing device, the network cable can be fixedly connected with the sliding support frame to form a stable circle after passing through the arc-shaped turnover frame, so that the circle formed by the arc-shaped turnover frame and the sliding support frame can support and fix the end part of the network cable, after the end part of the network cable passes through the circle formed by the arc-shaped turnover frame and the sliding support frame, the extrusion pushing mechanism can push the connector lug towards the router interface, so that the connection between the connector lug and the router interface is more stable, and the unstable network cable connection caused by the long-time use or the moving process of the router can be avoided.

2. According to the invention, through the arrangement of the sealing dustproof device, the first air bag is continuously and circularly compressed and reset, and the interior of the second air bag is inflated, so that the second air bag is extruded to seal the abdicating groove after being expanded, the interface is sealed, dust is difficult to enter when the router interface is not connected with a network cable, and adverse effects on the connection performance of the network cable after the dust enters the interior of the router interface 4 are favorably avoided.

3. According to the invention, through the arrangement of the turnover part, the rotating frame is matched and connected with the butt joint port, when the connector lug fixing device is required to be used, the rotating frame rotates to a horizontal state, so that a network cable port can pass through the connector lug fixing device for fixed installation, the installation port can rotate and install the turnover plate, when the sealed dustproof device is required to be used, the turnover plate enables the sealed dustproof device to be used upwards, when the connector lug fixing device is required to be used, the turnover plate enables the connector lug fixing device to be used upwards, so that the state switching can be favorably carried out when the network cable is plugged and used and when the network cable is not plugged and used, and the adjustment according to different use states is facilitated, and the unstable connection of the network cable is avoided.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural diagram of the G-router of the present invention after the edge section;

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

FIG. 4 is a schematic structural view of the mounting plate of the present invention after being sectioned;

FIG. 5 is an enlarged view of a portion of the structure of FIG. 4B;

FIG. 6 is an enlarged view of a portion of the structure of FIG. 5 at C;

FIG. 7 is a schematic top sectional view of the roll-over frame and roll-over panel of the present invention;

FIG. 8 is an enlarged view of a portion of the structure of FIG. 7 at D in accordance with the present invention;

FIG. 9 is a schematic end sectional view of the roll-over frame and roll-over panel of the present invention;

FIG. 10 is an enlarged view of a portion of FIG. 9 at E in accordance with the teachings of the present invention;

FIG. 11 is a schematic structural view of the sliding support and the arc-shaped roll-over stand of the present invention after being sectioned;

FIG. 12 is an enlarged view of a portion of FIG. 11 at F in accordance with the teachings of the present invention;

FIG. 13 is a schematic structural view of the sliding support frame, the arc-shaped roll-over stand, the first arc-shaped push plate and the second arc-shaped push plate after being sectioned;

FIG. 14 is an enlarged view of a portion of the structure of FIG. 13 at G in accordance with the present invention;

FIG. 15 is a schematic side sectional view of the sliding support and the arc roll-over stand of the present invention;

fig. 16 is a partially enlarged view of the structure at H in fig. 15 according to the present invention.

In the figure: 1. a 5G router body; 2. a first groove; 3. mounting a plate; 4. a router interface; 5. a butt joint port; 6. a first fixing plate; 7. a rotating frame; 8. an installation port; 9. a turnover plate; 10. a first chute; 11. a first slider; 12. a first spring; 13. a sliding support frame; 14. an arc-shaped roll-over stand; 15. a first arcuate pusher plate; 16. a second arc-shaped pushing plate; 17. a second groove; 18. a straight rod; 19. a through hole; 20. a second spring; 21. mounting grooves; 22. a first elastic fastener; 23. a first inclined surface; 24. a third spring; 25. a first limit groove; 26. a through opening; 27. a concave pushing block; 28. a fourth spring; 29. a second inclined surface; 30. a second elastic fastener; 31. a second limit groove; 32. butting a pushing plate; 33. a port; 34. a first rubber sheet; 35. a second rubber sheet; 36. a first air bag; 37. a first check valve; 38. a first connecting pipe; 39. a second slider; 40. connecting the through grooves; 41. a second chute; 42. a second connecting pipe; 43. a second one-way valve; 44. a second air bag; 45. a third connecting pipe; 46. a sealing plug; 47. a second fixing plate; 48. sealing the abdicating groove; 49. and (4) a rubber sealing block.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

As shown in fig. 1 to 16, a double-layer multi-connector-lug 5G router includes a 5G router body 1, a plurality of double-layer router interfaces 4 are arranged on the side wall of the 5G router body 1, a first groove 2 is arranged on the side wall of the 5G router body 1, and the router is characterized by further comprising:

the mounting plate 3 is fixed inside the first groove 2;

the interface 5, the interface 5 runs through the array and opens on the sidewall of the mounting panel 3, the interface 5 is aligned with interface 4 of the router;

the first fixing plates 6 are fixed on the side wall of the mounting plate 3 in an array mode, and the first fixing plates 6 are correspondingly positioned below the butt joint ports 5;

the overturning part is rotatably connected to the top of the first fixing plate 6;

the connector lug fixing device is arranged on one side of the turnover part;

the sealing dustproof device is arranged on the other side of the turnover part;

the turnover part is used for driving the connector lug fixing device and the sealing dustproof device to synchronously turn over, the connector lug fixing device is used for extruding and positioning a network cable connector of the connector lug after a router is connected with a network cable, the sealing dustproof device is used for sealing the interface 5 when the router is not connected with the network cable, and the sealing dustproof device and the connector lug fixing device can perform position conversion on the turnover part; in work, in the modern 5G society, a large number of 5G routers are used in families and work and life, and the routers are often placed in one corner in use, so that dust enters the interface after the routers are placed in the corner for a long time, on one hand, the dust entering the interior of the router can obstruct the connection between the interface and the connector, on the other hand, the dust can cause poor contact, and the connection performance is affected, and after the routers are connected with a network cable, when an operator cleans and moves the positions where the routers are placed, the movement of the routers can cause the interface to be pulled and loosened, so that the connection between the routers and the connector is loosened in the use process, and the router is unstable in use, the embodiment of the invention can solve the above problems, and the specific implementation mode is as follows, the 5G router body 1 is the router working body, the first groove 2 provides space for installation of the installation plate 3, the router interface 4 can facilitate connection work of the 5G router main body 1 and a network cable, the butt joint port 5 is aligned with the router interface 4 and can facilitate installation of the connector lug fixing device, the first fixing plate 6 can install the turnover part, the turnover part can replace the connector lug fixing device and the sealing dustproof device through turnover, when the network cable is not spliced, the sealing dustproof device faces the installation plate 3 through turnover, the sealing dustproof device seals the butt joint port 5, dust is prevented from entering the butt joint port 5 to be accumulated, connection between the connector lug and the butt joint port 5 and connection between the router interface 4 are unstable when the network cable is connected in a later period due to accumulation of the dust in the butt joint port 5, and the connector lug fixing device faces the installation plate 3 through turnover after connection of the network cable, the connector lug fixing device pushes the connector lug to be fixed, so that the connector lug can be supported and fixed when being connected with the interface 5 and the router interface 4, stable connection of a network cable connector is facilitated, and pulling and separation in the router moving process are avoided.

As an embodiment of the present invention, the turning part includes a rotating frame 7 and a second fixing plate 47, the end of the rotating frame 7 is rotatably mounted on the top of the first fixing plate 6, a mounting opening 8 is opened in the rotating frame 7, a turning plate 9 is rotatably mounted in the mounting opening 8, and the second fixing plate 47 is fixed on the top of the side wall of the 5G router body 1 in an array and aligned with the first fixing plate 6; when the connector fixing device is needed, the wire connector fixing device is used upwards by turning the turning plate 9, so that the state switching is favorably carried out in the plugging use process of the network cables and when the network cables are not plugged for use, the adjustment can be carried out according to different use states, can fix a position the connector lug after connecting on the one hand, avoid the connection of net twine unstable, on the other hand can shelter from for not connecting interface 5, avoid the dust to get into, lower row of rotating frame 7 is when upset to vertical state, support fixedly through connector lug fixing device and the first fixed plate 6 bottom counterbalance of last row, the rotating frame 7 of last row is when upset to vertical state, it is spacing to realize supporting rotating frame 7's state through connector lug fixing device and the counterbalance of second fixed plate 47 bottom.

As an embodiment of the invention, the connector lug fixing device comprises two first sliding grooves 10, the two first sliding grooves 10 are symmetrically arranged at the top of the turnover plate 9, the insides of the two first sliding grooves 10 are connected with first sliding blocks 11 in a sliding manner, first springs 12 are fixed between one sides of the two first sliding blocks 11, which are back to the mounting plate 3, and the inner walls of the first sliding grooves 10, sliding support frames 13 are fixed at the tops of the two first sliding blocks 11, one ends of the tops of the sliding support frames 13 are rotatably connected with arc turnover frames 14, extrusion pushing mechanisms are installed at one sides of the sliding support frames 13 and the arc turnover frames 14, which face the mounting plate 3, the extrusion pushing mechanisms are used for extruding and pushing the connector lug to enable the connector lug to be stably connected when a network cable is connected, a fixing mechanism is installed between the ends of the sliding support frames 13 and the arc turnover frames 14, and the fixing mechanism is used for fixedly connecting the sliding support frames 13 and the arc turnover frames 14; during operation, the first sliding block 11 can slide in the first sliding groove 10, the sliding of the first sliding block 11 drives the sliding support frame 13 to move, the first spring 12 can push the first sliding block 11 through the elastic force of the first spring 12, so that an operator can push the first sliding block 11 to move towards the first spring 12, so that the first sliding block 11 gives way, the first spring 12 compressed after the insertion and installation of the network cable pushes the first sliding block 11 to move towards the mounting plate 3, so that the sliding support frame 13 is driven by the first sliding block 11 to move towards the mounting plate 3 to support the end of the network cable, the sliding support frame 13 is rotatably connected with the arc-shaped turning frame 14, so that the operator can open the arc-shaped turning frame 14 and the sliding support frame 13 by rotating the arc-shaped turning frame 14, so that the network cable can pass through the circle surrounded by the arc-shaped turning frame 14 and the sliding support frame 13, fixing mechanism can be at the tip of fixed arc roll-over stand 14 and slip support frame 13, it can stable circular to make the net twine pass back arc roll-over stand 14 and slip support frame 13 and form fixed circular, thereby make the circular that arc roll-over stand 14 and slip support frame 13 enclose to support fixedly to the tip of net twine, the net twine tip passes the circular back that arc roll-over stand 14 and slip support frame 13 enclose, extrusion pushing mechanism can promote the connector lug to router interface 4's direction, make connector lug and router interface 4's being connected more stable, thereby be favorable to avoiding the router to use or remove the in-process for a long time and the net twine connection that causes unstable.

As an embodiment of the invention, the extrusion pushing mechanism comprises a first arc pushing plate 15 and a second arc pushing plate 16, the first arc pushing plate 15 is located on one side of the sliding support frame 13 facing the mounting plate 3, the second arc pushing plate 16 is located on one side of the arc turning frame 14 facing the mounting plate 3, straight rods 18 are fixed on one sides of the first arc pushing plate 15 and the second arc pushing plate 16 facing away from the mounting plate 3, a plurality of through holes 19 corresponding to the straight rods 18 are formed in the side walls of the sliding support frame 13 and the arc turning frame 14 in a penetrating manner, one ends of all the straight rods 18 facing away from the mounting plate 3 extend out after penetrating through the through holes 19, second springs 20 are sleeved on the outer rings of all the straight rods 18, two ends of the second spring 20 located above are fixedly connected with the arc turning frame 14 and the second arc pushing plate 16 respectively, and two ends of the second spring 20 located below are fixedly connected with the first arc pushing plate 15 and the sliding support frame 13 respectively; during operation, after the net twine is connected, the operator connects sliding support frame 13 and arc roll-over stand 14 through fixed establishment, first arc pushing plate 15 and second arc pushing plate 16 of sliding support frame 13 and arc roll-over stand 14 side installation push the connector lug under the elasticity pushing action of second spring 20, make the connector lug promote after more stable with being connected of router interface 4, be favorable to avoiding the net twine to drop in long-term connection use through the pushing action that lasts simultaneously, and consolidate the connection through the effect that promotes, be favorable to avoiding the removal in-process of router and the net twine that causes connects unstably, straight-bar 18 pegs graft in the inside of through-hole 19, make first arc pushing plate 15 and second arc pushing plate 16 of straight-bar 18 end connection keep the removal of horizontal state in the removal in-process, thereby be favorable to avoiding net twine that first arc pushing plate 15 and second arc pushing plate 16 from to the offset of the pushing force direction of connector lug and cause to take off the net twine and take off And therefore, after the network cables are connected, the first arc-shaped pushing plate 15 and the second arc-shaped pushing plate 16 always keep the trend of pushing the network cables to move towards the router interface 4, and therefore, the network cables are always kept stably connected for a long time.

As an embodiment of the invention, the fixing mechanism comprises an installation groove 21, a first limiting groove 25 and a through hole 26, the installation groove 21 is arranged at the bottom of one end of the arc-shaped roll-over stand 14 opposite to the rotary joint of the sliding support frame 13, two first elastic clamping pieces 22 are symmetrically fixed inside the installation groove 21, a third spring 24 is fixed between the two first elastic clamping pieces 22, the first limiting groove 25 is arranged at the top of one end of the sliding support frame 13 opposite to the rotary joint of the sliding support frame 13, the two first elastic clamping pieces 22 are limited and inserted inside the first limiting groove 25, the through hole 26 is arranged on the side wall of the sliding support frame 13, two sides of the through hole 26 are communicated with the first limiting groove 25, a concave pushing block 27 is connected inside the through hole 26 in a sliding manner, a fourth spring 28 is fixed between the concave pushing block 27 and the side wall of the through hole 26, two ends of the concave pushing block 27 extend to the inside of the first limiting groove 25, a second inclined plane 29 is arranged between the opposite sides of the two end parts of the concave pushing block 27, and the opposite sides of the two first elastic clamping pieces 22 are provided with first inclined planes 23 corresponding to the second inclined planes 29; when the sliding support frame 13 and the arc-shaped turnover frame 14 are combined to form a circular shape, the arc-shaped turnover frame 14 drives the first elastic clamping piece 22 to turn over and then move towards the first limiting groove 25, the edge of the first limiting groove 25 presses the bottom of the first elastic clamping piece 22 to approach each other, so that the first elastic clamping piece 22 is gradually inserted into the first limiting groove 25, the bottom of the first elastic clamping piece 22 is inserted into the first limiting groove 25 and then is separated away from each other under the action of the elastic force of the third spring 24, so that the first elastic clamping piece 22 is inserted into the first limiting groove 25 to be limited and fixed, the sliding support frame 13 and the arc-shaped turnover frame 14 are fixedly connected, when the sliding support frame 13 and the arc-shaped turnover frame 14 need to be loosened, an operator pushes the concave pushing block 27, and the concave pushing block 27 moves along the through hole 26, the second inclined plane 29 at the end of the concave pushing block 27 pushes the first inclined plane 23, so that the first inclined plane 23 drives the bottoms of the two first elastic clamping pieces 22 to be close to each other after being pushed, so that the first elastic clamping pieces 22 can be removed from the inside of the first limiting groove 25, the concave pushing block 27 is loosened by an operator, the concave pushing block 27 is reset under the pushing of the elastic force of the fourth spring 28, so that the sliding support frame 13 and the arc-shaped turning frame 14 can be turned and unfolded, so that the sliding support frame 13 and the arc-shaped turning frame 14 can be fixed to fix the end of the cable after being close to each other, and the fixing action can be released when the cable is required to be detached, so that the sliding support frame 13 and the arc-shaped turning frame 14 can be turned and unfolded, and the installation of the end of the cable by the operator is facilitated.

As an embodiment of the invention, the opposite sides of the first arc-shaped pushing plate 15 and the sliding support frame 13 and the opposite sides of the arc-shaped turning frame 14 and the second arc-shaped pushing plate 16 are both provided with a second groove 17, the inner walls of the second grooves 17 are both fixedly connected with a straight rod 18 and a second spring 20 which are on the same side, the ends of the first arc-shaped pushing plate 15 and the second arc-shaped pushing plate 16 facing the sliding support frame 13 and the arc-shaped turning frame 14 are both fixed with a second elastic clamping piece 30, the opposite sides of the second grooves 17 inside the sliding support frame 13 and the arc-shaped turning frame 14 are both provided with a second limiting groove 31, the side wall of the second limiting groove 31 is both provided with two through holes 33, the opposite sides of the sliding support frame 13 and the arc-shaped turning frame 14 are both fixed with two abutting pushing plates 32, and the abutting pushing plates 32 extend to the inside of the second limiting groove 31 after passing through the through holes 33; in the working process, in the process of connecting the network cable, the butt joint state of the first arc-shaped pushing plate 15 and the second arc-shaped pushing plate 16 with the sliding support frame 13 and the arc-shaped turning frame 14 respectively occupies the butt joint operation space of the connector of the network cable and the router interface 4, so that the network cable is inconvenient to connect, the embodiment of the invention can solve the problems, in the specific implementation mode, when an operator connects the network cable and needs to avoid the elastic pushing of the first arc-shaped pushing plate 15 and the second arc-shaped pushing plate 16, the operator pushes the elasticity of the first arc-shaped pushing plate 15 and the second arc-shaped pushing plate 16 to push the sliding support frame 13 and the arc-shaped turning frame 14 to be close, the movement of the first arc-shaped pushing plate 15 and the second arc-shaped pushing plate 16 drives the second elastic clamping piece 30 to move, the second elastic clamping piece 30 moves to be close to the second limiting groove 31, the edge of the second limiting groove 31 pushes the arc-shaped surface of the second elastic clamping piece 30, the second elastic clamping piece 30 is deformed and then inserted into the second limiting groove 31 for limiting and clamping, so that the sliding support frame 13 and the arc-shaped turning frame 14 are limited and fixed, the sliding support frame 13 and the arc-shaped turning frame 14 cannot cause adverse effects on the operation of an operator due to the elastic pushing of the second spring 20, when the operator finishes the operation and turns over the arc-shaped turning frame 14 to fix the sliding support frame 13 and the arc-shaped turning frame 14, the sliding support frame 13 and the arc-shaped turning frame 14 are close to each other, so that the butt joint pushing plate 32 passes through the through hole 33 and then is inserted into the second limiting groove 31, so that the butt joint pushing plate 32 pushes the second elastic clamping piece 30 in the second limiting groove 31 after being inserted into the second limiting groove 31, so that the second elastic clamping piece 30 is separated from the second limiting groove 31, so that the fixing of the first arc-shaped pushing plate 15 and the second arc-shaped pushing plate 16 is released and the connector is pushed after the fixing is released, the extrusion location to the butt joint head is realized to be favorable to avoiding first arc pushing plate 15 and second arc pushing plate 16 to cause the hindrance when the operator installs the net twine, and be favorable to first arc pushing plate 15 and second arc pushing plate 16 to remove the joint automatically after the net twine installation finishes spacingly, and resume first arc pushing plate 15 and second arc pushing plate 16 to the extrusion location of butt joint head.

As an embodiment of the present invention, a first rubber plate 34 is fixed to a side of the first arc-shaped pushing plate 15 facing the mounting plate 3, and a second rubber plate 35 is fixed to a side of the second arc-shaped pushing plate 16 facing the mounting plate 3; in the specific implementation mode, when the first arc-shaped pushing plate 15 and the second arc-shaped pushing plate 16 push the net wire port, the first rubber plate 34 and the second rubber plate 35 are attached to the mounting plate 3, so that the first rubber plate 34 and the second rubber plate 35 shield the gap between the net wire and the butt joint port 5, and therefore the router is favorably prevented from entering the gap between the butt joint port 5 and the net wire connector, the interference of dust on the butt joint wire is reduced, and the original connection environment is favorably maintained.

As an embodiment of the invention, the sealing and dust-preventing device comprises a first air bag 36, a rubber sealing block 49 and a sealing and abdicating groove 48, the first air bag 36 is fixed between the sliding support frame 13 and the first arc-shaped pushing plate 15, the rubber sealing block 49 is fixed on one side of the turnover plate 9, which is back to the first fixing plate 6, a second air bag 44 is fixed on the outer ring of the rubber sealing block 49, the sealing and abdicating groove 48 is arranged on the side wall of the butt joint 5, the second air bag 44 is matched with the sealing and abdicating groove 48, a sliding connection mechanism is installed between the second air bag 44 and the first air bag 36, the sliding connection mechanism is used for communicating the second air bag 44 and the first air bag 36 while the connector fixing device pushes and fixes, a one-way air inlet mechanism is communicated with the side surface of the first air bag 36, and an air outlet mechanism is communicated with the surface of the second air bag 44; during operation, after the operator turns over the turnover plate 9, the rubber sealing block 49 is inserted into the butt joint port 5, then the operator presses the sliding support frame 13 and the first arc-shaped push plate 15, the sliding support frame 13 and the first arc-shaped push plate 15 are pressed to drive the first air bag 36 to be compressed, air flow is pushed by the ventilation mechanism to enter the second air bag 44 along the sliding connection mechanism in the compression process of the first air bag 36, after the first air bag 36 is compressed, the operator loosens the sliding support frame 13 and the first arc-shaped push plate 15 to enable the first air bag 36 to reset under the elastic action of the second spring 20, the ventilation mechanism inflates the inside of the first air bag 36 in the resetting process of the first air bag 36, so that the first air bag 36 is continuously and circularly compressed and reset, the inside of the second air bag 44 is inflated, and the sealing abdicating groove 48 is squeezed after the second air bag 44 is expanded, the interface 5 is sealed, so that dust is difficult to enter when the router interface 4 is not connected with the network cable, and adverse effects on the connection performance of the network cable after the dust enters the router interface 4 are avoided.

As an embodiment of the present invention, the sliding connection mechanism includes a second sliding chute 41, the second sliding chute 41 is opened inside the flipping board 9, a side wall of the second sliding chute 41 is communicated with one of the first sliding chutes 10, a second sliding block 39 is slidably connected inside the second sliding chute 41, the second sliding block 39 is fixedly connected with the first sliding block 11, a connection through slot 40 is opened in the second sliding block 39 and the first sliding block 11 together, the inside of the connection through slot 40 is fixedly communicated with the first air bag 36 through a first connection pipe 38, the first connection pipe 38 is installed inside the sliding support frame 13 in a penetrating manner, a second connection pipe 42 is fixedly communicated with a side wall of the second sliding block 39, the second connection pipe 42 is located inside the second sliding chute 41, and one end of the second connection pipe 42, which is far away from the second sliding block 39, is communicated with the second air bag 44 after penetrating through a rubber sealing block 49; during operation, the first connecting pipe 38 can communicate the first air bag 36 and the connecting through groove 40, the connecting through groove 40 is arranged inside the second sliding block 39 and the first sliding block 11 and can communicate the first connecting pipe 38 and the second connecting pipe 42, the second connecting pipe 42 can communicate the second sliding block 39 and the second air bag 44, so that air flow can drive the air flow to enter the inside of the second air bag 44 along the first connecting pipe 38, the connecting through groove 40 and the second connecting pipe 42 under the action of the ventilation mechanism, so that the inside of the second air bag 44 is inflated and expanded, sealing of the interface 5 is facilitated, the second sliding groove 41 can provide a space for sliding of the second sliding block 39, the second sliding groove 41 is communicated with the first sliding groove 10, the first sliding block 11 drives the second sliding block 39 to slide inside the second sliding groove 41 while sliding inside the first sliding groove 10, so that the second air bag 44 can be always kept communicated with the first air bag 36 by movement of the second sliding block 39 when the first sliding block 11 moves, thereby be favorable to inflating the inside of first gasbag 36 through the inflation and the compression of first gasbag 36 to be favorable to carrying out the sealed of interface 5 through the inflation of first gasbag 36, thereby realize keeping apart the dust with inside the interface 5, reduce the entering of dust.

As an embodiment of the present invention, the one-way air inlet mechanism includes an air inlet opening, the air inlet opening is opened on the surface of the sliding support frame 13, and the air inlet opening is fixedly communicated with the air inlet of the first air bag 36, the inner wall of the air inlet opening is fixedly connected with the first one-way valve 37, the air outlet mechanism includes a third connecting pipe 45, the third connecting pipe 45 is fixedly communicated on the side wall of the second air bag 44, one end of the third connecting pipe 45, which is back to the second air bag 44, sequentially penetrates through the rubber sealing block 49 and the turnover plate 9 and then extends out, and one end of the third connecting pipe 45, which is back to the second air bag 44, is inserted with a sealing plug 46 through a thread; during operation, an operator presses the first arc-shaped push plate 15 and the sliding support frame 13, when the first arc-shaped push plate 15 approaches the sliding support frame 13, the first air bag 36 is compressed, air in the first air bag 36 cannot be discharged through the first one-way valve 37 under the action of pressure, the air enters the second air bag 44 along the first connecting pipe 38, the connecting through groove 40, the second connecting pipe 42 and the second one-way valve 43 in the second connecting pipe 42, then the operator loosens the first arc-shaped push plate 15 and the sliding support frame 13, the first arc-shaped push plate 15 and the sliding support frame 13 are far away from each other under the action of the elastic force of the second spring 20, so that the first air bag 36 gradually recovers, in the recovery process of the first air bag 36, air flow cannot pass through due to the one-way action of the second one-way valve 43, so that the air flow enters the first air bag 36 along the first one-way valve 37, the first air bag 36 is re-expanded, so that the flowing ventilation of the air flow is completed in the compression and recovery processes of the first air bag 36, the inflation of the inside of the second air bag 44 is facilitated, when the router interface 4 needs to be used, an operator rotates the sealing plug 46 to loosen the sealing plug 46, then pulls the rubber sealing block 49, so that the rubber sealing block 49 drives the second air bag 44 to move out from the inside of the docking port 5, the second air bag 44 is squeezed in the moving-out process, the air in the second air bag 44 is exhausted along the third connecting pipe 45, the second air bag 44 is moved out after being compressed, the sealing is cancelled, therefore, the sealing and the opening of the docking port 5 can be realized, the sealing is realized when the router interface 4 is not used, and the network cable connection can be switched to be opened when the router interface 4 is used.

The working principle of the invention is as follows: in the modern 5G society, a large number of 5G routers are used in homes and work and life, and when the routers are used, the routers are often placed in a corner, so that dust enters the corner for a long time, on one hand, the dust entering the interior of the routers can obstruct the connection between the interface and the connector, on the other hand, the dust can cause bad contact, and the connection performance is affected, and, after the routers are connected with a network cable, when an operator cleans and moves the position where the routers are placed, the movement of the routers can cause the interface to be pulled and loosened, so that the connection between the routers and the connector is loosened during the use, and the router is unstable in use, the embodiment of the invention can solve the above problems, and the specific implementation mode is as follows, the 5G router main body 1 is a router working main body, the first groove 2 provides space for installation of the installation plate 3, the router interface 4 can facilitate connection work of the 5G router main body 1 and a network cable, the butt joint port 5 is aligned with the router interface 4 and can facilitate installation of the connector lug fixing device, the first fixing plate 6 can install the turnover part, the turnover part can replace the connector lug fixing device and the sealing dustproof device through turnover, when the network cable is not spliced, the sealing dustproof device faces the installation plate 3 through turnover, the sealing dustproof device seals the butt joint port 5, dust is prevented from entering the butt joint port 5 to be accumulated, connection between the connector lug and the butt joint port 5 and connection between the router interface 4 are unstable when the network cable is connected in a later period due to accumulation of the dust in the butt joint port 5, and the connector lug fixing device faces the installation plate 3 through turnover after connection of the network cable, the connector lug fixing device pushes the connector lug to be fixed, so that the connector lug can be supported and fixed when being connected with the interface 5 and the router interface 4, stable connection of a network cable connector is facilitated, and pulling and separation in the router moving process are avoided.

The foregoing shows and describes the general principles, essential 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 merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined by the appended claims and their equivalents.

Claims

1. The utility model provides a double-deck many connector terminals 5G router, includes 5G router main part (1), set up double-deck a plurality of router interface (4) on the lateral wall of 5G router main part (1), first recess (2) have been seted up on the lateral wall of 5G router main part (1), its characterized in that still includes:

the mounting plate (3), the said mounting plate (3) is fixed to the inside of the said first groove (2);

the butt-joint ports (5) penetrate through the side wall of the mounting plate (3) in an array mode, and the butt-joint ports (5) are aligned with the router ports (4);

the first fixing plates (6) are fixed on the side wall of the mounting plate (3) in an array mode, and are correspondingly positioned below the butt joint ports (5);

the overturning part is rotatably connected to the top of the first fixing plate (6);

the connector lug fixing device is arranged on one side of the turnover part;

wherein, upset portion is used for driving connector lug fixing device and sealed dust keeper overturn in step, connector lug fixing device is used for extrudeing the location to the net twine joint of connector lug behind router connection net twine, sealed dust keeper is used for when router does not connect the net twine right interface (5) seal, sealed dust keeper and connector lug fixing device can carry out the position conversion on upset portion.

2. The double-layer multi-connector 5G router according to claim 1, wherein the turning part comprises a rotating frame (7) and a second fixing plate (47), the end of the rotating frame (7) is rotatably mounted on the top of the first fixing plate (6), a mounting opening (8) is formed in the rotating frame (7), a turning plate (9) is rotatably mounted in the mounting opening (8), and the second fixing plate (47) is fixed on the top of the side wall of the 5G router body (1) in an array and aligned with the first fixing plate (6).

3. The double-layer multi-connector 5G router according to claim 2, wherein the connector fixing device comprises two first sliding grooves (10), the two first sliding grooves (10) are symmetrically arranged at the top of the turnover plate (9), first sliding blocks (11) are respectively connected inside the two first sliding grooves (10) in a sliding manner, first springs (12) are respectively fixed between one side of the two first sliding blocks (11) back to the mounting plate (3) and the inner wall of the first sliding grooves (10), sliding support frames (13) are fixed at the tops of the two first sliding blocks (11), an arc-shaped turnover frame (14) is rotatably connected at one end of the top of each sliding support frame (13), and an extrusion pushing mechanism is installed on the sliding support frame (13) and one side of the arc-shaped turnover frame (14) facing the mounting plate (3), extrusion pushing mechanism is used for the extrusion when the net twine is connected and promotes the connector lug and make it connect stably, sliding support frame (13) with install fixed establishment between arc roll-over stand (14) the one end of not rotating the connection, fixed establishment is used for right sliding support frame (13) with carry out fixed connection between arc roll-over stand (14).

4. The double-layer multi-connector 5G router according to claim 3, wherein the extrusion pushing mechanism comprises a first arc-shaped pushing plate (15) and a second arc-shaped pushing plate (16), the first arc-shaped pushing plate (15) is located on one side of the sliding support frame (13) facing the mounting plate (3), the second arc-shaped pushing plate (16) is located on one side of the arc-shaped turning frame (14) facing the mounting plate (3), a straight rod (18) is fixed on one side of the first arc-shaped pushing plate (15) and one side of the second arc-shaped pushing plate (16) facing away from the mounting plate (3), a plurality of through holes (19) corresponding to the straight rod (18) are formed in the side walls of the sliding support frame (13) and the arc-shaped turning frame (14) in a penetrating manner, and one ends of the straight rods (18) facing away from the mounting plate (3) extend out after passing through the through holes (19), all the outer rings of the straight rods (18) are sleeved with second springs (20), the two ends of the second springs (20) located above are fixedly connected with the arc-shaped turning frames (14) and the second arc-shaped pushing plates (16) respectively, and the two ends of the second springs (20) located below are fixedly connected with the first arc-shaped pushing plates (15) and the sliding support frames (13) respectively.

5. The double-layer multi-connector 5G router according to claim 3, wherein the fixing mechanism comprises a mounting groove (21), a first limiting groove (25) and a through hole (26), the mounting groove (21) is arranged at the bottom of one end of the arc-shaped turning frame (14) opposite to the rotary joint of the sliding support frame (13), two first elastic clamping pieces (22) are symmetrically fixed in the mounting groove (21), a third spring (24) is fixed between the two first elastic clamping pieces (22), the first limiting groove (25) is arranged at the top of one end of the sliding support frame (13) opposite to the rotary joint of the sliding support frame (13), the two first elastic clamping pieces (22) are inserted in the first limiting groove (25) in a limiting manner, and the through hole (26) is arranged on the side wall of the sliding support frame (13), the two sides of the through opening (26) are communicated with the first limiting groove (25), the inner portion of the through opening (26) is slidably connected with a concave pushing block (27), the concave pushing block (27) is fixed with a fourth spring (28) between the side walls of the through opening (26), two ends of the concave pushing block (27) penetrate through two ends of the through opening (26) and extend to the inner portion of the first limiting groove (25), a second inclined plane (29) is formed between the opposite sides of the two ends of the concave pushing block (27), and two opposite sides of the first elastic clamping piece (22) are provided with first inclined planes (23) corresponding to the second inclined planes (29).

6. The double-layer multi-connector-lug 5G router according to claim 4, wherein the opposite sides of the first arc-shaped pushing plate (15) and the sliding support frame (13) and the opposite sides of the arc-shaped turning frame (14) and the second arc-shaped pushing plate (16) are respectively provided with a second groove (17), the inner wall of the second groove (17) is fixedly connected with the straight rod (18) and the second spring (20) which are arranged on the same side, the end parts of the first arc-shaped pushing plate (15) and the second arc-shaped pushing plate (16) facing the sliding support frame (13) and the arc-shaped turning frame (14) are respectively fixed with a second elastic clamping piece (30), the opposite sides of the second groove (17) in the sliding support frame (13) and the arc-shaped turning frame (14) are respectively provided with a second limiting groove (31), the side wall of the second limiting groove (31) is respectively provided with two through holes (33), two butt joint pushing plates (32) are fixed on the opposite sides of the sliding support frame (13) and the arc-shaped turnover frame (14), and the butt joint pushing plates (32) penetrate through the through holes (33) and then extend into the second limiting grooves (31).

7. The double-layer multi-connector-head 5G router as claimed in claim 4, wherein a first rubber plate (34) is fixed to one side of the first arc-shaped pushing plate (15) facing the mounting plate (3), and a second rubber plate (35) is fixed to one side of the second arc-shaped pushing plate (16) facing the mounting plate (3).

8. The double-layer multi-connector-head 5G router according to claim 4, wherein the sealing dust-proof device comprises a first air bag (36), a rubber sealing block (49) and a sealing abdicating groove (48), the first air bag (36) is fixed on the sliding support frame (13) and between the first arc-shaped pushing plates (15), the rubber sealing block (49) is fixed on the turnover plate (9) facing away from one side of the first fixing plate (6), the outer ring of the rubber sealing block (49) is fixed with a second air bag (44), the sealing abdicating groove (48) is opened on the side wall of the interface (5), the second air bag (44) is matched with the sealing abdicating groove (48), a sliding connection mechanism is installed between the second air bag (44) and the first air bag (36), and the sliding connection mechanism is used for communicating the second air bag (44) with the connector-head fixing device while pushing fixation The side surface of the first air bag (36) is communicated with a one-way air inlet mechanism, and the surface of the second air bag (44) is communicated with an air outlet mechanism.

9. The double-layer multi-connector 5G router according to claim 8, wherein the sliding connection mechanism comprises a second sliding groove (41), the second sliding groove (41) is arranged inside the flip plate (9), the side wall of the second sliding groove (41) is communicated with one of the first sliding grooves (10), a second sliding block (39) is connected inside the second sliding groove (41) in a sliding manner, the second sliding block (39) is fixedly connected with the first sliding block (11), the second sliding block (39) and the first sliding block (11) are provided with a connecting through groove (40) together, the inside of the connecting through groove (40) is fixedly communicated with the first air bag (36) through a first connecting pipe (38), the first connecting pipe (38) is installed inside the sliding support frame (13) in a penetrating manner, and the side wall of the second sliding block (39) is fixedly communicated with a second connecting pipe (42), the second connecting pipe (42) is located inside the second sliding groove (41), and one end, far away from the second sliding block (39), of the second connecting pipe (42) penetrates through the rubber sealing block (49) and then is communicated with the second air bag (44).

10. The two-layer multi-tap 5G router of claim 9, the one-way air inlet mechanism comprises an air inlet opening, the air inlet opening is arranged on the surface of the sliding support frame (13), the air inlet opening is fixedly communicated with an air inlet of the first air bag (36), the inner wall of the air inlet opening is fixedly connected with a first one-way valve (37), the exhaust mechanism comprises a third connecting pipe (45), the third connecting pipe (45) is fixedly communicated with the side wall of the second air bag (44), one end of the third connecting pipe (45) back to the second air bag (44) sequentially penetrates through the rubber sealing block (49) and the turnover plate (9) and then extends out, a sealing plug (46) is inserted into one end of the third connecting pipe (45) back to the second air bag (44) through threads.