阅读说明：本技术 一种网络通信设备的信号控制器 (Signal controller of network communication equipment ) 是由 邹玉秋 于 2021-08-30 设计创作，主要内容包括：本发明公开了一种网络通信设备的信号控制器,包括的路由器,所述路由器一侧端壁内对称的设有两个贴装腔,所述贴装腔内设有方便将所述路由器固定在墙体上的贴装机构,所述路由器内设有射频腔,所述射频腔内设有用于向外发射射频信号的射频机构,所述路由器两侧端壁之间转动连接的设有加强轴,所述加强轴上设有用于向指定方向发射加强信号的加强机构,所述路由器内设有用于根据路由器安装位置来改变射频信号方向的张合机构。该发明不仅可以灵活的更改路由器发射射频信号的方向,还能够跟踪用户的无线设备,对指定方向进行信号加强。(The invention discloses a signal controller of network communication equipment, which comprises a router, wherein two pasting cavities are symmetrically arranged in the end wall at one side of the router, a pasting mechanism which is convenient for fixing the router on a wall body is arranged in the pasting cavity, a radio frequency cavity is arranged in the router, a radio frequency mechanism for emitting radio frequency signals outwards is arranged in the radio frequency cavity, a reinforcing shaft is rotatably connected between the end walls at the two sides of the router, a reinforcing mechanism for emitting reinforcing signals towards an appointed direction is arranged on the reinforcing shaft, and an opening and closing mechanism for changing the direction of the radio frequency signals according to the installation position of the router is arranged in the router. The invention can not only change the direction of the router to transmit the radio frequency signal flexibly, but also track the wireless device of the user to strengthen the signal in the appointed direction.)

1. A signal controller of a network communication device, comprising a router, characterized by: the router is characterized in that two pasting cavities are symmetrically arranged in the end wall of one side of the router, a pasting cavity is arranged in the router and is convenient to fix a pasting mechanism on a wall body, a radio frequency cavity is arranged in the router, a radio frequency mechanism used for emitting radio frequency signals outwards is arranged in the radio frequency cavity, a reinforcing shaft is arranged between the end walls of the two sides of the router in a rotating mode, a reinforcing mechanism used for reinforcing the signals to the designated direction is arranged on the reinforcing shaft, and an opening and closing mechanism used for changing the directions of the radio frequency signals according to the installation positions of the router is arranged in the router.

2. The signal controller of a network communication device according to claim 1, wherein: the pasting mechanism comprises a router, a pasting cavity, a pasting shaft, a pasting rod and a foot seat, wherein the pasting shaft is arranged between end walls of two sides of the pasting cavity in a rotating connection mode, the pasting rod is fixedly connected to the pasting shaft in a pasting mode, and the foot seat is fixedly connected to the pasting rod in a pasting mode.

3. The signal controller of a network communication device according to claim 2, wherein: the foot seats are coated with super glue; the foot seats on two sides are symmetrical about the router.

4. The signal controller of a network communication device according to claim 1, wherein: radio frequency mechanism includes the radio frequency chamber fixed connection be equipped with the radio frequency frame between the radio frequency chamber both sides end wall radio frequency seat that sliding connection's radio frequency seat that is equipped with on the end wall of radio frequency frame outside, fixed connection's two activity radio frequency poles that are equipped with on the radio frequency seat fixed connection's the activity directional antenna that is equipped with on the activity radio frequency pole fixed connection on the radio frequency frame fixed radio frequency pole that is equipped with and fixed directional antenna that is equipped with on the fixed radio frequency pole fixed connection.

5. The signal controller of a network communication device according to claim 4, wherein: the fixed radio frequency rod and the movable radio frequency rod penetrate through the router; the movable directional antennas on two sides are distributed on two sides of the fixed directional antenna; the fixed directional antenna and the movable directional antenna can transmit wireless signals to the direction vertical to the flat plate.

6. The signal controller of a network communication device according to claim 1, wherein: the reinforcing mechanism comprises a reinforcing shaft, a driven reinforcing wheel, a reinforcing motor shaft, a driving reinforcing wheel, a reinforcing frame and a reinforcing directional antenna, wherein the reinforcing shaft is fixedly connected with the inside of a radio frequency cavity, the reinforcing motor is fixedly connected with the inside of the end wall of the through hole in the inner side of the radio frequency frame, the reinforcing motor shaft is dynamically connected with one end of the reinforcing motor, the driving reinforcing wheel is fixedly connected with the reinforcing shaft, the reinforcing frame is fixedly connected with the two ends of the reinforcing shaft, and the reinforcing directional antenna is fixedly connected with the reinforcing frame.

7. The signal controller of a network communication device according to claim 6, wherein: the reinforced directional antenna can transmit wireless signals to the direction vertical to the flat plate; the strengthening motor is electrically connected with a signal tracker in the router, and the signal tracker can track the direction of the wireless equipment of a user; the driving reinforcing wheel is meshed with the driven reinforcing wheel.

8. The signal controller of a network communication device according to claim 1, wherein: open and close the mechanism and include the radio frequency chamber with paste and adorn and rotate between the chamber and be equipped with open and close the axle and be in the worm that radio frequency intracavity fixed connection was equipped with, rotate the transmission shaft that is equipped with of connecting between the end wall of radio frequency chamber both sides the worm wheel that is equipped with of fixed connection on the transmission shaft straight-teeth gear that is equipped with of fixed connection on the transmission shaft the rack that is equipped with of fixed connection on the radio frequency seat the initiative that is equipped with of fixed connection on the transmission shaft open and close the wheel and open and close the axle and be in paste the driven wheel that opens and close that is equipped with of dress intracavity fixed connection.

9. The signal controller of a network communication device according to claim 8, wherein: the rack is meshed with the straight gear; the worm is meshed with the worm wheel; the driving opening and closing wheel is meshed with the driven opening and closing wheel.

Technical Field

The invention relates to the technical field related to network communication equipment, in particular to a signal controller of network communication equipment.

Background

The communication equipment is wired communication equipment and wireless communication equipment used for industrial control environment; the wired communication equipment mainly introduces serial port communication for solving industrial fields, professional bus type communication, communication of industrial Ethernet and conversion equipment among various communication protocols, and mainly comprises equipment such as a router, a switch, a modem and the like; the wireless communication equipment mainly comprises wireless AP, a wireless network bridge, a wireless network card, a wireless lightning arrester, an antenna and the like. The communication also includes military communication and civil communication, and the three communication operators in China are mobile communication, communication and telecommunication communication.

The router is used as network communication equipment which is widely applied to families and communities, and has a relatively important effect in the network communication equipment, the traditional household router adopts an omnidirectional antenna, the antenna can emit wireless signals to all directions through radio frequency, and the household router is often arranged in corners, therefore, a large part of area of the router is an invalid signal radio frequency area, and the router is easy to decipher and occupy by people, meanwhile, because the coverage area of the omnidirectional router is limited, the user can not receive the wireless signals of higher signals at all positions in the house, and therefore, the equipment capable of solving the problems is very necessary to be designed.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a signal controller of network communication equipment, which can flexibly change the direction of a router for transmitting radio frequency signals, can also track wireless equipment of a user and strengthen signals in a specified direction.

The invention is realized by the following technical scheme.

The invention discloses a signal controller of network communication equipment, which comprises a router, wherein two pasting cavities are symmetrically arranged in the end wall at one side of the router, a pasting mechanism which is convenient for fixing the router on a wall body is arranged in the pasting cavity, a radio frequency cavity is arranged in the router, a radio frequency mechanism for emitting radio frequency signals outwards is arranged in the radio frequency cavity, a reinforcing shaft is rotatably connected between the end walls at the two sides of the router, a reinforcing mechanism for emitting reinforcing signals towards an appointed direction is arranged on the reinforcing shaft, and an opening and closing mechanism for changing the direction of the radio frequency signals according to the installation position of the router is arranged in the router.

Preferably, the attaching mechanism comprises the router, the attaching cavity, an attaching shaft arranged between end walls of two sides of the attaching cavity in a rotating connection mode, an attaching rod fixedly connected to the attaching shaft, and a foot seat fixedly connected to the attaching rod.

Preferably, the base is coated with super glue; the foot seats on two sides are symmetrical about the router.

Preferably, the radio frequency mechanism includes the radio frequency chamber fixed connection be equipped with the radio frequency frame between the end wall of radio frequency chamber both sides radio frequency seat that sliding connection was equipped with on the end wall of radio frequency frame outside, fixed connection be equipped with on the radio frequency seat two movable radio frequency poles movable directional antenna that is equipped with on the movable radio frequency pole fixed connection be equipped with on the radio frequency frame fixed connection be equipped with fixed radio frequency pole and fixed directional antenna that is equipped with of fixed connection on the fixed radio frequency pole.

Preferably, the fixed radio frequency pole and the movable radio frequency pole penetrate through the router; the movable directional antennas on two sides are distributed on two sides of the fixed directional antenna; the fixed directional antenna and the movable directional antenna can transmit wireless signals to the direction vertical to the flat plate.

Preferably, the reinforcing mechanism comprises a driven reinforcing wheel fixedly connected with the reinforcing shaft in the radio frequency cavity, a reinforcing motor fixedly connected with the reinforcing shaft in the end wall of the through hole in the inner side of the radio frequency frame, a reinforcing motor shaft dynamically connected with one end of the reinforcing motor, a driving reinforcing wheel fixedly connected with the reinforcing shaft, a reinforcing frame fixedly connected with the two ends of the reinforcing shaft and a reinforcing directional antenna fixedly connected with the reinforcing frame.

Preferably, the reinforced directional antenna can transmit wireless signals to the direction vertical to the flat plate; the strengthening motor is electrically connected with a signal tracker in the router, and the signal tracker can track the direction of the wireless equipment of a user; the driving reinforcing wheel is meshed with the driven reinforcing wheel.

Preferably, open and close the mechanism and include the radio frequency chamber with paste the dress and rotate between the chamber be equipped with open and close the axle, open and close the axle and be in the worm that radio frequency intracavity fixed connection was equipped with, the transmission shaft that rotates the transmission shaft that is equipped with of connecting between the end wall of radio frequency chamber both sides, fixed connection's the worm wheel that is equipped with on the transmission shaft, fixed connection's the straight-teeth gear that is equipped with on the transmission shaft, fixed connection's the rack that is equipped with on the radio frequency seat fixed connection's the initiative that is equipped with on the transmission shaft open and close the wheel and open and close the axle and be in paste the driven opening and closing wheel that is equipped with of dress intracavity fixed connection.

Preferably, the rack gear is meshed with the spur gear; the worm is meshed with the worm wheel; the driving opening and closing wheel is meshed with the driven opening and closing wheel.

The invention has the beneficial effects that: 1. the direction and the area coverage range of the wireless signal transmitted by the router can be changed according to the installation position of the router, so that the effective coverage rate of the wireless signal of the router is increased, other users are prevented from deciphering and mistaking the network, and the network speed of the home network is improved; 2. the wireless device of the user can be tracked, the signal enhancement is carried out on the direction of the wireless device, and the situation that the user cannot obtain better signal strength at a position far away from the router is avoided.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic isometric view of a signal controller of a network communication device according to the present invention;

fig. 2 is a schematic structural diagram of a signal controller of a network communication device according to the present invention;

FIG. 3 is an enlarged schematic view at A in FIG. 2;

FIG. 4 is an enlarged schematic view at B of FIG. 2;

FIG. 5 is an enlarged schematic view at C of FIG. 2;

FIG. 6 is a schematic view in the direction D-D of FIG. 2;

FIG. 7 is a schematic view in the direction E-E of FIG. 3;

fig. 8 is a schematic view in the direction F-F in fig. 4.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The signal controller of the network communication device described with reference to fig. 1-8 includes a router 101, two attaching cavities 102 are symmetrically disposed in an end wall on one side of the router 101, an attaching mechanism 1 for conveniently fixing the router 101 on a wall is disposed in the attaching cavity 102, a radio frequency cavity 201 is disposed in the router 101, a radio frequency mechanism 2 for emitting radio frequency signals outwards is disposed in the radio frequency cavity 201, a reinforcing shaft 305 is rotatably connected between the end walls on two sides of the router 101, a reinforcing mechanism 3 for emitting reinforcing signals towards a specific direction is disposed on the reinforcing shaft 305, and an opening and closing mechanism 4 for changing directions of the radio frequency signals according to installation positions of the router is disposed in the router 101; when the router 101 is installed, a worker can install the router on the corner between two wall surfaces or on one side wall through the attaching mechanism 1; when the router 101 is installed at an included angle of two side wall surfaces, the reinforcing mechanism 3 can reduce the radio frequency signal transmitting area to ninety degrees, and when the router 101 is installed at one side wall surface, the reinforcing mechanism 3 can change the radio frequency signal transmitting area to one hundred eighty degrees, so that the radio frequency signal coverage area can be adjusted; after the installation is completed, the router 101 can transmit a wireless signal through the strengthening mechanism 3, and meanwhile, the opening and closing mechanism 4 can track the signal direction of the wireless equipment of the user in Europe, so that the strengthening signal is emitted towards the direction of the wireless equipment, and the situation that the user cannot receive a high-intensity signal in a far area is avoided.

The attaching mechanism 1 comprises a router 101, an attaching cavity 102, an attaching shaft 103 rotatably connected between end walls on two sides of the attaching cavity 102, an attaching rod 104 fixedly connected to the attaching shaft 103, and a foot seat 105 fixedly connected to the attaching rod 104.

The foot seats 105 are coated with super glue; the pedestals 105 on both sides are symmetrical about the router 101; when the router 101 fixes the included angle between the two side walls, the user can rotate the pedestals 105 on the two sides to be perpendicular to each other, and fix the pedestals 105 on the two sides on the two side walls respectively; when the router 101 is fixed on a side wall, a user can rotate the sockets 105 on two sides to one surface and fix the sockets 105 on the wall, thereby implementing the mounting of the router 101.

Radio frequency mechanism 2 includes radio frequency cavity 201, fixed connection be equipped with radio frequency frame 202 between the radio frequency cavity 201 both sides end wall, sliding connection be equipped with on the radio frequency frame 202 outside end wall radio frequency seat 203, fixed connection be equipped with on the radio frequency seat 203 two movable radio frequency poles 206 on the movable radio frequency pole 206 fixed connection be equipped with movable directional antenna 207, fixed connection be equipped with on the radio frequency frame 202 fixed radio frequency pole 204 and fixed connection be equipped with on the fixed radio frequency pole 204 fixed directional antenna 205.

The fixed rf pole 204 and the movable rf pole 206 penetrate the router 101; the movable directional antennas 207 on both sides are distributed on both sides of the fixed directional antenna 205; the fixed directional antenna 205 and the movable directional antenna 207 can transmit wireless signals to the direction of the vertical panel; thereby enabling the fixed directional antenna 205 and the movable directional antenna 207 to transmit wireless signals to the home area, and facilitating the use of the wireless area network by the user in the home.

Reinforcing mechanism 3 includes reinforcing shaft 305 is in the driven reinforcing wheel 304 of fixed connection's being equipped with in the radio frequency chamber 201, reinforcing motor 301 of fixed connection's being equipped with in the end wall of the inboard through-hole of radio frequency frame 202, reinforcing motor shaft 302 of being equipped with of reinforcing motor 301 one end power connection, the initiative reinforcing wheel 303 of being equipped with of fixed connection on the reinforcing motor shaft 302, reinforcing frame 306 of being equipped with of reinforcing shaft 305 both ends fixed connection and reinforcing directional antenna 307 of being equipped with of fixed connection on reinforcing frame 306.

The reinforced directional antenna 307 can transmit wireless signals to the direction vertical to the flat plate; the strengthening motor 301 is electrically connected with a signal tracker in the router 101, and the signal tracker can track the direction of the wireless device of the user; the driving stiffening wheel 303 and the driven stiffening wheel 304 are engaged; when the signal tracker detects user's wireless device and removes, the signal tracker can control strengthen motor 301 and start, it drives to strengthen motor 301 strengthen motor shaft 302 and rotate, it drives to strengthen motor shaft 302 initiative reinforcing wheel 303 rotates, initiative reinforcing wheel 303 drives driven reinforcing wheel 304 rotates, driven reinforcing wheel 304 drives reinforcing shaft 305 rotates, reinforcing shaft 305 drives reinforcing frame 306 rotates, reinforcing frame 306 drives reinforcing directional antenna 307 rotates, makes reinforcing directional antenna 307 is towards user's wireless device's direction all the time to carry out the signal enhancement to this direction, avoid the user can not receive stronger wireless signal in the position far away.

The opening and closing mechanism 4 comprises a radio frequency cavity 201 and an opening and closing shaft 401 which is arranged between the pasting cavity 102 and is connected in a rotating manner, the opening and closing shaft 401 is arranged in the radio frequency cavity 201 and is fixedly connected with a worm 402 which is arranged in the radio frequency cavity 201, a transmission shaft 403 which is arranged between end walls of two sides of the radio frequency cavity 201 and is connected in a rotating manner, a worm wheel 404 which is arranged on the transmission shaft 403 and is fixedly connected with a straight gear 405 which is arranged on the transmission shaft 403, a rack 406 which is arranged on the radio frequency seat 203 and is fixedly connected with a driving opening and closing wheel 408 which is arranged on the transmission shaft 403 and is arranged in the pasting cavity 102 and is fixedly connected with a driven opening and closing wheel 407.

The rack 406 is meshed with the spur gear 405; the worm 402 and the worm wheel 404 are engaged; the driving opening and closing wheel 408 is meshed with the driven opening and closing wheel 407; when the subsides dress axle 103 rotates, the subsides dress axle 103 drives the initiative is opened and is closed wheel 408 and rotates, the initiative is opened and is closed wheel 408 and drives driven opening and closing wheel 407 rotates, driven opening and closing wheel 407 drives open and close axle 401 rotates, it drives to open and close axle 401 worm 402 rotates, worm 402 drives worm wheel 404 rotates, worm wheel 404 drives transmission shaft 403 rotates, transmission shaft 403 drives spur gear 405 rotates, spur gear 405 drives rack 406 rotates, rack 406 drives radio frequency seat 203 rotates, radio frequency seat 203 drives movable radio frequency pole 206 rotates, movable radio frequency pole 206 drives movable directional antenna 207 rotates, when router 101 is fixed in the contained angle department of both sides wall, both sides movable directional antenna 207 rotates to the range of ninety degrees, when router 101 thigh is on a side wall, the movable directional antennas 207 on both sides rotate to an amplitude range of approximately one hundred and eighty degrees, so that the radio frequency coverage direction and area of the wireless signal are changed according to the installation position of the router 101, and other people are prevented from deciphering and occupying the network.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.