CN116684445A - Internet of things system and routing equipment - Google Patents

Abstract

The application provides an Internet of things system, which comprises Internet of things equipment and routing equipment, wherein the Internet of things equipment receives the links through equipment control links and data acquisition links respectively, a data processing module is arranged at the lower ends of the equipment control links and the data acquisition links, the data processing module processes the links, a data exchange module is arranged at the lower end of the data processing module, the data exchange module exchanges the links, a block chain node is arranged at the lower end of the data exchange module, and the block chain node distributes the links. The application has the beneficial effects that when the Internet of things equipment receives the data by sending the link to the equipment control link and the data acquisition link, the linked data is processed by the data processing module, is sent to the data exchange module for data exchange, and is then sent to the block link point for specific processing, so that the data in the link is subjected to specific processing and exchange.

Description

Internet of things system and routing equipment

Technical Field

The application relates to the field of Internet, in particular to an Internet of things system and routing equipment.

Background

When the existing routing equipment works, the network can be used for carrying out wireless network coverage through the antenna, so that people can conveniently and rapidly surf the network, meanwhile, the use of mobile phone flow is saved, the structure is simple, the size is small, but the routing equipment is driven by electricity, and when the routing equipment operates for a long time, heat is generated, so that the operation power is reduced due to overhigh temperature of parts inside the routing equipment.

For example: "a router" disclosed in Chinese patent (application number: CN 202010450780.5), its specification discloses: the application provides a router, which is characterized in that a shielding part is formed by extending outwards from one end of a shell provided with a rotating shaft seat, the rotating shaft seat is arranged on one side of the shielding part facing the back of the shell, and one end of the shielding part, which is far away from the shell, extends to at least one side of the rotating shaft seat, which is far away from the shell, so that the front of the rotating shaft seat is shielded, and therefore, the rotating shaft seat is difficult to see from the front of the router under a conventional visual angle; the above patent can be used to demonstrate the drawbacks of the prior art.

Therefore, we make improvements to this, and propose an internet of things system and a routing device.

Disclosure of Invention

The application aims at: aiming at the background technology existing at present, the routing equipment is driven by electricity, and when the routing equipment runs for a long time, heat is generated, so that the problem that the running power is reduced due to overhigh temperature of parts inside the routing equipment is caused.

In order to achieve the above object, the present application provides the following internet of things system to improve the above problems.

The application is specifically as follows:

a routing device comprising a networking device and a routing device; the internet of things equipment is received through a sending link and a device control link and a data acquisition link respectively, a data processing module is arranged at the lower ends of the device control link and the data acquisition link, the data processing module processes the link, a data exchange module is arranged at the lower end of the data processing module, the data exchange module exchanges the link, a block chain node is arranged at the lower end of the data exchange module, and the block chain node distributes the link.

As a preferable technical scheme of the application, the Internet of things equipment is an accessible network device and has a network transmission function, and the transmission function is realized by one or a combination of a plurality of Wi-Fi and 4G, LOAR.

As a preferable technical scheme of the application, the Internet of things equipment cannot be directly connected to a network, and the blockchain node is connected with the data exchange module through the routing equipment.

As a preferable technical scheme of the application, the lower end of the routing equipment is provided with a heat dissipation assembly, and the lower end of the heat dissipation assembly is provided with a signal enhancement assembly.

As a preferable technical scheme of the application, the lower end of the routing equipment is provided with a protection component, and the lower end of the protection component is provided with a reinforcement component.

As a preferable technical scheme of the application, the heat dissipation assembly is arranged on the routing equipment, the heat dissipation assembly can dissipate heat in the routing equipment, the heat dissipation assembly comprises two servo motors, the routing equipment comprises a shell, two ends of the shell are hollow, first circular through grooves are formed in the two ends of the shell, a first rotating rod is placed in each first circular through groove, the upper end of the first rotating rod is rotationally connected with the servo motor, the upper end of the servo motor is fixedly connected with a U-shaped rod, the lower end of the U-shaped rod is fixedly connected with the shell, and an arc plate is sleeved on the side surface of the rotating rod.

As a preferable technical scheme of the application, the signal reinforcing component is arranged below the heat radiating component and is used for performing a signal reinforcing function on the routing equipment, the signal reinforcing component comprises four first rectangular plates, the first rectangular plates positioned on the same side are in a group, the lower end of each group of first rectangular plates is provided with a second circular through groove, a second rotating rod is sleeved in each second circular through groove, the lower end of the shell is fixedly connected with a sucking disc, the upper end of the sucking disc is provided with four first rectangular grooves at equal intervals, and each first rectangular groove is rotationally connected with the lower end of the second rotating rod.

According to the preferred technical scheme, the protection component is arranged on the routing equipment, the routing equipment is protected by the protection component to prevent internal parts from being damaged when being transversely placed, the protection component comprises a plurality of second rectangular plates, a third circular through groove is formed in each second rectangular plate, a telescopic rod is placed in each third circular through groove, the second rectangular plates located on the same side are a group, the upper ends of the second rectangular plates located in the front are fixedly connected with first clamping plates, one side of each first clamping plate is fixedly connected with a clamping block, the upper ends of the second rectangular plates located in the rear are fixedly connected with second clamping plates, clamping holes are formed in one side of each second clamping plate, the protection component is provided with a stabilizing component, the stabilizing component is used for reinforcing when the routing equipment is vertically placed, each stabilizing component comprises a plurality of straight groove openings, each straight groove opening is formed in the opposite faces of the second rectangular plates, rotating blocks are rotatably arranged in the inner sides of each straight groove opening, the shell is fixedly connected with the corresponding circular rotating blocks, and the clamping rings are connected with the corresponding circular rotating blocks.

According to the technical scheme, the adsorption component is arranged at the lower end of the routing equipment and is used for placing and fixing the routing equipment on glass and ceramic tiles, the adsorption component comprises a sucker, two springs are fixedly connected inside the sucker, two straight groove rods are fixedly connected to the lower ends of the springs, the drawing component is arranged on the adsorption component and is used for moving the protection component, the drawing component comprises two hollow plates, first U-shaped through grooves are formed in the two ends of the hollow plates, drawing plates are placed inside the hollow plates, second U-shaped through grooves are formed in the upper ends of the drawing plates, the second U-shaped grooves are communicated with the first U-shaped grooves, two straight groove rods are connected inside the second U-shaped grooves in a rotating mode, a rotating shaft is fixedly connected to the upper ends of the straight groove rods, the rotating shaft is connected with the second rectangular plates in a rotating mode, two first rectangular through grooves are formed in the upper ends of the sucker, two first rectangular through plates are placed inside the hollow plates, two first through grooves are connected with the first rectangular through plates, a plurality of three rectangular through grooves are connected to the two side of the first rectangular plates, a plurality of antenna stand is connected to the two side of the first through grooves, and the three antenna stand is connected to the two side of the antenna stand is connected to the first through grooves, and the two antenna stand is connected to the two side of the antenna stand is fixedly connected to the two side of the antenna stand.

Compared with the prior art, the application has the beneficial effects that:

in the scheme of the application:

1. in order to solve the problem of heat dissipation in the prior art, the application realizes that when the routing equipment works, when the temperature reaches a certain temperature, the internet of things system starts the servo motor to rotate, then the arc plates positioned at the two sides of the shell rotate under the first rotating rod so as to form wind power, and meanwhile, the arc plates are separated from the shell under the drive of the first rotating rod so that the shell is not sealed, part of heat is discharged from a gap, heat dissipation can be maximally performed under the rotation of the arc plates and the action of the gap, and parts inside the shell are protected to safely and efficiently operate;

2. in order to solve the problem of signals in the prior art, the application realizes that when the signals are poor, the antennas at the two ends of the sucker can send the signals to the system through the first rectangular plates, the arc plates, the first rotating rods, the second rotating rods, the first rectangular plates and the second rotating rods, the first rectangular plates at the two ends of the shell move in two opposite directions under the instruction of the system through rotating the second rotating rods, so that the antennas on the sucker are covered but cannot be wrapped, a horn shape is formed, meanwhile, the arc plates in the two first rectangular plates rotate through the first rotating rods to form wind power when the temperature is high, the interior of the shell is cooled, after the temperature is reduced, the rotation is stopped, the concave surfaces of the arc plates face the antennas, so that the reflecting plates are formed again, and the signals of the antennas can be reinforced through the functions of the first rectangular plates and the arc plates, so that the efficiency of routing equipment is improved;

3. in order to solve the problem that the routing equipment is reinforced when being placed vertically in the prior art, the routing equipment is possibly not adsorbed when being placed on a desktop or smooth ground through the sucking disc by the aid of the second rectangular plate, the telescopic rod, the third circular through groove, the first clamping plate, the second clamping plate, the clamping block, the clamping holes, the rotating block, the circular clamping ring, the sucking disc and the shell, then the first clamping plate and the second clamping plate on the second rectangular plate are separated, the circular clamping block is hinged on the shell under the action of the rotating block and the circular clamping block, so that the second rectangular plate is turned downwards, then the second rectangular plates on two sides of the shell are obliquely arranged on two sides of the shell, and then a bracket is formed, so that the stability of the routing equipment can be reinforced when being placed vertically;

4. in order to solve the problem that the antenna is protected after the routing equipment is fixed on glass and ceramic tiles and falls down in the prior art, the application realizes that when the shell is adsorbed on the glass and ceramic tiles through the sucking disc and is transversely adsorbed, the telescopic rod is fixed in the third circular through groove formed in the second rectangular plate, so that the second rectangular plates are telescopic, and then the first clamping plates and the second clamping plates which pass through the upper ends of opposite surfaces are telescopic, the U-shaped plate is formed by a fixed clamping block of the first clamping plate and a clamping hole formed in the second clamping plate, then the U-shaped plate rotates at the straight notch and the rotating block, rotates to the lower end of the antenna, then the sucking disc extrudes and adsorbs the glass, the straight groove plate positioned in the sucking disc is extruded at the same time, the extrusion spring is extruded, when the sucking disc falls off, the spring is reset, so that the spring stretches, the third rectangular plate positioned on the straight groove plate and the drawing plate move, so that the straight groove rod rotatably arranged in the second U-shaped through groove formed in the upper end of the drawing plate moves in the same direction, under the action of the hollow plate, the first U-shaped through grooves formed in the two ends of the hollow plate are limited, then the rotating shaft arranged at the upper end of the straight groove rod is movably connected, so that the U-shaped plate formed by the second rectangular plate moves upwards, and the antenna moves upwards in the platform-shaped through groove in a sliding mode, then, the middle of the two first rectangular plates is carried out, and meanwhile, the U-shaped plate moves downwards and contacts the first rectangular plates, so that the first rectangular plates are close to the middle in the extrusion process, and the antenna is protected from being damaged due to falling;

5, in order to solve the problem of adsorption capacity in the prior art, the application realizes that when the sucking disc is adsorbed on glass and ceramic tile, a small gap is generated by pulling the table-shaped block positioned in the table-shaped through groove, when the sucking disc is extruded to be attached on the glass and ceramic tile, air generated by extrusion of the sucking disc is discharged from the gap generated by extrusion of the sucking disc, thereby fixing the telescopic rod in the table-shaped through groove and the table-shaped block, thereby expanding the space between the second rectangular plates, then the U-shaped plate is formed by the first clamping plate and the second clamping plate which pass through the upper ends of opposite surfaces, the fixing clamping block passing through the first clamping plate and the clamping hole formed in the second clamping plate, then the U-shaped plate is rotated at the straight notch and the rotating block, and is rotated to the lower end of the antenna, the third rectangular plate and the drawing plate which are positioned on the straight groove plate are moved by the extrusion springs, so that the straight groove rod which is rotatably arranged in the second U-shaped through groove formed in the upper end of the drawing plate moves in the same direction, the first U-shaped through groove formed in the two ends of the hollow plate is limited under the action of the hollow plate, then the U-shaped plate formed by the second rectangular plate is limited to the antenna and the table-shaped block under the movable connection of the rotating shaft arranged at the upper end of the straight groove rod, so that the antenna moves upwards in the table-shaped through groove, the table-shaped block covers the gap, thereby ensuring the suction cup to be more sealed, thereby increasing the adsorption capacity and being not easy to fall off.

Drawings

Fig. 1 is a schematic diagram of an internet of things provided by the application;

fig. 2 is a schematic diagram of a front structure of a routing device according to the present application;

fig. 3 is a schematic side view of a routing device according to the present application;

fig. 4 is a schematic diagram of a bottom structure of a routing device according to the present application;

fig. 5 is a schematic top view of a routing device according to the present application;

FIG. 6 is a schematic diagram of the protection component and the stabilizing component of the routing device according to the present application;

fig. 7 is a schematic structural diagram of a heat dissipation assembly and a signal enhancement assembly of the routing device according to the present application;

fig. 8 is an enlarged schematic structural diagram of the routing device in fig. 2 a according to the present application;

FIG. 9 is a schematic diagram of a drawing assembly of a routing device according to the present application;

fig. 10 is a schematic structural diagram of an antenna of the routing device provided by the present application.

The figures indicate:

1. a routing device; 101. a table-type through groove; 102. a third rotating rod; 103. an antenna; 104. a dust-proof plate; 105. a table plate; 106. a housing;

2. a heat dissipation assembly; 201. a servo motor; 202. a U-shaped rod; 203. a first rectangular plate; 204. a first rotating lever; 205. an arc-shaped plate; 206. a first rectangular recess; 207. a second rotating rod;

3. a protection component; 301. a second clamping plate; 302. a first clamping plate; 303. a second rectangular plate; 304. a telescopic rod; 305. a clamping block; 306. a rotating block; 307. a circular clasp; 308. a straight slot;

4. an adsorption assembly; 401. a suction cup; 402. a straight slot plate; 403. a third rectangular plate; 404. a first rectangular through slot; 405. a drawing plate; 406. a spring;

5. a pull assembly; 501. a hollow slab; 502. a straight grooved bar; 503. a rotating shaft.

Description of the embodiments

In order that those skilled in the art will better understand the present application, a technical solution in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, shall fall within the scope of the present application.

As described in the background art, however, the routing device is electrically driven, and when operated for a long time, heat is generated, which results in a decrease in operation power due to an excessively high temperature of the components inside the routing device.

In order to solve the technical problem, the application provides an Internet of things system which is applied to control of routing equipment.

Specifically, referring to fig. 1, the object system specifically includes:

the internet of things equipment and the routing equipment 1 are connected through sending, the connection is received through an equipment control connection and a data acquisition connection respectively, a data processing module is arranged at the lower end of the equipment control connection and the lower end of the data acquisition connection, the data processing module processes the connection, a data exchange module is arranged at the lower end of the data processing module, the data exchange module exchanges the connection, a block chain node is arranged at the lower end of the data exchange module, and the block chain node distributes the connection.

The routing equipment provided by the application has the beneficial effects that: when the Internet of things equipment transmits a link to the equipment control link and receives the link, the linked data is processed through the data processing module, data exchange is performed on the linked data transmitted to the data exchange module, and specific processing is performed on the linked data transmitted to the block link point, so that the linked data are subjected to specific processing and exchange.

In order to make the person skilled in the art better understand the solution of the present application, the technical solution of the embodiment of the present application will be clearly and completely described below with reference to the accompanying drawings.

It should be noted that, under the condition of no conflict, the embodiments of the present application and the features and technical solutions in the embodiments may be combined with each other.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

Examples

Referring to fig. 1, in an internet of things system, internet of things equipment is an accessible network device, and has a network transmission function, where the transmission function is implemented by one or a combination of several Wi-Fi and 4G, LOAR.

The beneficial effects are that: the network device is connected through the Internet of things equipment to perform network transmission, so that network propagation is performed.

Referring to fig. 1, an internet of things device cannot directly access a network, and a blockchain node is connected with a data exchange module through a routing device 1.

The beneficial effects are that: the internet of things equipment performs connection control on the routing equipment 1 through the block chain node and the data exchange module.

Examples

Further optimizing the routing device provided in embodiment 1, as shown in fig. 1, the lower end of the routing device 1 is provided with a heat dissipation component 2, and the lower end of the heat dissipation component 2 is provided with a signal enhancement component.

The beneficial effects are that: the routing device 1 performs heat dissipation and signal enhancement on the routing device 1 by controlling the heat dissipation component 2 and the signal enhancement component.

Further, the lower extreme of routing equipment 1 is provided with protection component 3, and protection component 3 lower extreme is provided with the reinforcement subassembly.

The beneficial effects are that: the routing device 1 protects and reinforces the routing device 1 by controlling the protection component 3 and the reinforcement component.

Examples

Further optimizing the routing device provided in embodiment 1 or 2, specifically, as shown in fig. 1, the lower end of the routing device 1 is provided with an adsorption assembly 4, and the inside of the adsorption assembly 4 is provided with a drawing assembly 5.

The beneficial effects are that: the routing device 1 is adsorbed by the adsorption component 4 through glass and ceramic, and the protection component 3 is moved by the drawing component 5.

Further, as shown in fig. 2 and 3, a routing device, a heat dissipation component 2 of the routing device is arranged on the routing device 1, the heat dissipation component 2 can dissipate heat inside the routing device 1, the heat dissipation component 2 comprises two servo motors 201, the routing device 1 comprises a shell 106, two ends of the shell 106 are hollow, first circular through grooves are formed in two ends of the shell 106, a first rotating rod 204 is arranged inside each first circular through groove, the upper end of the first rotating rod 204 is rotationally connected with the servo motor 201, a U-shaped rod 202 is fixedly connected with the upper end of the servo motor 201, the lower end of the U-shaped rod 202 is fixedly connected with the shell 106, and an arc-shaped plate 205 is sleeved on the side surface of the rotating rod.

The beneficial effects are that: when the routing equipment works, when the temperature reaches a certain temperature, the internet of things system can start the servo motor 201 to rotate, then arc plates 205 located on two sides of the shell 106 rotate under the first rotating rod 204, so that wind force can be formed, meanwhile, the arc plates 205 are separated from the shell 106 under the driving of the first rotating rod 204, the shell 106 is not sealed, a part of heat is discharged from a gap, heat dissipation can be maximally carried out under the action of the rotation of the arc plates 205 and the gap, and parts inside the shell 106 are protected to safely and efficiently operate.

Further, as shown in fig. 3, fig. 5 and fig. 7, the signal enhancement component is arranged at the lower end of the heat dissipation component 2, the signal enhancement component is used for performing a signal enhancement function on the routing device 1, the signal enhancement component comprises four first rectangular plates 203, the first rectangular plates 203 located on the same side are in a group, the lower end of each group of first rectangular plates 203 is provided with a second circular through groove, the inside of each second circular through groove is sleeved with a second rotating rod 207, the lower end of the shell 106 is fixedly connected with a sucker 401, the upper end of the sucker 401 is provided with four first rectangular grooves 206 at equal intervals, and each first rectangular groove 206 is rotationally connected with the lower end of the second rotating rod 207.

The beneficial effects are that: at this time, the first rectangular plates 203 at two ends of the housing 106 move in two opposite directions by rotating the second rotating rod 207 under the instruction of the system, so that the antenna 103 located on the suction disc 401 is covered, but is not wrapped, a horn shape is formed, meanwhile, the arc plates 205 located in the two first rectangular plates 203 rotate to form wind power through the first rotating rod 204 when the temperature is high, the interior of the housing 106 is cooled, after the temperature is reduced, rotation is stopped, the concave surface of the arc plates 205 faces the antenna 103, a reflecting plate is formed again, and the signal of the antenna 103 can be enhanced through the actions of the first rectangular plates 203 and the arc plates 205, so that the efficiency of routing equipment is improved.

Further, as shown in fig. 2, fig. 3, fig. 5, fig. 6, the protection component 3 is disposed on the routing device 1, the protection component 3 protects the routing device 1 from being damaged when being placed transversely, the protection component 3 includes a plurality of second rectangular plates 303, a third circular through groove is formed in each second rectangular plate 303, a telescopic rod 304 is disposed in the third circular through groove, the second rectangular plates 303 on the same side are a group, the upper ends of the second rectangular plates 303 on the front are fixedly connected with first clamping plates 302, one side of each first clamping plate 302 is fixedly connected with a clamping block 305, the upper ends of the second rectangular plates 303 on the rear are fixedly connected with second clamping plates 301, clamping holes are formed in one side of each second clamping plate 301, a stabilizing component is disposed on the protection component 3 and used for reinforcing the routing device when being placed vertically, each stabilizing component includes a plurality of straight groove ports 308, each straight groove port 308 is formed in the opposite faces of the second rectangular plates 303, two sides of each straight groove port 308 are rotatably provided with a rotating block 306, and the two sides of the housing 106 are rotatably connected with a circular clamping ring 307 at equal intervals.

The beneficial effects are that: the casing 106 is adsorbed at glass and ceramic tile through sucking disc 401, and when horizontal absorption is in time, the inside fixed telescopic link 304 of third circular through groove of seting up on the second rectangular plate 303, thereby make between the second rectangular plate 303 flexible, then through the first cardboard 302 and the second cardboard 301 of opposite face's upper end, constitute the U template at the card hole of seting up on the fixed fixture block 305 through first cardboard 302 and the second cardboard 301, then rotate at straight slot 308 and commentaries on classics piece 306, rotate to the lower extreme of antenna 103 and thereby can protect routing equipment, the routing equipment is put on the desktop or smooth ground through sucking disc 401 when, sucking disc 401 probably can not adsorb, then through separating first cardboard 302 and second cardboard 301 on the second rectangular plate 303, then in the effect of commentaries on classics piece 306 and ring fixture block 307, circular fixture block 307 articulates on casing 106, make second rectangular plate 303 down overturn, then the second board 303 of casing 106 both sides is on the both sides can casing 106, then form the support, thereby when vertical firm routing equipment of placing.

Examples

Further, please refer to fig. 2, fig. 3, fig. 4, fig. 8, fig. 9, fig. 10, the absorption component 4 is arranged at the lower end of the routing device 1, the absorption component 4 is used for placing and fixing the routing device 1 on glass and ceramic tiles, the absorption component 4 comprises a sucker 401, two springs 406 are fixedly connected inside the sucker 401, the lower end of each spring 406 is fixedly connected with a straight groove plate 402, the drawing component 5 is arranged on the absorption component 4, the drawing component 5 is used for moving the protection component 3, the drawing component 5 comprises two hollow plates 501, the two ends of each hollow plate 501 are provided with first U-shaped through grooves, a drawing plate 405 is placed inside the hollow plates 501, the upper end of each drawing plate 405 is provided with second U-shaped through grooves, the second U-shaped grooves are communicated with the first U-shaped through grooves, two straight groove rods 502 are rotatably connected inside the second U-shaped grooves, the upper ends of each straight groove rod 502 are fixedly connected with a rotating shaft 503, the rotating shaft 503 is rotatably connected with the second rectangular plates 303, the upper ends of the sucker 401 are provided with two rectangular plates 103, the first through grooves 103 are connected with the first rectangular plates 103, the two lower plates 103 are fixedly connected with the second through grooves 104, the first through grooves are connected with the second through grooves 102, the second through plates 101 are fixedly arranged on the two sides of the second through grooves are connected with the first through plates 101, the second through plates are fixedly arranged on the second through grooves are connected with the first through plates, the second through plates are connected with the second through plates and the second through plates are respectively, the first through plates are connected with the first through plates and the second through plates and the two through plates are respectively, the two through the two 101, the two through plates are respectively, the two through connection plates are respectively, the two through the two 101 are respectively, and are connected.

The beneficial effects are that: the routing device 1 can be adsorbed on the smooth glass and the surface of the ceramic tile conveniently through the action of the sucker 401, so that the routing device 1 is difficult to place in some places, then the sucker 401 is extruded and adsorbed on the glass, the straight groove plate 402 positioned in the sucker 401 is extruded at the same time, when the sucker 401 falls off, the spring 406 is reset and stretched, the third rectangular plate 403 positioned on the straight groove plate 402 and the pulling plate 405 are moved, the straight groove rod 502 which is rotatably arranged in the second U-shaped through groove formed in the upper end of the pulling plate 405 is moved in the same direction, under the action of the hollow plate 501, the first U-shaped through groove formed in the two ends of the hollow plate 501 is limited, then the rotating shaft 503 arranged at the upper end of the straight groove rod 502 is movably connected, the U-shaped plate formed by the second rectangular plate 303 is moved upwards, only when the second rectangular plate 303 is inclined, the system control rotating shaft 503 is contacted with the second rectangular plate 303, so that the antenna 103 moves upwards in the bench type through groove 101 through the sliding connection of the bench type plate 105, then the middle of the two first rectangular plates 203 is carried out, meanwhile, the U-shaped plate moves downwards and contacts the first rectangular plates 203, the first rectangular plates 203 are close to the middle in the extrusion process, so that the antenna 103 is protected from damage caused by falling, when the sucker 401 is adsorbed on glass and ceramic tiles, a small gap is formed by pulling the bench type block 105 in the bench type through groove 101, when the sucker 401 is extruded and attached on the glass and ceramic tiles, air generated by extrusion of the sucker 401 is discharged out from the gap generated by the bench type through groove 101 and the bench type block 105, a telescopic rod 304 is fixed in the third circular through groove formed on the second rectangular plate 303, thereby make flexible between the second rectangular plate 303, then at the first cardboard 302 and the second cardboard 301 through the upper end of opposite face, the card hole that sets up on the fixed fixture block 305 and the second cardboard 301 through first cardboard 302 constitutes the U template, then rotate at straight slot mouth 308 and commentaries on classics piece 306, rotate the lower extreme to antenna 103, through carrying out extrusion spring 406, be located the third rectangular plate 403 and the pull plate 405 on the straight slot plate 402 and remove, thereby will make the second U type that the pull plate 405 upper end set up pass through the inside straight slot pole 502 of rotating the installation and going to the same direction, under the effect of hollow plate 501, first U type that should set up for the both ends of hollow plate 501 passes through the groove and carries out spacingly, then the pivot 503 movable connection that the straight slot pole 502 upper end was installed makes the U template that the second rectangular plate 303 constitutes carry out spacingly to antenna 103 and bench type piece 105, thereby make antenna 103 pass through bench 105 sliding connection and upwards remove in bench type pass through bench 105 inside 101, thereby will cover the space more easily, thereby can guarantee to cover the inside and come into the sealed equipment of dust sucking disc 401, thereby can not be protected by the inside the sealed equipment of the protection device of the suction cup 401.

The application process of the Internet of things system and the routing equipment provided by the application is as follows:

working principle: when the internet of things equipment receives the link transmitted to the equipment control link and the data acquisition link, the linked data is processed through the data processing module, the data is exchanged through the data exchange module, the data is specifically processed through the link points of the block, the linked data is specifically processed and exchanged, the data is transmitted through the internet of things under the routing equipment 1, the wireless network is covered through the routing equipment 1, the heat radiating component 2, the protection component 3 and the adsorption component 4 are controlled through the internet of things system by the routing equipment 1, when the routing equipment works, when the temperature reaches a certain temperature, the internet of things system starts the servo motor 201 to rotate, then the arc plates 205 positioned at two sides of the shell 106 rotate under the first rotating rod 204, so that wind power is formed, simultaneously, the arc plate 205 is separated from the shell 106 under the drive of the first rotating rod 204, so that the shell 106 is not sealed, part of heat is discharged from the gap, heat dissipation can be performed to the greatest extent under the action of the rotation of the arc plate 205 and the gap, parts inside the shell 106 can be protected to operate safely and efficiently, at the moment, the first rectangular plates 203 at the two ends of the shell 106 move in two opposite directions under the instruction of a system through rotating the second rotating rod 207, the antennas 103 positioned on the sucker 401 are covered, but are not wrapped, so that a horn shape is formed, at the same time, the arc plate 205 positioned in the two first rectangular plates 203 rotates through the first rotating rod 204 to form wind power when the temperature is high, the inside of the shell 106 is cooled, and after the temperature is reduced, the rotation is stopped, the concave surface of the arc plate 205 faces the antenna 103 to form a reflecting plate again, the signal of the antenna 103 can be enhanced through the actions of the first rectangular plate 203 and the arc plate 205, so that the efficiency of the routing device is improved, the shell 106 is adsorbed on glass and ceramic tiles through the sucking disc 401, and the telescopic rod 304 is fixed in the third circular through groove formed in the second rectangular plate 303 when the shell is transversely adsorbed, so that the second rectangular plate 303 stretches out and draws back, then the U-shaped plate is formed by the first clamping plate 302 and the second clamping plate 301 which are arranged at the upper ends of opposite surfaces, the U-shaped plate is formed by the fixing clamping block 305 of the first clamping plate 302 and the clamping hole formed in the second clamping plate 301, then the U-shaped plate is rotated at the straight groove opening 308 and the rotating block 306, the routing device can be protected when the routing device is rotated to the lower end of the antenna 103, and the routing device is placed on a tabletop or smooth ground through the sucking disc 401, the suction cup 401 may not be adsorbed, then the first clamping plate 302 and the second clamping plate 301 on the second rectangular plate 303 are separated, then under the action of the rotating block 306 and the circular clamping block 307, the circular clamping block 307 is hinged on the shell 106, so that the second rectangular plate 303 is turned down, then the second rectangular plates 303 on two sides of the shell 106 are obliquely arranged on two sides of the shell 106, then a bracket is formed, so that the stability of the routing device can be enhanced when the routing device is vertically placed, the routing device 1 can be adsorbed on smooth glass and ceramic tile surfaces through the action of the suction cup 401, so that the routing device 1 is difficult to place in some positions, then the suction cup 401 is pressed and adsorbed on the glass, then the straight groove plate 402 positioned inside the suction cup 401 is simultaneously pressed, when the suction cup 401 is pressed off, the spring 406 resets to stretch, the third rectangular plate 403 and the pulling plate 405 that are located on the straight slot plate 402 move, thereby will make the inside straight slot pole 502 that rotates the installation of second U type through slot that the pulling plate 405 upper end was seted up move to the same direction, under the effect of hollow plate 501, first U type through slot that should set up for the both ends of hollow plate 501 is spacing, then the pivot 503 that the straight slot pole 502 upper end was installed moves down and makes the U template that the second rectangular plate 303 constitutes upwards move, only when second rectangular plate 303 is in the skew, system control pivot 503 can be contacted with second rectangular plate 303, thereby make antenna 103 upwards move through platform template 105 sliding connection in the inside of platform type through slot 101, then carry out the centre of two first rectangular plates 203, simultaneously U template down moves, can contact first rectangular plate 203, make first rectangular plate 203 draw close to the centre in the middle in the extrusion process, thereby protection antenna 103 can not take place the damage because of dropping, protection routing equipment 1 inside can not get into, thereby the inside dust part of protection.

In the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

It is apparent that the above-described embodiments are only some embodiments of the present application, but not all embodiments, and the preferred embodiments of the present application are shown in the drawings, which do not limit the scope of the patent claims. This application may be embodied in many different forms, but rather, embodiments are provided in order to provide a thorough and complete understanding of the present disclosure. Although the application has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing description, or equivalents may be substituted for elements thereof. All equivalent structures made by the content of the specification and the drawings of the application are directly or indirectly applied to other related technical fields, and are also within the scope of the application.

Claims (10)

1. The Internet of things system is characterized by comprising Internet of things equipment and routing equipment (1), wherein the Internet of things equipment is connected through a sending link, the link is received through an equipment control link and a data acquisition link respectively, a data processing module is arranged at the lower end of the equipment control link and the lower end of the data acquisition link, the data processing module processes the link, a data exchange module is arranged at the lower end of the data processing module, the data exchange module exchanges the link, a block chain node is arranged at the lower end of the data exchange module, and the block chain node distributes the link.

2. The internet of things system according to claim 1, wherein the internet of things equipment is an accessible network device and has a network transmission function, and the transmission function is implemented by one or a combination of several of Wi-Fi and 4G, LOAR.

3. The internet of things system according to claim 1, wherein the internet of things device is a network incapable of being directly accessed, and the blockchain node is connected with the data exchange module through a routing device (1).

4. The internet of things system according to claim 1, wherein a heat dissipation assembly (2) is arranged at the lower end of the routing device (1), and a signal enhancement assembly is arranged at the lower end of the heat dissipation assembly (2).

5. An internet of things system according to claim 1, characterized in that the lower end of the routing device (1) is provided with a protection component (3), and the lower end of the protection component (3) is provided with a reinforcement component.

6. The internet of things system according to claim 1, wherein an adsorption component (4) is arranged at the lower end of the routing device (1), and a drawing component (5) is arranged inside the adsorption component (4).

7. Routing equipment uses an internet of things system according to claim 1, characterized in that, radiator unit (2) sets up on routing equipment (1), radiator unit (2) can dispel the heat to routing equipment (1) inside, radiator unit (2) include two servo motor (201), routing equipment (1) include casing (106), the both ends of casing (106) are hollow, first circular logical groove has been seted up at the both ends of casing (106), every first circular logical inslot has placed first bull stick (204), the upper end and the servo motor (201) rotation of first bull stick (204) are connected, the upper end fixedly connected with U type pole (202) of servo motor (201), the lower extreme and the casing (106) fixed connection of U type pole (202), bull stick side surface cup joints arc (205).

8. The routing device according to claim 7, wherein the signal enhancing component is disposed at a lower end of the heat dissipating component (2), the signal enhancing component is used for enhancing a signal of the routing device (1), the signal enhancing component comprises four first rectangular plates (203), the first rectangular plates (203) located on the same side are a group, a second circular through groove is formed in a lower end of each group of the first rectangular plates (203), a second rotating rod (207) is sleeved in each second circular through groove, a sucker (401) is fixedly connected to a lower end of the housing (106), four first rectangular grooves (206) are formed in an upper end of the sucker (401) at equal intervals, and each first rectangular groove (206) is rotationally connected with a lower end of the second rotating rod (207).

9. The routing device of claim 7, wherein the protection component (3) is disposed on the routing device (1), the protection component (3) protects the routing device (1) from being damaged by internal parts when placed transversely, the protection component (3) comprises a plurality of second rectangular plates (303), each second rectangular plate (303) is provided with a third circular through groove, a telescopic rod (304) is disposed in the third circular through groove, the second rectangular plates (303) disposed on the same side are a group, the upper ends of the second rectangular plates (303) disposed in front are fixedly connected with first clamping plates (302), one side of each first clamping plate (302) is fixedly connected with clamping blocks (305), the upper ends of the second rectangular plates (303) disposed behind are fixedly connected with second clamping plates (301), one side of each second clamping plate (301) is provided with clamping holes, the protection component (3) is provided with a stabilizing component, the stabilizing component is used for reinforcing the routing device, when placed vertically, the second clamping plates (307) are disposed on two sides of the housing (308), each stabilizing component (308) is provided with a plurality of vertical rotary blocks (308), each connecting the two side of the housing (308) is provided with a plurality of vertical rotary blocks (308), each circular clamping ring (307) is rotationally connected with a rotating block (306).

10. The routing device according to claim 9, wherein the adsorption component (4) is disposed at the lower end of the routing device (1), the adsorption component (4) is used for placing and fixing the routing device (1) on glass and ceramic tiles, the adsorption component (4) comprises a suction disc (401), two springs (406) are fixedly connected to the inner part of the suction disc (401), a straight groove plate (402) is fixedly connected to the lower end of each spring (406), the drawing component (5) is disposed on the adsorption component (4), the drawing component (5) is used for moving the protection component (3), the drawing component (5) comprises two hollow plates (501), a first U-shaped through groove is formed at two ends of each hollow plate (501), a drawing plate (405) is disposed inside the hollow plate (501), a second U-shaped through groove is formed at the upper end of each drawing plate (405), a second U-shaped groove is fixedly connected with the first U-shaped through groove, a rectangular shaft (503) is connected to the inner end of each second U-shaped through groove (502), a rotary shaft (503) is formed at the end of each rectangular plate (502), the utility model provides a take-out plate (405) lower extreme fixed connection third rectangular plate (403), two third rectangular plate (403) opposite face and straight flute board (402) both sides fixed connection, routing equipment (1) are used for the transmission to the signal, routing equipment (1) include a plurality of antenna (103), every antenna (103) lower extreme rotation is connected with third bull stick (102), a plurality of bench type logical groove (101) have been seted up to the both sides of sucking disc (401), every bench type logical groove (101) inside sliding connection has bench type board (105), bench type board (105) and third bull stick (102) fixed connection, the inside fixedly connected with two dust guard (104) of casing (106), every dust guard (104) are located behind arc (205).