CN113286488B - Internet of things gateway for electric power communication capable of preventing line from falling off - Google Patents

Abstract

The invention discloses an Internet of things gateway for electric power communication, which comprises a gateway main body and a master control box for controlling the gateway, wherein the master control box is used for controlling the gateway; the front end of the gateway main body is provided with a plurality of wiring ports, and the top end of the gateway main body is provided with a control panel and a display screen; the main control box is arranged at the top end of the gateway main body, temperature sensors are arranged at two sides of the interior of the gateway main body, a wiring terminal is arranged at the bottom end of the interior of the gateway main body, and a pressure sensor is arranged outside the wiring terminal; a heat radiation fan is arranged at the bottom end of the gateway main body, and a heat radiation opening is formed in the rear end of the gateway main body; the inside of thermovent is provided with the guard plate, the outside of thermovent is equipped with a plurality of wind sensors. In the use process, the anti-falling wire has better effect, better protection effect and more popularization and use value.

Description

Internet of things gateway for electric power communication capable of preventing line from falling off

Technical Field

The invention relates to the field of gateway equipment, in particular to an Internet of things gateway for electric power communication, which is capable of preventing a line from falling off.

Background

Gateway devices, also known as gateway connectors, protocol converters, are computer systems or devices that provide data conversion services between multiple networks. It can be said that the gateway device is a connector between different networks, i.e. a device that "negotiates" when data is going from one network to another, and even between two systems with completely different architectures when using different communication protocols, data formats or languages, the gateway is a translator, and the gateway repacks the received information to adapt to the needs of the destination system, and at the same time, it acts as a filtering and security gateway, operating at all levels above and at the transport layer of OSI/RM, and it is by repackaging the information to enable them to be handled by another system, for which the gateway must also be able to communicate with various applications, including setting up and managing sessions, transmitting and parsing data, etc. In fact, the current gateway cannot be completely classified into one network hardware, but can be summarized as a combination product of software and hardware capable of connecting different networks.

When the existing gateway is used, an accessed cable is easy to fall off, and equipment safety protection is not good enough, so that the service life of the equipment is not long enough, and certain influence is brought to the use of gateway equipment.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: how to solve the existing gateway, when in use, an accessed cable is easy to fall off, and equipment safety protection is not good enough, so that the service life of the equipment is not long enough, and the problem of certain influence on the use of gateway equipment is solved, so that the Internet of things gateway for electric power communication, which is used for preventing line falling, is provided.

The invention solves the technical problems through the following technical scheme that the invention comprises a gateway main body and a master control box for controlling the gateway;

the front end of the gateway main body is provided with a plurality of wiring ports, and the top end of the gateway main body is provided with a control panel and a display screen;

the main control box is arranged at the top end of the gateway main body, temperature sensors are arranged at two sides of the interior of the gateway main body, a wiring terminal is arranged at the bottom end of the interior of the gateway main body, and a pressure sensor is arranged outside the wiring terminal;

a heat radiation fan is arranged at the bottom end of the gateway main body, and a heat radiation opening is formed in the rear end of the gateway main body;

a protection plate is arranged in the heat dissipation opening, and a plurality of wind sensors are arranged outside the heat dissipation opening;

the master control box comprises a data receiving module, a data processing module, a master control module and an information sending module;

the data receiving module is used for receiving real-time pressure information acquired by the pressure sensor, real-time internal temperature information acquired by the temperature sensor and real-time wind power information acquired by the wind sensor;

real-time pressure information acquired by the pressure sensor, real-time internal temperature information acquired by the temperature sensor and real-time wind power information acquired by the wind sensor are transmitted to the data processing module;

the data processing module processes the real-time pressure information acquired by the pressure sensor, the real-time internal temperature information acquired by the temperature sensor and the real-time wind power information acquired by the wind sensor to generate wiring alarm information, heat dissipation information, equipment alarm information and equipment cleaning information;

the master control module controls the information sending module to send out wiring alarm information, heat dissipation information, equipment alarm information and equipment cleaning information.

Preferably, the protection plate includes a mounting frame and a dust filtering net disposed in the mounting frame.

Preferably, the wiring alarm information includes a loose wiring alarm and an overtightening wiring alarm, and the specific processing procedure of the wiring alarm information is as follows:

step one: extracting real-time pressure information acquired by the pressure sensor and marking the real-time pressure information as Y _{Real world} ；

Step two: a preset pressure threshold Y is set _{Threshold value} Calculate the real-time pressure information Y _{Real world} With a preset pressure threshold Y _{Threshold value} The difference between them gives a pressure difference Y _{Difference of difference} ；

Step three, a step of performing; when the pressure is different from Y _{Difference of difference} When the pressure difference is larger than the preset value A1, a wire loosening alarm is generated, and when the pressure difference is Y _{Difference of difference} When the value is smaller than a preset value A2, generating a wiring overtightening alarm;

the specific content of the wiring overtightening alarm is that the access cable is overtightened and the adjustment is required, and the specific processing process of the wiring safety loosening alarm information is that the access cable is loosened and the adjustment is required.

Preferably, the heat dissipation information includes first heat dissipation information and second heat dissipation information, and a specific processing procedure of the heat dissipation information is as follows:

step one: extracting real-time temperature information P and K acquired by two temperature sensors;

step two: continuously collecting real-time temperature information for x times within a preset time length, and marking the real-time temperature information as P and K, wherein x is more than or equal to 5;

step three: by the formula (p1+p2+ … … Px)/x=p _{Are all} Obtaining a first temperature average value P _{Are all} ；

Step four: and then passes the formula (k1+k2+ … … Kx)/x=k _{Are all} Obtaining a second temperature mean value K _{Are all} ；

Step five: then calculate the first temperature average value P _{Are all} And to a second temperature mean value K _{Are all} Sum of (1) to obtain temperature and Pk _And ；

step six: by the formula Pk _And /2＝Pk _{are all} Obtaining the final temperature average value Pk _{Are all} ；

Step seven: a temperature threshold Pk is set _{Threshold value} Calculating a final temperature average value Pk _{Are all} And a temperature threshold Pk _{Threshold value} The difference between them gives Pk _{Difference of difference} ；

Step eight: when Pk is _{Difference of difference} When the temperature is smaller than the preset value, generating first heat dissipation information, and when Pk _{Difference of difference} And when the temperature is larger than the preset value, generating second heat dissipation information.

Preferably, when the first heat dissipation information is sent to the gateway main body, only one of the two heat dissipation fans is operated, and when the second heat dissipation information is sent to the gateway main body, the two heat dissipation fans are operated simultaneously to dissipate heat.

Preferably, the specific processing procedure of the alarm information of the device is as follows: the method comprises the steps of extracting real-time temperature information acquired by two temperature sensors, and generating equipment alarm information when any one of the real-time temperature information acquired by the two temperature sensors is higher than a preset alarm temperature;

the specific content of the equipment alarm information is that the temperature inside the gateway equipment is too high, and equipment maintenance processing is performed in time.

Preferably, the specific processing procedure of the device cleaning information is as follows:

step one: extracting real-time wind power information acquired by a plurality of wind sensors, wherein the real-time wind power information is wind power information;

step two, a step two is carried out; the number of the wind sensors is marked as i, i is more than or equal to 4, and the wind force information is marked as F;

step three, a step of performing; set the equipment cleaning threshold F _{Threshold value} By the formula F1-F _{Threshold value} ＝Ff1 _{Difference of difference} F2-F _{Threshold value} ＝Ff2 _{Difference of difference} ……Fi－F _{Threshold value} ＝Ffi _{Difference of difference} ；

Step four: when Ff1 _{Difference of difference} To = Ffi _{Difference of difference} And when the number of the equipment cleaning information is smaller than the preset value and is larger than 2, generating equipment cleaning information.

Preferably, the specific content of the device cleaning information is: the current protection plate stores excessive dust and is cleaned.

Compared with the prior art, the invention has the following advantages:

1. according to the anti-falling Internet of things gateway for electric power communication, the compression degree of the access cable is monitored in real time through the pressure sensor 8, so that the tightness of the access of the cable is known, an alarm is timely given when a wiring is loosened to remind a user, the user can timely connect the cable, the situation that the cable for placing the access gateway falls off due to the loosening of the wiring is effectively avoided, and the anti-falling effect of the gateway is greatly improved;

2. meanwhile, through the temperature difference sensor arranged in the gateway, different types of heat dissipation information are generated in different temperature states through real-time monitoring of the temperature conditions in the gateway, so that different numbers of heat dissipation fans are controlled to operate;

3. the wind sensor monitors the wind blown out by the heat radiation fan in real time, so that the dust on the protection plate can be collected, reminding information can be timely sent out when the wind power is monitored to be too small, a user can timely clean the protection plate, and the gateway can be timely maintained and overhauled effectively, so that the service life of gateway equipment is prolonged.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is a general control box installation view of the present invention;

FIG. 3 is a block diagram of a cooling fan installation of the present invention;

fig. 4 is a view showing a guard plate installation structure of the present invention;

fig. 5 is a block diagram of the master control box system of the present invention.

In the figure: 1. a gateway body; 2. a wiring port; 3. a control panel; 4. a display screen; 5. a master control box; 6. A temperature sensor; 7. a connection terminal; 8. a pressure sensor; 9. a heat radiation fan; 10. a heat radiation port; 11. A protection plate; 12. a wind sensor.

Detailed Description

The following describes in detail the examples of the present invention, which are implemented on the premise of the technical solution of the present invention, and detailed embodiments and specific operation procedures are given, but the scope of protection of the present invention is not limited to the following examples.

As shown in fig. 1 to 5, the present embodiment provides a technical solution: an anti-line-drop Internet of things gateway for electric power communication comprises a gateway main body 1 and a main control box 5 for controlling the gateway;

the front end of the gateway main body 1 is provided with a plurality of wiring ports 2, and the top end of the gateway main body 1 is provided with a control panel 3 and a display screen 4;

the general control box 5 is arranged at the top end of the inside of the gateway main body 1, temperature sensors 6 are arranged at two sides of the inside of the gateway main body 1, a wiring terminal 7 is arranged at the bottom end of the inside of the gateway main body 1, and a pressure sensor 8 is arranged outside the wiring terminal 7;

a heat radiation fan 9 is arranged at the inner bottom end of the gateway main body 1, and a heat radiation opening 10 is formed at the rear end of the gateway main body 1;

a protection plate 11 is arranged in the heat dissipation opening 10, and a plurality of wind sensors 12 are arranged outside the heat dissipation opening 10;

the master control box 5 comprises a data receiving module, a data processing module, a master control module and an information sending module;

the data receiving module is used for receiving real-time pressure information acquired by the pressure sensor 8, real-time internal temperature information acquired by the temperature sensor 6 and real-time wind power information acquired by the wind sensor 12;

real-time pressure information acquired by the pressure sensor 8, real-time internal temperature information acquired by the temperature sensor 6 and real-time wind power information acquired by the wind sensor 12 are both sent to a data processing module;

the data processing module processes the real-time pressure information acquired by the pressure sensor 8, the real-time internal temperature information acquired by the temperature sensor 6 and the real-time wind power information acquired by the wind sensor 12 to generate wiring alarm information, heat dissipation information, equipment alarm information and equipment cleaning information;

the master control module controls the information sending module to send out wiring alarm information, heat dissipation information, equipment alarm information and equipment cleaning information.

The protection plate 11 includes a mounting frame and a dust filtering net provided in the mounting frame.

The wiring alarm information comprises a wiring loosening alarm and a wiring overtightening alarm, and the specific processing process of the wiring alarm information is as follows:

step one: extracting real-time pressure information acquired by the pressure sensor 8 and marking the real-time pressure information as Y _{Real world} ；

Step two: a preset pressure threshold Y is set _{Threshold value} Calculate the real-time pressure information Y _{Real world} With a preset pressure threshold Y _{Threshold value} The difference between them gives a pressure difference Y _{Difference of difference} ；

Step three, a step of performing; when the pressure is different from Y _{Difference of difference} When the pressure difference is larger than the preset value A1, a wire loosening alarm is generated, and when the pressure difference is Y _{Difference of difference} When the value is smaller than a preset value A2, generating a wiring overtightening alarm;

the specific content of the wiring overtightening alarm is that the access cable is overtightened and the adjustment is required, and the specific processing process of the wiring safety loosening alarm information is that the access cable is loosened and the adjustment is required.

The heat dissipation information comprises first heat dissipation information and second heat dissipation information, and the specific processing process of the heat dissipation information is as follows:

step one: extracting real-time temperature information P and K acquired by the two temperature sensors 6;

step two: continuously collecting real-time temperature information for x times within a preset time length, and marking the real-time temperature information as P and K, wherein x is more than or equal to 5;

step three: by the formula (p1+p2+ … … Px)/x=p _{Are all} Obtaining a first temperature average value P _{Are all} ；

Step four: and then passes the formula (k1+k2+ … … Kx)/x=k _{Are all} Obtaining a second temperature mean value K _{Are all} ；

Step five: then calculate the first temperature average value P _{Are all} And to a second temperature mean value K _{Are all} Sum of (1) to obtain temperature and Pk _And ；

step six: by the formula Pk _And /2＝Pk _{are all} Obtaining the final temperature average value Pk _{Are all} ；

Step seven: a temperature threshold Pk is set _{Threshold value} Calculating a final temperature average value Pk _{Are all} And a temperature threshold Pk _{Threshold value} The difference between them gives Pk _{Difference of difference} ；

Step eight: when Pk is _{Difference of difference} When the temperature is smaller than the preset value, generating first heat dissipation information, and when Pk _{Difference of difference} And when the temperature is larger than the preset value, generating second heat dissipation information.

When the first heat dissipation information is sent to the gateway main body 1, only one of the two heat dissipation fans 9 is operated, and when the second heat dissipation information is sent to the gateway main body 1, the two heat dissipation fans 9 are operated at the same time to dissipate heat.

The specific processing procedure of the equipment alarm information is as follows: the real-time temperature information acquired by the two temperature sensors 6 is extracted, and when any one of the real-time temperature information acquired by the two temperature sensors 6 is higher than a preset alarm temperature, equipment alarm information is generated;

the specific content of the equipment alarm information is that the temperature inside the gateway equipment is too high, and equipment maintenance processing is performed in time.

The specific processing process of the equipment cleaning information is as follows:

step one: extracting real-time wind power information acquired by the wind sensors 12, wherein the real-time wind power information is wind power information;

step two, a step two is carried out; the number of the wind sensors 12 is marked as i, i is more than or equal to 4, and the wind power information is marked as F;

step three, a step of performing; set the equipment cleaning threshold F _{Threshold value} By the formula F1-F _{Threshold value} ＝Ff1 _{Difference of difference} F2-F _{Threshold value} ＝Ff2 _{Difference of difference} ……Fi－F _{Threshold value} ＝Ffi _{Difference of difference} ；

Step four: when Ff1 _{Difference of difference} To = Ffi _{Difference of difference} And when the number of the equipment cleaning information is smaller than the preset value and is larger than 2, generating equipment cleaning information.

The specific content of the equipment cleaning information is as follows: "excessive dust is accumulated on the current protection plate 11, and cleaning is performed.

When the gateway is used, the front end of the gateway main body 1 is provided with a plurality of wiring ports 2, a cable to be accessed is connected with the gateway main body 1 through the wiring ports 2, the top end of the gateway main body 1 is provided with a control panel 3 and a display screen 4, the control panel 3 is used for controlling and setting the gateway, and the display screen 4 is used for displaying prompt information;

temperature sensors 6 used for collecting the internal temperature of the gateway main body 1 are arranged on two sides of the interior of the gateway main body 1, a wiring terminal 7 arranged at the bottom end of the interior of the gateway main body 1 is used for receiving accessed new Arlan, and a pressure sensor 8 arranged outside the wiring terminal 7 is used for collecting the pressure degree, namely the tightness, of an accessed cable;

the inside bottom of the gateway main body 1 is provided with a heat dissipation fan 9 used for continuously dissipating heat of the gateway main body 1, the rear end of the gateway main body 1 is provided with a heat dissipation opening 10, the heat dissipation fan 9 discharges hot air in the gateway main body 1 through the heat dissipation opening 10, the inside of the heat dissipation opening 10 is provided with a protection plate 11, the protection plate 11 is used for filtering dust in the air and reducing dust accumulated in the gateway, the outside of the heat dissipation opening 10 is provided with a plurality of wind sensors 12 used for collecting wind force, a data receiving module is used for receiving real-time pressure information collected by the pressure sensor 8, real-time internal temperature information collected by the temperature sensor 6 and real-time wind force information collected by the wind sensor 12, and the real-time internal temperature information collected by the temperature sensor 6 and the real-time wind force information collected by the wind sensor 12 are both sent to a data processing module; the data processing module processes the real-time pressure information acquired by the pressure sensor 8, the real-time internal temperature information acquired by the temperature sensor 6 and the real-time wind power information acquired by the wind sensor 12 to generate wiring alarm information, heat dissipation information, equipment alarm information and equipment cleaning information; the master control module controls the information sending module to send out wiring alarm information, heat dissipation information, equipment alarm information and equipment cleaning information, the display screen 4 displays the wiring alarm information, the heat dissipation information, the equipment alarm information and the equipment cleaning information, the tightness of the access of the cable is known through the real-time monitoring of the compression degree of the access cable by the pressure sensor 8, the user is reminded of timely sending out an alarm when the wiring is loose, the cable can be timely connected, the condition that the cable which is provided with the access gateway drops due to the loose wiring is effectively avoided, the anti-drop effect of the gateway is greatly improved, meanwhile, different types of heat dissipation information is generated in different temperature states through the temperature difference sensor arranged in the gateway by the real-time monitoring of the temperature condition in the gateway, thereby control the operation of the cooling fan 9 of different quantity, this kind of person can also better realize energy-concerving and environment-protective when guaranteeing the radiating efficiency of gateway, avoided two cooling fans 9 to operate the excessive resource waste that leads to of radiating efficiency simultaneously for a long time, and in time send out alarm information when the temperature is different in the gateway, still further promoted the equipment security when guaranteeing the radiating effect, how much that dust on the guard plate 11 was stored up can be known through the size of wind that wind sensor 12 real-time supervision cooling fan 9 blown out, when monitoring wind-force too little, timely sending out the warning information, let the clearance guard plate 11 that the user can be timely, this kind of gateway is provided with and effectively makes the gateway obtain timely maintenance, the life of gateway equipment has been prolonged.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present invention, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

While embodiments of the present invention have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the invention, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the invention.

Claims (2)

1. The gateway for the electric power communication with the Internet of things is characterized by comprising a gateway main body (1) and a master control box (5) for controlling the gateway;

the front end of the gateway main body (1) is provided with a plurality of wiring ports (2), and the top end of the gateway main body (1) is provided with a control panel (3) and a display screen (4);

the general control box (5) is arranged at the top end of the gateway main body (1), temperature sensors (6) are arranged on two sides of the gateway main body (1), a wiring terminal (7) is arranged at the bottom end of the gateway main body (1), and a pressure sensor (8) is arranged outside the wiring terminal (7);

a heat radiation fan (9) is arranged at the inner bottom end of the gateway main body (1), and a heat radiation opening (10) is formed at the rear end of the gateway main body (1);

a protection plate (11) is arranged in the heat dissipation opening (10), and a plurality of wind sensors (12) are arranged outside the heat dissipation opening (10);

the master control box (5) comprises a data receiving module, a data processing module, a master control module and an information sending module;

the data receiving module is used for receiving real-time pressure information acquired by the pressure sensor (8), real-time internal temperature information acquired by the temperature sensor (6) and real-time wind power information acquired by the wind sensor (12);

real-time pressure information acquired by the pressure sensor (8), real-time internal temperature information acquired by the temperature sensor (6) and real-time wind power information acquired by the wind sensor (12) are transmitted to the data processing module;

the data processing module processes the real-time pressure information acquired by the pressure sensor (8), the real-time internal temperature information acquired by the temperature sensor (6) and the real-time wind power information acquired by the wind sensor (12) to generate wiring alarm information, heat dissipation information, equipment alarm information and equipment cleaning information;

the master control module controls the information sending module to send out wiring alarm information, heat dissipation information, equipment alarm information and equipment cleaning information;

the wiring alarm information comprises a wiring loosening alarm and a wiring overtightening alarm, and the specific processing process of the wiring alarm information is as follows:

step one: extracting real-time pressure information acquired by a pressure sensor (8), and marking the real-time pressure information as Y _{Real world} ；

Step two: a preset pressure threshold Y is set _{Threshold value} Calculate the real-time pressure information Y _{Real world} With a preset pressure threshold Y _{Threshold value} The difference between them gives the pressureDifference Y _{Difference of difference} ；

Step three, a step of performing; when the pressure is different from Y _{Difference of difference} When the pressure difference is larger than the preset value A1, a wire loosening alarm is generated, and when the pressure difference is Y _{Difference of difference} When the value is smaller than a preset value A2, generating a wiring overtightening alarm;

the specific content of the wiring overtightening alarm is that an access cable is overtightened and is required to be adjusted, and the specific processing process of the wiring safety loosening alarm information is that the access cable is loosened and is required to be adjusted;

the heat dissipation information comprises first heat dissipation information and second heat dissipation information, and the specific processing process of the heat dissipation information is as follows:

step one: extracting real-time temperature information P and K acquired by two temperature sensors (6);

step two: continuously collecting real-time temperature information for x times within a preset time length, and marking the real-time temperature information as P and K, wherein x is more than or equal to 5;

step three: by the formula (p1+p2+ … … Px)/x=p _{Are all} Obtaining a first temperature average value P _{Are all} ；

Step four: and then passes the formula (k1+k2+ … … Kx)/x=k _{Are all} Obtaining a second temperature mean value K _{Are all} ；

Step five: then calculate the first temperature average value P _{Are all} And to a second temperature mean value K _{Are all} Sum of (1) to obtain temperature and Pk _And ；

step six: by the formula Pk _And /2＝Pk _{are all} Obtaining the final temperature average value Pk _{Are all} ；

Step seven: a temperature threshold Pk is set _{Threshold value} Calculating a final temperature average value Pk _{Are all} And a temperature threshold Pk _{Threshold value} The difference between them gives Pk _{Difference of difference} ；

Step eight: when Pk is _{Difference of difference} When the temperature is smaller than the preset value, generating first heat dissipation information, and when Pk _{Difference of difference} When the temperature is larger than the preset value, generating second heat dissipation information;

when the first heat radiation information is sent to the gateway main body (1), only one of the two heat radiation fans (9) operates, and when the second heat radiation information is sent to the gateway main body (1), the two heat radiation fans (9) operate at the same time to radiate heat;

the specific processing procedure of the equipment alarm information is as follows: the method comprises the steps of extracting real-time temperature information acquired by two temperature sensors (6), and generating equipment alarm information when any one temperature in the real-time temperature information acquired by the two temperature sensors (6) is greater than a preset alarm temperature;

the specific content of the equipment alarm information is that the temperature inside gateway equipment is too high, and equipment maintenance processing is performed in time;

the specific processing process of the equipment cleaning information is as follows:

step one: extracting real-time wind power information acquired by a plurality of wind sensors (12), wherein the real-time wind power information is wind power information;

step two, a step two is carried out; the number of the wind sensors (12) is marked as i, i is more than or equal to 4, and the wind force information is marked as F;

step three, a step of performing; set the equipment cleaning threshold F _{Threshold value} By the formula F1-F _{Threshold value} ＝Ff1 _{Difference of difference} F2-F _{Threshold value} ＝Ff2 _{Difference of difference} ……Fi－F _{Threshold value} ＝Ffi _{Difference of difference} ；

Step four: when Ff1 _{Difference of difference} To = Ffi _{Difference of difference} When the number of the equipment cleaning information is smaller than the preset value and is larger than 2, equipment cleaning information is generated;

the specific content of the equipment cleaning information is as follows: the current protection plate (11) stores excessive dust and is cleaned.

2. The line drop prevention internet of things gateway for electric power communication according to claim 1, wherein: the protection plate (11) comprises a mounting frame and a dust filtering net arranged in the mounting frame.