CN110572783A - Remote safety monitoring management system and method based on short message - Google Patents

Abstract

The invention discloses a remote safety monitoring management method based on short messages, which comprises the following steps: s1, the machine room acquisition monitoring host acquires monitoring data of the environment monitoring equipment; s2, the monitoring data comprises a data item serial number, a data item name, a data item standard value, a data item unit and a collection value of the environment monitoring equipment, the state of the environment monitoring equipment in the collection value is collected into Boolean data, and the parameter of the environment monitoring equipment in the collection value is collected into numerical data; s3, the machine room collecting and monitoring host machine processes and encrypts the collected numerical data and converts the data into coded information; s4, the machine room acquisition monitoring host sends the coded information to the remote monitoring management server through the short message transmission strategy module and the machine room short message equipment; and S5, the remote monitoring management server sends the coded information to the terminal. The invention carries out classified compression and encryption on the data, so that the data content is shorter in length, convenient to transmit and better in safety.

Description

Remote safety monitoring management system and method based on short message

Technical Field

The invention relates to the technical field of security monitoring, in particular to a remote security monitoring management system and method based on short messages.

Background

in the prior art, when the machine room is remotely monitored and managed, the monitoring and management are generally performed at terminals such as a mobile phone APP, a WeChat or a WEB browser. Because of the limit of capital and the like and the influence of use convenience, a private network is not generally erected, and the internet access is used for remote monitoring management, so that the safety of the service data of the monitored machine room is subjected to the risk of being invaded.

in the prior art, usually, the alarm information is sent only by a short message, and the monitoring management of the state of the monitored equipment cannot be realized. In some computer room remote monitoring management methods including multiple devices, monitoring data is sent separately for each device, which results in excessive short messages and inconvenience in monitoring, data management and storage.

disclosure of Invention

the technical problem to be solved by the invention is as follows: the short message-based remote security monitoring management system and method are provided, the device state in the collected data type is collected into Boolean data, the device parameter in the data type is collected into numerical data, the numerical data is processed into percentage data, and after encryption processing is carried out by combining the Boolean data, the sending content is greatly shortened, and the data is better and safer.

the technical scheme adopted by the invention for solving the problems is as follows: a remote safety monitoring management method based on short messages comprises the following steps:

S1, the machine room collection monitoring host collects the monitoring data of the environment monitoring equipment, and the monitoring data are stored in the machine room collection monitoring host and the remote monitoring management server;

s2, the monitoring data comprises a machine room collecting monitoring host number, a data item serial number, a data item name, a data item standard value, a data item unit and a collecting value of the environment monitoring equipment, the state of the environment monitoring equipment in the collecting value is collected into Boolean data, and the parameter of the environment monitoring equipment in the collecting value is collected into numerical data;

S3, the machine room collecting and monitoring host machine compares the collected numerical data with the standard value of the data item to obtain the change percentage, and encrypts the processed monitoring data and converts the encrypted monitoring data into coded information;

s4, the machine room acquisition monitoring host sends the coded information to the remote monitoring management server through the short message transmission strategy module and the machine room short message equipment;

And S5, the remote monitoring management server sends the coded information to the terminal.

Preferably, in step S3, the specific steps are as follows:

S31, encrypting the collected Boolean data through decimal or hexadecimal according to the serial number of the environment monitoring equipment, and converting the data into Boolean data codes;

S32, comparing the collected numerical data with the standard value of the data item according to the serial number of the environment monitoring equipment to obtain the change percentage, expressing the change percentage by capital letters and numbers, and converting the change percentage into numerical data codes;

and S33, separating Boolean type data codes and numerical type data codes by non-numeric non-alphabetical symbols, wherein the Boolean type data codes, the numerical type data codes and the symbols form coded information.

preferably, in step S32, when the change percentage is a positive number, it is indicated by capital letters; when the percentage change is negative, it is indicated by lower case letters; when the absolute value of the percent change data exceeds 25%, the letter is preceded by the number 1.

Preferably, the machine room acquisition monitoring host, the environment monitoring equipment, the short message transmission strategy module and the machine room short message equipment are all multiple, and the short message transmission strategy module comprises a sub short message transmission strategy module and a main short message transmission strategy module;

Each machine room acquisition monitoring host acquires corresponding equipment and transmits coding information to the corresponding sub-short message transmission strategy module, the sub-short message transmission strategy module transmits the coding information to the main short message transmission strategy module through the machine room short message equipment, and the main short message transmission strategy module transmits the coding information to the terminal through the remote monitoring management server.

preferably, in step S4, the method specifically includes the following steps:

S41, each machine room acquisition monitoring host transmits the coded information to the corresponding sub-short message transmission strategy module;

S42, the sub short message transmission strategy module judges whether the current state of the short message equipment in the machine room is busy, if yes, the step S43 is executed; otherwise, go to step S44;

s43, the sub short message transmission strategy module sends the current coding information to the adjacent idle machine room short message equipment, the adjacent idle machine room short message equipment sends the coding information to the main short message transmission strategy module, and the step S45 is executed;

S44, the sub short message transmission strategy module sends the current coding information to the current machine room short message equipment, the current machine room short message equipment sends the coding information to the main short message transmission strategy module, and the step S45 is executed;

And S45, the main short message transmission strategy module transmits the current coding information to the remote monitoring management server.

Preferably, in step S44 and step S45, if the encoded information in the short message service equipment in the equipment room is not sent to the main short message transmission policy module, the encoded information in the short message service equipment in the equipment room is sent to the standby remote short message service equipment in the equipment room, and the remote short message service equipment in the equipment room sends the encoded information to the main short message transmission policy module; otherwise, the short message equipment of the machine room directly sends the coded information to the main short message transmission strategy module.

preferably, when the terminal accesses the remote monitoring management server to obtain the monitoring data in the machine room, the method includes the following steps:

a user selects a machine room name and inputs a mobile phone number to obtain a verification code;

The remote monitoring management server informs the machine room collection monitoring host machine of comparing the mobile phone number and the verification code through the machine room short message equipment, the terminal is accessed into the machine room collection monitoring host machine, and parameters of the environment monitoring equipment are set; otherwise, the computer room is not accessed to the collecting and monitoring host.

preferably, in step S1, the machine room collection monitoring host further collects alarm data, and in step S4, the specific steps of the machine room collection monitoring host transmitting the encoded information to the corresponding sub short message transmission policy module are as follows:

S411, the machine room collection monitoring host analyzes whether the collected data contains alarm data, and if not, the step S412 is executed; if yes, go to step S413;

s412, generating short message content from the coded information, and sending the short message content and the sending time point information to the sub short message transmission strategy module;

S413, judging whether the level of the alarm data is high, if so, executing a step S414; otherwise, step S415 is executed;

S414, generating short message content from the coded information, and sending the short message content and the immediate sending information to the sub short message transmission strategy module;

S415, generating short message content from the coded information, adjusting the sending time point information, and sending the short message content and the adjusted sending time point information to the sub short message transmission strategy module.

The machine room collects monitoring data of the monitoring host collecting equipment and sends the monitoring data to the short message transmission strategy module through encryption, the short message transmission strategy module sends the monitoring data to the remote monitoring management server through the machine room short message equipment, and the remote monitoring management server sends the monitoring data to the terminal.

preferably, the equipment comprises temperature and humidity equipment, air conditioning equipment, power distribution equipment, smoke sensing equipment and water immersion equipment; the terminal comprises a mobile phone APP, a web browser, a WeChat applet and a mailbox.

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

(1) dividing the collected monitoring data into Boolean data and numerical data, and processing the numerical data into change percentage representation, so that the content length of the processed data is greatly shortened;

(2) Processing the Boolean data into decimal numbers or hexadecimal numbers, and then encrypting and representing the change percentage by numbers and capital and lower case letters to further shorten the length of the sent content;

(3) The system comprises a plurality of machine room acquisition monitoring hosts, a plurality of short message transmission strategy modules, a plurality of machine room short message devices and a remote monitoring management server, wherein the plurality of machine room acquisition monitoring hosts, the plurality of short message transmission strategy modules, the plurality of machine room short message devices and the remote monitoring management server form a network, each layer of equipment is in cross interconnection, a control link of each layer of equipment is in a mesh structure, and the short message transmission strategy modules can select the best machine room short message device to transmit short messages according to the health states of;

(4) And transmitting the data in a mode of transmitting the data in a unidirectional way at a fixed time period, and adjusting the transmission interval time and the transmission time point according to the grade of the alarm data after receiving the alarm data.

drawings

FIG. 1 is a schematic structural diagram of a remote security monitoring and management system based on short messages according to the present invention;

FIG. 2 is a flow chart of information transmission of the remote security monitoring and management method based on short messages according to the present invention;

FIG. 3 is a flow chart of an encryption method of the remote security monitoring and management method based on short messages according to the present invention;

fig. 4 is a timing transmission flowchart of the remote security monitoring management method based on short messages according to the present invention.

The reference numbers in the figures illustrate: 1. the system comprises an environment monitoring device, a machine room acquisition monitoring host, a sub short message transmission strategy module, a main short message transmission strategy module, a machine room short message device, a remote monitoring management server and a terminal, wherein the environment monitoring device 2 comprises a machine room acquisition monitoring host, 31, the sub short message transmission strategy module, 32, the main short message transmission strategy module, 4, the machine room short message.

Detailed Description

Embodiments of the present invention are further described below with reference to the accompanying drawings.

example one

as shown in fig. 1 to 4, the present embodiment relates to a remote security monitoring and management method based on short messages, which includes the following steps:

And S1, the machine room collection monitoring host 2 collects the monitoring data of the environment monitoring equipment 1, and the monitoring data is stored in the machine room collection monitoring host 2 and the remote monitoring management server 5.

In this embodiment, the machine room collection monitoring host 2 and the environment monitoring device 1 may be a single device or a plurality of devices. If a plurality of machines are set, each machine room collection monitoring host 2 collects the corresponding environment monitoring equipment 1. The storage of the monitoring data in the remote monitoring management server 5 is for backup, which facilitates subsequent operations.

And S2, the monitoring data comprise the serial number of the machine room collection monitoring host 2, the data item serial number of the environment monitoring equipment 1, the data item name, the data item standard value, the data item unit and the collection value, the state of the environment monitoring equipment 1 in the collection value is collected into Boolean data, and the parameter of the environment monitoring equipment 1 in the collection value is collected into numerical data.

in this step, the status of the environment monitoring apparatus 1 generally includes states of normal, failure, open, close, running, and stop, and the boolean data is either 0 or 1. The data item units in the environment monitoring device 1 can be divided into two groups, such as normal and failure, open and close, operation and stop, and the state of each data item of the current environment monitoring device 1 can be easily known by setting the standard value of each data item.

and S3, the machine room collection monitoring host 2 compares the collected numerical data with the standard value of the data item to obtain the change percentage, encrypts the processed monitoring data and converts the encrypted monitoring data into coded information. As shown in fig. 2, the specific steps are as follows:

and S31, encrypting the collected Boolean data through decimal or hexadecimal according to the serial number of the environment monitoring equipment 1, and converting the collected Boolean data into Boolean data codes.

Preferably, hexadecimal is used for encryption, because the processed data can be preferably short. Specifically, hexadecimal capital letters can be used for representation.

and S32, comparing the acquired numerical data with the standard value of the data item according to the serial number of the environment monitoring equipment 1 to obtain the change percentage, representing the change percentage by upper and lower case letters and numbers, and converting the change percentage into numerical data codes.

In this step, when the percentage of change is positive, it is indicated in capital letters; when the percentage change is negative, it is indicated by lower case letters; when the absolute value of the percentage change data exceeds 25%, the letter is preceded by the number 1, i.e., expressed in 26-ary. The method comprises the following specific steps: a and a represent 0, B represents + 1%, B represents-1%, Z represents + 25%, and Z represents-25%. When the absolute value of the percentage data exceeds 25%, a number from 0 to 9 is added to the letter, e.g. 1A means 1 × 26+0 ═ 26%, 9b means-9 × 26-1 ═ 235%.

For example, the commercial power input voltage, the standard term value 220V, the actual collected data is 231V, the actual collected data is 11V higher than the standard, the conversion percentage is + 5%, the corresponding code number is 5, and the corresponding code capital letter is F. The commercial power input current, the standard item value is 10A, the actual acquisition is 6A, the actual acquisition data is 4A lower than the standard, the conversion percentage is-40%, the corresponding code number is 26+14, and the corresponding code number is 1 and the lower case letter is o. The code of the two terms of the mains input voltage and the mains input current is F1 o.

and S33, separating Boolean type data codes and numerical type data codes by non-numeric non-alphabetical symbols, wherein the Boolean type data codes, the numerical type data codes and the symbols form coded information.

In this step, the symbol may be represented by "═ or", and during transmission, it is required to agree which of boolean data encoding and numeric data encoding is in advance. In the embodiment, boolean data is selected to be encoded before, but numerical data may be selected to be encoded before.

if a plurality of machine room collecting and monitoring hosts are adopted, the number of the machine room collecting and monitoring host 2 is added to the coded information in the step, namely the number of the machine room collecting and monitoring host 2, the Boolean type data codes and the numerical type data codes are separated by non-digital non-letter type symbols, and the number of the machine room collecting and monitoring host 2, the Boolean type data codes, the numerical type data codes and the symbols form the coded information. The number of the machine room collection monitoring host 2 can be collected as numerical data and is represented by a decimal number or a hexadecimal number.

and S4, the machine room collection monitoring host 2 sends the coded information to the remote monitoring management server 5 through the short message transmission strategy module and the machine room short message equipment 4.

In this embodiment, the short message transmission policy module and the short message device 4 in the machine room may be set as a single device or as multiple devices. The short message transmission strategy module includes a sub short message transmission strategy module 31 and a main short message transmission strategy module 32.

Each machine room collection monitoring host 2 collects the corresponding environment monitoring equipment 1 and transmits the coding information to the corresponding sub-short message transmission strategy module 31, the sub-short message transmission strategy module 31 transmits the coding information to the main short message transmission strategy module 32 through the machine room short message equipment 4, and the main short message transmission strategy module 32 transmits the coding information to the remote monitoring management server 5.

as shown in fig. 3, in step S4, the method specifically includes the following steps:

S41, each machine room collecting and monitoring host 2 transmits the coded information to the corresponding sub short message transmission strategy module 31;

s42, the sub short message transmission strategy module 31 judges whether the current state of the short message equipment 4 in the machine room is busy, if yes, the step S43 is executed; otherwise, go to step S44;

S43, the sub short message transmission strategy module 31 sends the current coding information to the adjacent idle machine room short message equipment 4, the adjacent idle machine room short message equipment 4 sends the coding information to the main short message transmission strategy module 32, and the step S45 is executed;

S44, the sub short message transmission strategy module 31 sends the current coding information to the current machine room short message equipment 4, the current machine room short message equipment 4 sends the coding information to the main short message transmission strategy module 32, and the step S45 is executed;

s45, the main short message transmission policy module 32 transmits the current encoding information to the remote monitoring management server 5.

in steps S44 and S45, if the encoded information in the short message device 4 in the machine room is not sent to the main short message transmission policy module 32, the encoded information in the short message device 4 in the machine room is first sent to the standby remote short message device 41 in the machine room, and the remote short message device 41 sends the encoded information to the main short message transmission policy module 32; otherwise, the short message device 4 of the machine room directly sends the coded information to the main short message transmission strategy module 32.

S5, the remote monitoring management server 5 transmits the encoded information to the terminal 6.

The following is directed to specific implementation case analysis, for example, a single machine room collection monitoring host 2 collects UPS, power distribution, smoke, water logging, air conditioning, and temperature and humidity devices, and collects 20 items of data of infrastructure, and the machine room collection monitoring host 2 converts the 20 items of data content into a code 03 ═ TFC3CA3KDAAAld through code conversion, and transmits the code to the remote monitoring management server 5 through a local machine room short message device 4.

The specific data item standard value and the collected data item data value and code are as follows:

in the process, the 20 items of data include a UPS state, a power distribution state, a smoke sensing state, a water immersion state, an air conditioning state, a cabinet door state, an air conditioning compressor, an air conditioning fan, a cabinet average temperature, a cabinet average humidity, a mains input voltage, a mains input current, a UPS output voltage, a UPS output current, a UPS output frequency, a UPS battery capacity, an air conditioning set temperature, an air conditioning set humidity, an air conditioning supply air temperature, and an air conditioning return air temperature. Of course, more items of data may be provided in a particular implementation.

after receiving the code 03 ═ TFC3CA3KDAAAld, the remote monitoring management server 5 can restore the content of 20 acquired data items by calculating the standard value of the data items. When a WeChat applet, a mobile phone APP or a web browser accesses the remote monitoring management server, 20 pieces of infrastructure data acquired by the machine room acquisition monitoring host can be checked.

in the actual use process, the environment monitoring equipment 1 and the machine room collecting and monitoring host 2 are multiple, and each machine room collecting and monitoring host 2 collects the corresponding environment monitoring equipment 1. During sending, the serial number of the machine room collection monitoring host 2 needs to be sent to distinguish which machine room collection monitoring host 2 collects data.

then, the maximum number of characters that a short message can send is 140, so in the transmission process, the coded information is controlled in 140 characters as much as possible. The number of boolean data and the number of numeric data collected may be agreed upon. If the coded information exceeds 140 characters, the Boolean data and the numerical data can be divided into two short messages to be sent simultaneously, but the data type needs to be indicated in each sending, for example, when the Boolean data is sent, the end of the data is added with the mark, and when the numerical data is sent, the head of the data is added with the mark.

In the above description, the transmission condition of a single machine room collecting and monitoring host 2 is described, but in the actual use process, there are usually a plurality of machine rooms collecting and monitoring hosts 2, so in each transmission process, the number of the corresponding machine room collecting and monitoring host 2 should be added, and then the data is separated by "".

In the remote security monitoring and managing method based on short messages in this embodiment, the terminal 6 may also autonomously access the monitoring data of the environment monitoring device, and may set a standard value in the monitoring data. When the terminal 6 accesses the remote monitoring management server 5 and acquires monitoring data in a machine room, the method comprises the following steps:

The method comprises the following steps: a user selects a machine room name and inputs a mobile phone number to obtain a verification code;

Step two: the remote monitoring management server 5 informs the machine room collection monitoring host 2 of comparing the mobile phone number with the verification code through the machine room short message equipment 4, the terminal 6 is accessed to the machine room collection monitoring host 2, and parameters of the environment monitoring equipment 1 are set; otherwise, the machine room collection monitoring host 2 is not accessed.

the system comprises a plurality of machine room collecting and monitoring hosts, a plurality of short message transmission strategy modules, a plurality of machine room short message devices and a remote monitoring management server, wherein the plurality of machine room collecting and monitoring hosts, the plurality of short message transmission strategy modules, the plurality of machine room short message devices and the remote monitoring management server form a network, equipment in each layer are in cross interconnection, a control link of the equipment is in a mesh structure, and the short message transmission strategy modules can select the best machine room short message device to transmit short messages according to the health states.

in order to prevent the service data security of the machine room from being invaded, the embodiment also adopts a fixed-period unidirectional data sending mode for transmission.

Meanwhile, for further safety consideration, in step S1, the machine room collection monitoring host 2 also collects alarm data. As shown in fig. 4, in step S4, the machine room collection monitoring host 2 transmits the encoded information to the corresponding sub-short message transmission policy module 31, and the specific steps are as follows:

S411, the machine room collection monitoring host 2 analyzes whether the collected data contains alarm data, and if not, the step S412 is executed; if yes, go to step S413;

S412, generating short message content from the coded information, and sending the short message content and the sending time point information to the sub short message transmission strategy module 31;

s413, judging whether the level of the alarm data is high, if so, executing a step S414; otherwise, step S415 is executed;

S414, generating short message content from the coded information, and sending the short message content and the immediate sending information to the sub short message transmission strategy module 31;

S415, generating a short message content from the encoded information, adjusting the sending time point information, and sending the short message content and the adjusted sending time point information to the sub short message transmission policy module 31.

Usually, the coding information collected by the machine room collection monitoring host 1 is sent in a unidirectional and timed mode every day, and the data concealment is guaranteed. When the machine room collection monitoring host 1 collects alarm data, the sending interval time period and the sending time point are adjusted according to the quantity and the level of the alarm data, and information leakage is avoided.

Example two

as shown in fig. 1, a remote security monitoring and management system based on short messages includes a machine room collecting and monitoring host 2, an environment monitoring device 1, a short message transmission policy module, a machine room short message device 4, a remote monitoring and management server 5 and a terminal 6, wherein the machine room collecting and monitoring host 2 collects monitoring data of the environment monitoring device 1, and sends the monitoring data to the short message transmission policy module through encryption, the short message transmission policy module sends the monitoring data to the remote monitoring and management server 5 through the machine room short message device 4, and the remote monitoring and management server 5 sends the monitoring data to the terminal 6.

the environment monitoring equipment comprises temperature and humidity equipment, air conditioning equipment, power distribution equipment, smoke sensing equipment, water immersion equipment, air conditioning equipment, an air conditioning compressor device, air conditioning fan equipment and cabinet equipment. The terminal comprises a mobile phone APP, a web browser, a WeChat applet, a mailbox and the like.

the invention has the beneficial effects that: dividing the collected monitoring data into Boolean data and numerical data, and processing the numerical data into change percentage representation, so that the content length of the processed data is greatly shortened; the Boolean data is processed into decimal number or hexadecimal number, and the change percentage is represented by encryption of numbers and upper and lower case letters, so that the length of the transmitted content is further shortened.

The foregoing description shows and describes several preferred embodiments of the invention, but as aforementioned, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. a remote safety monitoring management method based on short messages is characterized in that: the method comprises the following steps:

s1, the machine room collection monitoring host collects the monitoring data of the environment monitoring equipment, and the monitoring data are stored in the machine room collection monitoring host and the remote monitoring management server;

s2, the monitoring data comprises a machine room collecting monitoring host number, a data item serial number, a data item name, a data item standard value, a data item unit and a collecting value of the environment monitoring equipment, the state of the environment monitoring equipment in the collecting value is collected into Boolean data, and the parameter of the environment monitoring equipment in the collecting value is collected into numerical data;

s3, the machine room collecting and monitoring host machine compares the collected numerical data with the standard value of the data item to obtain the change percentage, and encrypts the processed monitoring data and converts the encrypted monitoring data into coded information;

s4, the machine room acquisition monitoring host sends the coded information to the remote monitoring management server through the short message transmission strategy module and the machine room short message equipment;

and S5, the remote monitoring management server sends the coded information to the terminal.

2. The remote safety monitoring and management method based on short message as claimed in claim 1, wherein: in step S3, the specific steps are as follows:

s31, encrypting the collected Boolean data through decimal or hexadecimal according to the serial number of the environment monitoring equipment, and converting the data into Boolean data codes;

S32, comparing the collected numerical data with the standard value of the data item according to the serial number of the environment monitoring equipment to obtain the change percentage, expressing the change percentage by capital letters and numbers, and converting the change percentage into numerical data codes;

And S33, separating Boolean type data codes and numerical type data codes by non-numeric non-alphabetical symbols, wherein the Boolean type data codes, the numerical type data codes and the symbols form coded information.

3. The remote safety monitoring and management method based on short message as claimed in claim 2, characterized in that: in step S32, when the change percentage is a positive number, it is indicated by capital letters; when the percentage change is negative, it is indicated by lower case letters; when the absolute value of the percent change data exceeds 25%, the letter is preceded by the number 1.

4. The remote safety monitoring and management method based on short message as claimed in claim 1, wherein: the system comprises a computer room acquisition monitoring host, an environment monitoring device, a short message transmission strategy module and a computer room short message device, wherein the computer room acquisition monitoring host, the environment monitoring device, the short message transmission strategy module and the computer room short message device are all multiple, and the short message transmission strategy module comprises a sub short message transmission strategy module and a main short message transmission strategy module;

Each machine room acquisition monitoring host acquires corresponding equipment and transmits coding information to the corresponding sub-short message transmission strategy module, the sub-short message transmission strategy module transmits the coding information to the main short message transmission strategy module through the machine room short message equipment, and the main short message transmission strategy module transmits the coding information to the terminal through the remote monitoring management server.

5. The remote safety monitoring and management method based on short message as claimed in claim 4, wherein: in step S4, the method specifically includes the following steps:

s41, each machine room acquisition monitoring host transmits the coded information to the corresponding sub-short message transmission strategy module;

S42, the sub short message transmission strategy module judges whether the current state of the short message equipment in the machine room is busy, if yes, the step S43 is executed; otherwise, go to step S44;

s43, the sub short message transmission strategy module sends the current coding information to the adjacent idle machine room short message equipment, the adjacent idle machine room short message equipment sends the coding information to the main short message transmission strategy module, and the step S45 is executed;

s44, the sub short message transmission strategy module sends the current coding information to the current machine room short message equipment, the current machine room short message equipment sends the coding information to the main short message transmission strategy module, and the step S45 is executed;

And S45, the main short message transmission strategy module transmits the current coding information to the remote monitoring management server.

6. The remote safety monitoring and management method based on short message as claimed in claim 5, wherein: in step S44 and step S45, if the encoded information in the short message service equipment in the machine room is not sent to the main short message transmission strategy module, the encoded information in the short message service equipment in the machine room is sent to the standby remote short message service equipment in the machine room, and the remote short message service equipment in the machine room sends the encoded information to the main short message transmission strategy module; otherwise, the short message equipment of the machine room directly sends the coded information to the main short message transmission strategy module.

7. the remote safety monitoring and management method based on short message as claimed in claim 5, wherein: when a terminal accesses a remote monitoring management server and acquires monitoring data in a machine room, the method comprises the following steps:

a user selects a machine room name and inputs a mobile phone number to obtain a verification code;

the remote monitoring management server informs the machine room collection monitoring host machine of comparing the mobile phone number and the verification code through the machine room short message equipment, the terminal is accessed into the machine room collection monitoring host machine, and parameters of the environment monitoring equipment are set; otherwise, the computer room is not accessed to the collecting and monitoring host.

8. the remote safety monitoring and management method based on short message according to any claim 1-7, characterized in that: in step S1, the machine room collection monitoring host further collects an alarm data, and in step S4, the specific steps of the machine room collection monitoring host transmitting the encoded information to the corresponding sub short message transmission policy module are as follows:

S411, the machine room collection monitoring host analyzes whether the collected data contains alarm data, and if not, the step S412 is executed; if yes, go to step S413;

s412, generating short message content from the coded information, and sending the short message content and the sending time point information to the sub short message transmission strategy module;

s413, judging whether the level of the alarm data is high, if so, executing a step S414; otherwise, step S415 is executed;

s414, generating short message content from the coded information, and sending the short message content and the immediate sending information to the sub short message transmission strategy module;

S415, generating short message content from the coded information, adjusting the sending time point information, and sending the short message content and the adjusted sending time point information to the sub short message transmission strategy module.

9. A remote safety monitoring management system based on short messages is characterized in that: the system comprises a machine room acquisition monitoring host, environment monitoring equipment, a short message transmission strategy module, machine room short message equipment, a remote monitoring management server and a terminal, wherein the machine room acquisition monitoring host acquires monitoring data of the environment monitoring equipment and sends the monitoring data to the short message transmission strategy module through encryption, the short message transmission strategy module sends the monitoring data to the remote monitoring management server through the machine room short message equipment, and the remote monitoring management server sends the monitoring data to the terminal.

10. the remote safety monitoring and management system based on short message as claimed in claim 9, wherein: the environment monitoring equipment comprises temperature and humidity equipment, air conditioning equipment, power distribution equipment, smoke sensing equipment and water immersion equipment; the terminal comprises a mobile phone APP, a web browser, a WeChat applet and a mailbox.