CN118066596B - Intelligent control method and system for heating equipment based on building electricity - Google Patents

Abstract

The invention discloses an intelligent control method and system for heating equipment based on building electricity, and relates to the field of heating control, wherein the intelligent control method comprises the steps of obtaining working environment information respectively corresponding to a plurality of heating equipment in a building, and setting corresponding management scheme information based on equipment ports corresponding to big data and the working environment information; building a building heating model through the plurality of equipment ports and the corresponding management scheme information, copying the receiving models with the same number based on the number of the equipment ports corresponding to the building heating model chain, and collecting the operation data of the heating equipment in real time, wherein when the data in the plurality of receiving models are inconsistent. The invention can ensure the safety and accuracy of information, and can call historical operation data when the air conditioner is maintained and controlled later, thereby ensuring the accuracy and safety of the maintenance and control of the air conditioner.

Description

Intelligent control method and system for heating equipment based on building electricity

Technical Field

The invention relates to the field of heating control, in particular to an intelligent control method and system for heating equipment based on building electricity.

Background

The intelligent control of heating equipment based on building electricity is one of the important directions of modern building technology development, advanced electrical technology and intelligent control algorithm are combined, automation, high efficiency and comfort of a heating system are achieved, however, safety of data is an important factor affecting the work of the heating equipment while the heating equipment is controlled automatically, in the control of the heating equipment, information tampering can be carried out due to attack of external networks at present, further analysis of the running performance of an air conditioner is affected, misjudgment of the performance of the air conditioner occurs, and subsequent maintenance management and control of the air conditioner are affected.

Disclosure of Invention

The invention aims to provide an intelligent control method for heating equipment based on building electricity.

The invention solves the technical problems through the following technical proposal, and the invention comprises the following steps:

Acquiring working environment information respectively corresponding to a plurality of heating devices in a building, acquiring corresponding heating device basic information based on the working environment information, and registering to obtain a plurality of device ports based on the plurality of heating device basic information and the corresponding working environment information;

setting corresponding management scheme information based on equipment ports corresponding to big data and working environment information;

Building a building heating model through a plurality of equipment ports and corresponding management scheme information, and building a building heating model chain based on the service time of heating equipment;

Copying the same number of receiving models based on the number of corresponding equipment ports of a building heating model chain, performing communication connection between the receiving models and the corresponding equipment ports, and performing communication connection between the plurality of receiving models;

Collecting operation data of heating equipment in real time, transmitting the operation data to a receiving model through an equipment port, collecting the operation data in the receiving model by a building heating model chain, and judging whether the data in a plurality of receiving models are consistent or not;

When the data in the plurality of receiving models are inconsistent, the model is used as an abnormal model, and a succession model corresponding to the abnormal model is copied based on a building heating model chain and the abnormal model is replaced.

Further, the step of registering to obtain a plurality of equipment ports based on the plurality of heating equipment basic information and the corresponding working environment information includes:

building three-dimensional space model is built based on the building structure information, and space information and position information of heating equipment in the building three-dimensional space model are obtained as working environment information;

acquiring equipment names, equipment models and equipment functions and parameters of heating equipment corresponding to the working environment information as basic information of the heating equipment;

and registering based on the basic information of the heating equipment and the corresponding working environment information to obtain a plurality of equipment ports.

Further, the step of setting corresponding management scheme information based on the device port corresponding to the big data and the working environment information includes:

acquiring natural environment information of heating equipment, wherein the natural environment information comprises building height of the heating equipment and corresponding environment temperature;

formulating a management scheme information base based on big data, wherein the management scheme information base comprises a plurality of environment temperatures and corresponding heating equipment working operation information, and the heating equipment working operation information comprises the operation parameters of the heating equipment in a plurality of space ranges and the working time reaching the requirement;

And matching the natural environment information in a management scheme information base to obtain corresponding heating equipment working operation information, and matching the spatial information based on the working environment information with the heating equipment working operation information to obtain management scheme information corresponding to the equipment port, wherein the management scheme information is the operation parameters of the heating equipment selected by the corresponding heating port and the working time reaching the requirement.

Further, the building heating model is constructed through a plurality of equipment ports and corresponding management scheme information, and the building heating model chain is constructed based on the service time of the heating equipment, and the building heating model chain comprises the following steps:

marking the management scheme information corresponding to the plurality of equipment ports in a three-dimensional space model of the building to obtain a heating model of the building;

Acquiring temperature information of natural environment in a preset time period to obtain a temperature change line, and correspondingly adjusting management scheme information of equipment ports according to the temperature change line to obtain a management scheme information chain;

And previewing the building heating model according to the management scheme information chain to obtain a building heating model chain.

Further, the step of copying the same number of receiving models based on the number of the corresponding device ports of the building heating model chain, performing communication connection between the receiving models and the corresponding device ports, and performing communication connection between the plurality of receiving models includes:

Copying the building heating model chains corresponding to the number of the equipment ports to obtain a plurality of receiving models with the same number, and establishing a communication relationship between the plurality of receiving models and the building heating model chains;

corresponding the plurality of receiving models with the plurality of equipment ports respectively;

dividing and marking a building heating model chain according to the space information of the heating equipment to obtain effective space information of a plurality of heating equipment, and binding the effective space information of the heating equipment, the equipment ports and the receiving models corresponding to the equipment ports;

Marking in a corresponding receiving model based on effective space information of the heating equipment to obtain monitoring information, and hiding positions except the monitoring information in the receiving model;

The plurality of receiving models are connected in communication and exchange information with each other, and after the information is exchanged with each other, the information is fixed.

Further, the step of collecting the operation data in the receiving models and judging whether the data in the plurality of receiving models are consistent by the building heating model chain includes:

the receiving port transmits the management scheme information chain to the equipment port, and the equipment port supplies heat according to the management scheme information;

acquiring operation data of heating equipment in real time, and transmitting the operation data to a corresponding receiving model based on an equipment port;

And the building heating model chain collects the operation data in the receiving models at preset interval time nodes, integrates and stores the operation data in the receiving models to corresponding positions in the building heating model chain, and judges whether the data in the receiving models are consistent or not.

Further, when the data in the plurality of receiving models are inconsistent, the step of copying the successor model of the corresponding anomaly model based on the building heating model chain and replacing the anomaly model as the anomaly model includes:

when the operation data in the plurality of receiving models are inconsistent, the equipment port corresponding to the operation data is an abnormal port, and the receiving model corresponding to the abnormal port is used as an abnormal model;

and copying the successor model of the corresponding abnormal model based on the building heating model chain and replacing the abnormal model.

Further, the method comprises the steps of:

the system comprises an acquisition module, a control module and a control module, wherein the acquisition module is used for acquiring working environment information respectively corresponding to a plurality of heating equipment in a building, acquiring corresponding heating equipment basic information based on the working environment information, and acquiring a plurality of equipment ports based on the plurality of heating equipment basic information and the corresponding working environment information;

The setting module is connected with the acquisition module and is used for setting corresponding management scheme information based on equipment ports corresponding to big data and working environment information;

the building module is connected with the setting module and used for building a building heating model through a plurality of equipment ports and corresponding management scheme information and building a building heating model chain based on the service time of heating equipment;

The replication module is connected with the construction module and is used for replicating the receiving models with the same number based on the number of the corresponding equipment ports of the building heating model chain, connecting the receiving models with the corresponding equipment ports in a communication way and connecting the plurality of receiving models in a communication way;

The judging module is connected with the copying module and used for collecting the operation data of the heating equipment in real time, transmitting the operation data to the receiving models through the equipment ports, collecting the operation data in the receiving models by the building heating model chain, and judging whether the data in the receiving models are consistent or not;

The processing module is connected with the judging module and is used for being used as an abnormal model when the data in the plurality of receiving models are inconsistent, copying a succession model corresponding to the abnormal model based on a building heating model chain and replacing the abnormal model.

Compared with the prior art, the invention has the following advantages: the updated building heating model chain is copied to the successor model of the corresponding abnormal model and replaces the abnormal model, so that the accuracy of data can be ensured, the situation that the heat supply equipment is tampered with by information is avoided, the state analysis can be better carried out on the heat supply equipment according to the accurate data, the safety and the accuracy of the information can be ensured, the historical operation data can be invoked when the air conditioner is maintained and controlled subsequently, the accuracy and the safety of the air conditioner maintenance and control are ensured, and the system is more worthy of popularization and use.

Drawings

FIG. 1 is a flow chart of the method of the present invention.

Fig. 2 is a system block diagram of the present invention.

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, this embodiment provides a technical solution: the intelligent control method of the heating equipment based on the building electricity comprises the following steps:

s1, acquiring working environment information corresponding to a plurality of heating devices in a building respectively, acquiring corresponding heating device basic information based on the working environment information, and registering to obtain a plurality of device ports based on the plurality of heating device basic information and the corresponding working environment information;

s2, setting corresponding management scheme information based on equipment ports corresponding to big data and working environment information;

S3, building a building heating model through a plurality of equipment ports and corresponding management scheme information, and building a building heating model chain based on the service time of heating equipment;

S4, copying the same number of receiving models based on the number of the corresponding equipment ports of the building heating model chain, performing communication connection between the receiving models and the corresponding equipment ports, and performing communication connection between the plurality of receiving models;

s5, collecting operation data of the heating equipment in real time, transmitting the operation data to a receiving model through an equipment port, collecting the operation data in the receiving model by a building heating model chain, and judging whether the data in a plurality of receiving models are consistent or not;

S6, when the data in the plurality of receiving models are inconsistent, the data are used as an abnormal model, and a succession model corresponding to the abnormal model is copied and replaced based on a building heating model chain;

As described in the above steps S1-S6, the intelligent control of the heating equipment based on building electricity is one of the important directions of the development of modern building technology, it combines advanced electrical technology and intelligent control algorithm, and aims to realize automation, high efficiency and comfort of the heating system, while the automation controls the heating equipment, the safety of data is an important factor affecting the operation of the heating equipment, at present, in the control of the heating equipment, there is an attack of external network to tamper information, thereby affecting the analysis of the operation performance of the air conditioner, and error judgment of the performance of the air conditioner occurs, affecting the subsequent maintenance control of the air conditioner, while in the application, the updated building heating model chain replicates the successor model of the corresponding abnormal model and replaces the abnormal model, so as to ensure the accuracy of data and avoid being tampered with information, the heating equipment can be better analyzed according to the accurate data, the safety and accuracy of information can be ensured, when the subsequent maintenance control of the air conditioner is performed, the historical operation data can be invoked, and the accuracy and safety of the maintenance control are ensured;

In one embodiment, the step S1 of registering to obtain a plurality of device ports based on the plurality of heating device basic information and the corresponding working environment information includes:

S11, acquiring building structure information, constructing a building three-dimensional space model based on the building structure information, and acquiring space information and position information of heating equipment in the building three-dimensional space model as working environment information;

S12, acquiring the equipment name, the equipment model and the equipment functions and parameters of heating equipment corresponding to the working environment information as basic information of the heating equipment;

S13, registering based on the basic information of the plurality of heating equipment and the corresponding working environment information to obtain a plurality of equipment ports;

As described in the above steps S11-S13, building three-dimensional space model is built based on building structure information, where the building three-dimensional space model is the building environment where the heating equipment is located, then space information and position information of the heating equipment in the building three-dimensional space model are used as working environment information, after the working environment information where the heating equipment is located is determined, equipment name, equipment model, equipment function and parameters of the heating equipment corresponding to the working environment information are obtained as heating equipment basic information, where the heating equipment is used basic information, and then a plurality of heating equipment basic information and the corresponding working environment information are registered to obtain a plurality of equipment ports, so that the heating equipment can be known about itself and the environment where the heating equipment is located, the accuracy of collecting the heating equipment information can be greatly improved, and the management and control of the heating equipment can be facilitated later;

In one embodiment, the step S2 of setting corresponding management scheme information based on the device port corresponding to the big data and the working environment information includes:

S21, acquiring natural environment information of heating equipment, wherein the natural environment information comprises building height of the heating equipment and corresponding environment temperature;

S22, formulating a management scheme information base based on big data, wherein the management scheme information base comprises a plurality of environment temperatures and corresponding heating equipment working operation information, and the heating equipment working operation information comprises the operation parameters of the heating equipment in a plurality of space ranges and the working time reaching the requirement;

S23, matching is carried out in a management scheme information base through natural environment information to obtain corresponding heating equipment working operation information, and matching is carried out on the spatial information based on the working environment information to obtain management scheme information corresponding to equipment ports, wherein the management scheme information is the operation parameters of heating equipment selected by the corresponding heating ports and the working time reaching the requirements;

As described in the above steps S21-S23, firstly, the building height where the heating device is located and the corresponding environmental temperature need to be obtained as the natural environmental information, where the natural environmental information affects the time when the heating device reaches the target temperature and a data reference about whether the heating device can reach the target temperature, for a colder environment, the operation parameters of the heating device need to be changed and strengthened, so that the heating device can complete the purpose of maintaining the target temperature, and a management scheme information base is formulated based on big data, where the management scheme information base includes a plurality of environmental temperatures and corresponding heating device operation information, the heating device operation information includes a plurality of operation parameters of the heating device in a spatial range and the required operation time, so that the heating device can be provided with a management scheme for completing the target temperature for the heating device, for example, the time when the heating device of a company is managed to work is T, the management scheme information is obtained by matching the management scheme information base, for example, the required operation time in the management scheme information is T1, then the heating device is automatically started at the time T1 before the work time T, so that the working environment can meet the requirement, and the heating device has a better management effect when the working environment meets the requirement;

in one embodiment, the step S3 of constructing a building heating model chain based on the usage time of the heating device by constructing a building heating model with the corresponding management scheme information through the plurality of device ports includes:

S31, respectively marking management scheme information corresponding to a plurality of equipment ports in a three-dimensional space model of the building to obtain a building heating model;

S32, acquiring temperature information of natural environment in a preset time period to obtain a temperature change line, and correspondingly adjusting management scheme information of the equipment port according to the temperature change line to obtain a management scheme information chain;

s33, previewing the building heating model according to the management scheme information chain to obtain a building heating model chain;

as described in the above steps S31-S33, the position information of the corresponding heating devices in the three-dimensional space model of the building is marked with the management scheme information corresponding to the plurality of device ports, so as to obtain a building heating model, in a preset time period, the temperature information of the natural environment is obtained, for example, the temperature information of the natural environment in one day is changed, so as to obtain a temperature change line in one day, the management scheme information of the device ports corresponding to the temperature change line in one day is correspondingly adjusted according to the temperature change line to obtain a management scheme information chain, where the operation parameters in the management scheme information of the device ports and the temperature change line correspond to each other according to the use time, for example, when the external temperature rises, then the operation force of the heating device can be reduced to achieve the purpose of use, the temperature change line is obtained, the management scheme information of the device ports is correspondingly adjusted according to the temperature change line, then the building heating model is correspondingly obtained according to the management scheme information chain, the building model is correspondingly checked according to the management scheme information chain, the pre-performed according to the management scheme information chain is better, and the pre-performed control data in the pre-performed heating device can be controlled according to the pre-performed control data in the pre-performed control period;

in one embodiment, the step S4 of copying the same number of receiving models based on the number of corresponding device ports of the building heating model chain, connecting the receiving models with the corresponding device ports in a communication manner, and connecting the plurality of receiving models in a communication manner includes:

s41, copying the building heating model chains corresponding to the number of the equipment ports to obtain a plurality of receiving models with the same number, and establishing a communication relationship between the plurality of receiving models and the building heating model chains;

S42, respectively corresponding a plurality of receiving models to a plurality of equipment ports;

S43, dividing and marking a building heating model chain according to the space information of the heating equipment to obtain effective space information of a plurality of heating equipment, and binding the effective space information of the heating equipment, the equipment ports and the receiving models corresponding to the equipment ports;

S44, marking in a corresponding receiving model based on the effective space information of the heat supply equipment to obtain monitoring information, and hiding positions except the monitoring information in the receiving model;

S45, carrying out communication connection among a plurality of receiving models, mutually exchanging information, and fixing the information after mutually exchanging information;

As described in the above steps S41-S45, after obtaining the building heating model chain, the replication is performed to obtain a plurality of replicated receiving models, where the number of receiving models is the same as the number of equipment ports, between the replicated receiving models, a communication relationship between the plurality of receiving models and the building heating model chain is established, the receiving models are the same, then the receiving models are respectively corresponding to the plurality of equipment ports, then the effective space information of the plurality of heating equipment is obtained based on the space information of the heating equipment where the building heating model chain is located, the effective space information of the heating equipment, the equipment ports and the receiving models corresponding to the equipment ports are information-bound, the building heating model chain is a pre-modeling model in which the heating equipment is operated according to a management scheme information and a temperature change line in a preset time period, and is a dynamic model pre-modeling in the building three-dimensional space model, then the space information acting in the building three-dimensional space model where the heating equipment is located is used as the effective space information, the monitoring information is obtained based on the effective space information marks in the receiving models, the effective space information in the receiving models is not shown, the receiving models are not shown, the other than the receiving models are hidden in the three-dimensional space models, the other than the building models, the communication process is performed in the three-dimensional space is not shown, the other than the building models, the communication process is performed, after the information is mutually exchanged, the information is fixed, so that each receiving model has the actual operation data of all the equipment ports through information interaction when the actual operation data of all the equipment ports are acquired, the data after interaction cannot be modified, the information can be better saved, the safety and the accuracy of the information can be ensured, and the historical operation data can be invoked when the air conditioner is subsequently maintained and controlled, so that the accuracy and the safety of the air conditioner maintenance and control are ensured;

in one embodiment, the step S5 of collecting the operation data in the receiving models and determining whether the data in the receiving models are consistent by the building heating model chain includes:

s51, the receiving port transmits the management scheme information chain to the equipment port, and the equipment port supplies heat according to the management scheme information;

S52, acquiring operation data of heating equipment in real time, and transmitting the operation data to a corresponding receiving model based on an equipment port;

S53, acquiring operation data in the receiving models at preset interval time nodes by the building heating model chain, integrating and storing the operation data in the receiving models to corresponding positions in the building heating model chain, and judging whether the data in the receiving models are consistent or not;

As described in the above steps S51-S53, in setting the equipment port and the corresponding receiving model, setting the building heating model chain for integrating the receiving models, then issuing the management scheme information chain to the equipment port through the receiving port, heating the equipment port according to the management scheme information, then collecting the operation data of the heating equipment in real time, transmitting the operation data to the corresponding receiving model based on the equipment port, so as to greatly improve the management function of the data, collecting the operation data in the receiving model by the building heating model chain at the preset interval time node, integrating the operation data in the receiving model and storing the operation data in the corresponding position in the building heating model chain, and judging whether the data in the receiving models are consistent, for example, collecting the operation information in the receiving model once every X time period, judging whether the data in the receiving model are consistent or not in the integrating process, avoiding the external network from falsifying the data in the receiving model, changing the operation data in the corresponding equipment port, and keeping on the hidden part of the other receiving model, so that the hidden part of the receiving model can not be modified, and the comparison model can be continued;

in one embodiment, when the data in the plurality of receiving models are inconsistent, as an anomaly model, a step S6 of copying a succession model corresponding to the anomaly model based on the building heating model chain and replacing the anomaly model includes:

S61, when the operation data in the plurality of receiving models are inconsistent, the equipment port corresponding to the operation data is an abnormal port, and the receiving model corresponding to the abnormal port is used as an abnormal model;

S62, copying a take-over model corresponding to the abnormal model based on the building heating model chain and replacing the abnormal model;

As described in the above steps S61 and S62, when the operation data in the multiple receiving models are inconsistent, the device port corresponding to the operation data is an abnormal port, the receiving model corresponding to the abnormal port is used as an abnormal model, for example, N device ports, where the operation data of the hidden position in the N-1 device ports is inconsistent with the operation data of the non-hidden position in the one device port, then the operation position of the non-hidden position in the device port may be tampered with by the network attack, so that there is a great potential safety hazard in the receiving model, then the successor model of the corresponding abnormal model needs to be copied through the building heating model chain and the abnormal model needs to be replaced, the data of the updated successor model of the corresponding abnormal model needs to be copied through the operation data of the hidden position in the other N-1 device ports, and the abnormal model is replaced, so that the accuracy of the data can be ensured, the tampered with the information can be avoided, and the state analysis of the heating device can be better performed according to the accurate data;

As shown in fig. 2, this embodiment provides a technical solution: intelligent control system of heating equipment based on building is electric, includes:

the system comprises an acquisition module, a control module and a control module, wherein the acquisition module is used for acquiring working environment information respectively corresponding to a plurality of heating equipment in a building, acquiring corresponding heating equipment basic information based on the working environment information, and acquiring a plurality of equipment ports based on the plurality of heating equipment basic information and the corresponding working environment information;

The setting module is connected with the acquisition module and is used for setting corresponding management scheme information based on equipment ports corresponding to big data and working environment information;

the building module is connected with the setting module and used for building a building heating model through a plurality of equipment ports and corresponding management scheme information and building a building heating model chain based on the service time of heating equipment;

The replication module is connected with the construction module and is used for replicating the receiving models with the same number based on the number of the corresponding equipment ports of the building heating model chain, connecting the receiving models with the corresponding equipment ports in a communication way and connecting the plurality of receiving models in a communication way;

The judging module is connected with the copying module and used for collecting the operation data of the heating equipment in real time, transmitting the operation data to the receiving models through the equipment ports, collecting the operation data in the receiving models by the building heating model chain, and judging whether the data in the receiving models are consistent or not;

The processing module is connected with the judging module and is used for being used as an abnormal model when the data in the plurality of receiving models are inconsistent, copying a succession model corresponding to the abnormal model based on a building heating model chain and replacing the abnormal model.

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 (6)

1. The intelligent control method of the heating equipment based on the building electricity is characterized by comprising the following steps of:

Acquiring working environment information respectively corresponding to a plurality of heating devices in a building, acquiring corresponding heating device basic information based on the working environment information, and registering to obtain a plurality of device ports based on the plurality of heating device basic information and the corresponding working environment information;

setting corresponding management scheme information based on equipment ports corresponding to big data and working environment information;

The step of setting corresponding management scheme information based on the equipment port corresponding to the big data and the working environment information comprises the following steps:

acquiring natural environment information of heating equipment, wherein the natural environment information comprises building height of the heating equipment and corresponding environment temperature;

formulating a management scheme information base based on big data, wherein the management scheme information base comprises a plurality of environment temperatures and corresponding heating equipment working operation information, and the heating equipment working operation information comprises the operation parameters of the heating equipment in a plurality of space ranges and the working time reaching the requirement;

Matching is carried out in a management scheme information base through natural environment information to obtain corresponding heating equipment working operation information, and space information based on the working environment information is matched with the heating equipment working operation information to obtain management scheme information corresponding to equipment ports, wherein the management scheme information is operation parameters of heating equipment selected by the corresponding heating ports and working time reaching requirements;

Building a building heating model through a plurality of equipment ports and corresponding management scheme information, and building a building heating model chain based on the service time of heating equipment;

The building heating model is constructed through a plurality of equipment ports and corresponding management scheme information, and the building heating model chain is constructed based on the service time of heating equipment, and the building heating model chain comprises the following steps:

marking the management scheme information corresponding to the plurality of equipment ports in a three-dimensional space model of the building to obtain a heating model of the building;

Acquiring temperature information of natural environment in a preset time period to obtain a temperature change line, and correspondingly adjusting management scheme information of equipment ports according to the temperature change line to obtain a management scheme information chain;

the building heating model is previewed according to the management scheme information chain to obtain a building heating model chain;

Copying the same number of receiving models based on the number of corresponding equipment ports of a building heating model chain, performing communication connection between the receiving models and the corresponding equipment ports, and performing communication connection between the plurality of receiving models;

Collecting operation data of heating equipment in real time, transmitting the operation data to a receiving model through an equipment port, collecting the operation data in the receiving model by a building heating model chain, and judging whether the data in a plurality of receiving models are consistent or not;

When the data in the plurality of receiving models are inconsistent, the model is used as an abnormal model, and a succession model corresponding to the abnormal model is copied based on a building heating model chain and the abnormal model is replaced.

2. The intelligent control method for heating equipment based on building electricity according to claim 1, wherein: the step of registering to obtain a plurality of equipment ports based on the plurality of heating equipment basic information and the corresponding working environment information comprises the following steps:

building three-dimensional space model is built based on the building structure information, and space information and position information of heating equipment in the building three-dimensional space model are obtained as working environment information;

acquiring equipment names, equipment models and equipment functions and parameters of heating equipment corresponding to the working environment information as basic information of the heating equipment;

and registering based on the basic information of the heating equipment and the corresponding working environment information to obtain a plurality of equipment ports.

3. The intelligent control method for heating equipment based on building electricity according to claim 1, wherein: the step of copying the same number of receiving models based on the number of the corresponding equipment ports of the building heating model chain, connecting the receiving models with the corresponding equipment ports in a communication manner, and connecting a plurality of receiving models in a communication manner comprises the following steps:

Copying the building heating model chains corresponding to the number of the equipment ports to obtain a plurality of receiving models with the same number, and establishing a communication relationship between the plurality of receiving models and the building heating model chains;

corresponding the plurality of receiving models with the plurality of equipment ports respectively;

dividing and marking a building heating model chain according to the space information of the heating equipment to obtain effective space information of a plurality of heating equipment, and binding the effective space information of the heating equipment, the equipment ports and the receiving models corresponding to the equipment ports;

Marking in a corresponding receiving model based on effective space information of the heating equipment to obtain monitoring information, and hiding positions except the monitoring information in the receiving model;

The plurality of receiving models are connected in communication and exchange information with each other, and after the information is exchanged with each other, the information is fixed.

4. The intelligent control method for heating equipment based on building electricity according to claim 1, wherein: the building heating model chain collects the operation data in the receiving models and judges whether the data in the receiving models are consistent or not, and the building heating model chain comprises the following steps:

the receiving port transmits the management scheme information chain to the equipment port, and the equipment port supplies heat according to the management scheme information;

acquiring operation data of heating equipment in real time, and transmitting the operation data to a corresponding receiving model based on an equipment port;

And the building heating model chain collects the operation data in the receiving models at preset interval time nodes, integrates and stores the operation data in the receiving models to corresponding positions in the building heating model chain, and judges whether the data in the receiving models are consistent or not.

5. The intelligent control method for heating equipment based on building electricity according to claim 1, wherein: when the data in the plurality of receiving models are inconsistent, the step of copying a succession model corresponding to the anomaly model based on a building heating model chain and replacing the anomaly model is used as the anomaly model, and comprises the following steps:

when the operation data in the plurality of receiving models are inconsistent, the equipment port corresponding to the operation data is an abnormal port, and the receiving model corresponding to the abnormal port is used as an abnormal model;

and copying the successor model of the corresponding abnormal model based on the building heating model chain and replacing the abnormal model.

6. An intelligent control system for building electric-based heating equipment for implementing the intelligent control method for building electric-based heating equipment according to any one of claims 1 to 5, characterized in that the intelligent control system for building electric-based heating equipment comprises:

the system comprises an acquisition module, a control module and a control module, wherein the acquisition module is used for acquiring working environment information respectively corresponding to a plurality of heating equipment in a building, acquiring corresponding heating equipment basic information based on the working environment information, and acquiring a plurality of equipment ports based on the plurality of heating equipment basic information and the corresponding working environment information;

The setting module is connected with the acquisition module and is used for setting corresponding management scheme information based on equipment ports corresponding to big data and working environment information;

the building module is connected with the setting module and used for building a building heating model through a plurality of equipment ports and corresponding management scheme information and building a building heating model chain based on the service time of heating equipment;

The replication module is connected with the construction module and is used for replicating the receiving models with the same number based on the number of the corresponding equipment ports of the building heating model chain, connecting the receiving models with the corresponding equipment ports in a communication way and connecting the plurality of receiving models in a communication way;

The judging module is connected with the copying module and used for collecting the operation data of the heating equipment in real time, transmitting the operation data to the receiving models through the equipment ports, collecting the operation data in the receiving models by the building heating model chain, and judging whether the data in the receiving models are consistent or not;

The processing module is connected with the judging module and is used for being used as an abnormal model when the data in the plurality of receiving models are inconsistent, copying a succession model corresponding to the abnormal model based on a building heating model chain and replacing the abnormal model.