CN113641163B

CN113641163B - Self-configuration method and system of environment control equipment, computer equipment and storage medium

Info

Publication number: CN113641163B
Application number: CN202111040143.1A
Authority: CN
Inventors: 韩星; 谭雪荧
Original assignee: PCI Technology Group Co Ltd; PCI Technology and Service Co Ltd
Current assignee: PCI Technology Group Co Ltd; PCI Technology and Service Co Ltd
Priority date: 2020-12-21
Filing date: 2021-09-06
Publication date: 2023-03-28
Anticipated expiration: 2041-09-06
Also published as: CN113641163A; CN112650175A

Abstract

The embodiment of the application discloses a self-configuration method and a self-configuration system of environmental control equipment, computer equipment and a storage medium; the method comprises the following steps: acquiring environmental control equipment information, wherein the environmental control equipment information comprises an environmental control equipment identity parameter, an environmental control equipment execution parameter and an environmental control equipment sensing parameter; identifying the type of the equipment according to the identity parameters of the environment-control equipment to obtain first equipment; according to the execution parameters and sensing parameters of the environmental control equipment, performing type verification on the first equipment, and obtaining second equipment if the verification is successful; carrying out corresponding configuration to obtain an equipment configuration model; according to the embodiment of the application, the device type is obtained by obtaining the information of the environment-controlled device for identification and verification, the self-configuration is carried out according to the device type, the corresponding device configuration model is obtained, the problems of repetition and complexity in configuration of the existing environment-controlled energy-saving system are solved, and a large amount of repetitive work such as point alignment and configuration are avoided.

Description

Self-configuration method and system of environment control equipment, computer equipment and storage medium

Technical Field

The embodiment of the application relates to the technical field of environment-control energy-saving control, in particular to a self-configuration method and system of environment-control equipment, computer equipment and a storage medium.

Background

At present, a centralized system architecture is mostly adopted in an environment-controlled energy-saving control system, and the system consists of an equipment layer, a network layer and a management layer. In order to achieve the data interaction between the management layer and the device layer and achieve the purpose of energy-saving control, a mapping relationship between an energy-saving control software system and a corresponding device needs to be established, the function is generally achieved through a configuration mode, and the configured system is displayed on a human-computer interaction interface.

In the traditional environment-controlled energy-saving control system, configuration work is completed by carrying out on-site point alignment and then carrying out configuration, the number of required bottom layer information points is large, the types are various, and therefore the configuration work becomes very complicated and complicated, and errors are easy to occur. Moreover, if old air conditioner rooms are modified or updated, reconfiguration is often required, so that the maintenance work of the whole life cycle of the environment-controlled energy-saving control system is continuous, and huge labor cost is brought.

Disclosure of Invention

The embodiment of the application provides a self-configuration method and system of an environmental control device, a computer device and a storage medium, so as to solve the problems of repetition and complexity in configuration of an environmental control energy-saving control system in the prior art.

In a first aspect, an embodiment of the present application provides a self-configuration method for an environment control device, including:

acquiring environmental control equipment information, wherein the environmental control equipment information comprises an environmental control equipment identity parameter, an environmental control equipment execution parameter and an environmental control equipment sensing parameter;

identifying the type of the equipment according to the identity parameter of the environment-friendly equipment to obtain first equipment;

according to the execution parameters and sensing parameters of the environmental control equipment, performing type verification on the first equipment, and obtaining second equipment if the verification is successful;

and automatically judging the structural forms of all the second equipment according to the mutual relations among all the second equipment and the corresponding identity parameters, the execution parameters and the sensing parameters of the environmental control equipment of the second equipment, and carrying out corresponding configuration to obtain an equipment configuration model.

Further, the performing type verification on the first device according to the execution parameter of the environmental control device and the sensing parameter of the environmental control device, and if the verification is successful, obtaining a second device includes:

judging whether the first equipment corresponds to the corresponding execution parameters of the environmental control equipment and the sensing parameters of the environmental control equipment;

if the first equipment does not correspond to any one of the execution parameters and the sensing parameters of the corresponding environmental control equipment, reporting an error to the first equipment;

and if the first equipment corresponds to the execution parameters and the sensing parameters of the corresponding environment control equipment, judging that the verification is successful and obtaining second equipment.

Further, the step of automatically judging the structural forms of all the second devices according to the mutual relations among all the second devices and the corresponding environment control device identity parameters, the environment control device execution parameters, and the environment control device sensing parameters, and performing corresponding configuration to obtain a device configuration model includes:

judging and classifying the second equipment according to the identity parameters of the environment-friendly equipment to obtain a first configuration model;

comparing and classifying the execution parameters and/or sensing parameters of the environmental control equipment with the corresponding conventional parameters of the equipment in the first configuration model, judging the structural form of the corresponding environmental control equipment, and performing corresponding execution parameter configuration to obtain a second configuration model;

verifying the first configuration model and the second configuration model according to conventional parameters of equipment to obtain a third configuration model;

and combining the first configuration model, the second configuration model and the third configuration model to obtain an equipment configuration model.

Further, after the performing the corresponding configuration to obtain the device configuration model, the method further includes:

and automatically constructing a topological structure according to the equipment configuration model and the corresponding parameters thereof.

Further, after automatically constructing a topology structure according to the device configuration model and the corresponding parameters thereof, the method further includes:

and sending a working control signal to an environment control device and an environment control actuator according to the device configuration model and the topological structure so as to control the environment control device and the environment control actuator to work, and verifying the device configuration model and the topological structure according to a working state.

Further, the obtaining of the environmental control device information includes: and receiving the information of the environmental control equipment acquired by the identity identifier of the environmental control equipment through the I/O module and the network switch.

In a second aspect, an embodiment of the present application provides a self-configuration system for an environmental control apparatus, including:

the environment control equipment identity identifier is used for acquiring environment control equipment information, wherein the environment control equipment information comprises environment control equipment identity parameters, environment control equipment execution parameters and environment control equipment sensing parameters;

the environment control equipment identity recognition module is used for carrying out type recognition on equipment according to the environment control equipment identity parameters to obtain first equipment;

the environment control equipment identity verification module is used for performing type verification on the first equipment according to the environment control equipment execution parameters and the environment control equipment sensing parameters, and obtaining second equipment if the verification is successful;

and the environment control system self-configuration module is used for automatically judging the structural forms of all the second equipment according to the mutual relations among all the second equipment, the corresponding environment control equipment identity parameters, the corresponding environment control equipment execution parameters and the environment control equipment sensing parameters, and carrying out corresponding configuration to obtain an equipment configuration model.

Further, the system also comprises an I/O module and a network switch; the I/O module and the network switch are used for receiving the environment control equipment information collected by the environment control equipment identity identifier and sending the environment control equipment information to the environment control equipment identity identification module, the environment control equipment identity verification module and the environment control system self-configuration module.

In a third aspect, embodiments of the present application provide a computer device comprising a memory and one or more processors;

the memory to store one or more programs;

when the one or more programs are executed by the one or more processors, the one or more processors implement the self-configuration method of the ring control device according to the first aspect.

In a fourth aspect, embodiments of the present application provide a storage medium containing computer-executable instructions for performing the self-configuration method of the ring control device according to the first aspect when executed by a computer processor.

According to the embodiment of the application, the information of the environmental control equipment is obtained to carry out identification and verification to obtain the equipment type, self-configuration is carried out according to the equipment type to obtain a corresponding equipment configuration model, and the simple and quick configuration of the environmental control equipment is realized; when the equipment is replaced, the configuration of the application program of the environment-controlled energy-saving control can be completed only by correspondingly adjusting the equipment information, so that the problems of repetition and complexity in configuration of the existing environment-controlled energy-saving system are solved, and a large amount of repeated work such as point alignment, configuration and the like is avoided.

Drawings

Fig. 1 is a flowchart of a self-configuration method of an environmental control apparatus according to an embodiment of the present disclosure;

fig. 2 is a flowchart of a self-configuration method of another environmental control apparatus according to an embodiment of the present disclosure;

fig. 3 is a schematic diagram of an authentication device of a self-configuration method of an environmental control device according to an embodiment of the present disclosure;

fig. 4 is a schematic diagram illustrating a configuration of a self-configuration method of an environmental control apparatus according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of a self-configuration system of an environmental control apparatus according to an embodiment of the present disclosure;

fig. 6 is a schematic structural diagram of a computer device according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, specific embodiments of the present application will be described in detail with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some but not all of the relevant portions of the present application are shown in the drawings. Before discussing exemplary embodiments in greater detail, it should be noted that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart may describe the operations (or steps) as a sequential process, many of the operations can be performed in parallel, concurrently or simultaneously. In addition, the order of the operations may be re-arranged. The process may be terminated when its operations are completed, but may have additional steps not included in the figure. The processes may correspond to methods, functions, procedures, subroutines, and the like.

According to the method for self-configuration of the environment control equipment, the information of the environment control equipment is obtained to identify and verify to obtain the equipment type, self-configuration is carried out according to the equipment type to obtain a corresponding equipment configuration model, and simple and quick configuration of the environment control equipment is realized; when equipment is replaced, the configuration of the energy-saving control application program can be completed only by correspondingly adjusting equipment information, so that the problems of repetition and complexity in configuration of the existing energy-saving system are solved, and a large amount of repetitive work such as point alignment, configuration and the like is avoided; at present, a centralized system architecture is mostly adopted in an environment-controlled energy-saving control system, and the system consists of an equipment layer, a network layer and a management layer. In order to realize data interaction between a management layer and an equipment layer and achieve the purpose of energy-saving control, a mapping relation between an energy-saving control software system and corresponding equipment needs to be established, the function is realized generally in a configuration mode, and the configured system is displayed on a human-computer interaction interface; in the environment-controlled energy-saving control system, configuration work is completed by carrying out on-site point alignment and then carrying out configuration, the number of required bottom layer information points is large, the types are various, and therefore the configuration work becomes very complicated and complicated, and errors are easy to occur; moreover, if old air conditioner rooms are modified or updated, reconfiguration is often needed, so that the maintenance work of the whole life cycle of the environment-controlled energy-saving control system is continuous, and huge labor cost is brought. Therefore, the self-configuration method of the environment-control equipment provided by the embodiment of the application is provided to avoid the problems of repetition and complexity in configuration of the environment-control energy-saving control system.

The self-configuration method of the ring control device provided in the embodiment may be executed by a self-configuration system of the ring control device, and the self-configuration system of the ring control device may be implemented in a software and/or hardware manner and integrated in the self-configuration device of the ring control device. The self-configuration device of the environmental control device can be a computer or other devices.

Fig. 1 is a flowchart of a self-configuration method of an environmental control apparatus according to an embodiment of the present disclosure. Referring to fig. 1, the self-configuration method of the environmental control apparatus specifically includes:

and 110, acquiring environment control equipment information, wherein the environment control equipment information comprises an identity parameter of the environment control equipment, an execution parameter of the environment control equipment and a sensing parameter of the environment control equipment.

Specifically, there are various ways to obtain the information of the ring control device, and optionally, the embodiment receives the information of the ring control device sent by the ring control identity identifier through the I/O module and the network switch; it can be understood that the information of the environmental control device includes various parameters, and optionally, the information of the environmental control device of this embodiment includes an identity parameter of the environmental control device, an execution parameter of the environmental control device, and a sensing parameter of the environmental control device. It can be understood that one environment control device identity identifier corresponds to one environment control device; the environmental control equipment identity parameters of the embodiment include: a refrigerator, a water pump, a cooling tower, an air conditioning box, a regulating valve and the like; in this embodiment, the execution parameters of the environment control device are detected through the execution device, and the execution device includes a water valve, an air valve, a differential pressure bypass valve, and the like, optionally, the execution parameters of the environment control device in this embodiment include: current, power, cold machine evaporation and condensation pressure, etc.; wherein, this embodiment detects environmental control equipment sensing parameter through sensing equipment, and sensing equipment includes temperature and humidity sensor, flowmeter, ammeter and manometer etc. and is optional, and environmental control equipment sensing parameter includes: water temperature, flow, water pressure, differential pressure, and the like.

And 120, identifying the type of the equipment according to the identity parameters of the environment control equipment to obtain the first equipment.

Specifically, identity parameters of the environment control equipment are obtained, wherein the identity parameters of the environment control equipment are received through an identity identification module of the environment control equipment, the identity parameters of the environment control equipment are identified, the environment control equipment corresponding to the obtained parameters is obtained, and a first equipment type is obtained; optionally, there are various ways of identifying the identity parameters of the environment-control device to obtain the corresponding environment-control device, and it can be understood that this embodiment does not limit this.

And step 130, performing type verification on the first equipment according to the execution parameters of the environmental control equipment and the sensing parameters of the environmental control equipment, and obtaining second equipment if the verification is successful.

Specifically, the information of the environmental control equipment is acquired, wherein the execution parameters and the sensing parameters of the environmental control equipment are received through an identity verification module of the environmental control equipment, and the type of the first equipment is verified according to the execution parameters and the sensing parameters of the environmental control equipment; if the verification result is correct, the type of the equipment is determined to be correct, and second equipment is obtained; and if the verification result is wrong, the equipment type is reported to be wrong.

Step 140, according to the mutual relationship among all the second devices and the corresponding identity parameters of the environmental control devices, the execution parameters of the environmental control devices, and the sensing parameters of the environmental control devices, the structural forms of all the second devices are automatically judged, and corresponding configuration is performed to obtain a device configuration model.

Specifically, the structural form of the second device is judged by comparing and classifying the second device and the corresponding environment control device identity parameters, the environment control device execution parameters and the environment control device sensing parameters, and corresponding configuration is carried out, wherein the structural form and the configuration model are determined according to the environment control device identity parameters of the second device, and then the structural form and the configuration model are further determined according to the combination of one or two of the environment control device execution parameters and the environment control device sensing parameters; and counting all the configuration models to obtain the configuration model of the corresponding environment control equipment.

The above steps are not performed in the exact order in which they are described, which should be understood as an overall solution.

On the basis of the foregoing embodiments, fig. 2 is a flowchart of a self-configuration method of another environmental control apparatus provided in an embodiment of the present application. The self-configuration method of the environmental control equipment is embodied by the self-configuration method of the environmental control equipment. Referring to fig. 2, the self-configuration method of the environmental control apparatus includes:

and step 210, judging whether the first equipment corresponds to the corresponding execution parameters of the environmental control equipment and the sensing parameters of the environmental control equipment.

Specifically, identity parameters of the environmental control equipment are obtained, wherein the execution parameters of the environmental control equipment and the sensing parameters of the environmental control equipment are received through an identity verification module of the environmental control equipment, and the type of the first equipment is verified respectively according to the execution parameters of the environmental control equipment and the sensing parameters of the environmental control equipment; and judging whether the first equipment corresponds to the corresponding execution parameters of the environmental control equipment or not, and judging whether the first equipment corresponds to the corresponding sensing parameters of the environmental control equipment or not.

And step 220, if the first device does not correspond to any one of the execution parameters and the sensing parameters of the corresponding environment control device, reporting an error to the first device.

Specifically, if the first device does not correspond to the corresponding environment control device execution parameter, an error is reported to the first device no matter whether the first device corresponds to the corresponding environment control device sensing parameter; if the first equipment does not correspond to the sensing parameters of the corresponding environmental control equipment, reporting an error to the first equipment no matter whether the first equipment corresponds to the execution parameters of the corresponding environmental control equipment or not; and identifying the type of the first equipment by the error-reported first equipment according to the corresponding identity parameters of the environment-control equipment.

And step 230, if the first equipment corresponds to the execution parameters and the sensing parameters of the corresponding environment control equipment, judging that the verification is successful and obtaining second equipment.

Specifically, according to the environment-controlled device identity authentication module, if it is detected that the first device corresponds to the corresponding environment-controlled device execution parameter and the corresponding environment-controlled device sensing parameter, it is determined that the first device is successfully authenticated, and the second device is obtained.

For example, referring to fig. 3, taking the first device type as a refrigerator as an example, verifying the refrigerator according to corresponding execution parameters and sensing parameters of the detected refrigerator, specifically, determining whether the corresponding execution parameters have evaporation pressure or condensation pressure, and if the evaporation pressure or the condensation pressure is not detected, determining that the device type is wrong, and reporting the error to the refrigerator; if the evaporation pressure or the condensation pressure is detected, further judging whether the evaporation pressure or the condensation pressure is reasonable, and if so, judging that the cold machine equipment type verification result is correct; if the evaporation pressure or the condensation pressure is not reasonable, judging that the equipment type is wrong, and reporting the mistake to the cold machine; and after the second equipment type is determined to be the refrigerator, carrying out the next configuration on the refrigerator.

Exemplarily, taking the first equipment type as a water pump as an example, verifying the water pump according to the detected execution parameters and sensing parameters corresponding to the water pump; specifically, whether the calculated cold amount of the water pump is higher than the cold amount of the refrigerator is judged, if the calculated cold amount of the water pump is higher than the cold amount of the refrigerator, whether the high-temperature water temperature is higher than 20 ℃ is further detected, if the high-temperature water temperature is higher than 20 ℃, the equipment type verification of the cooling water pump is judged to be successful, if the high-temperature water temperature is lower than 20 ℃, the equipment type is judged to be wrong, the water pump is reported to be wrong, and it can be understood that the 20 ℃ is set according to the system characteristics; if the cold quantity calculated by the water pump is equal to the cold quantity of the cold machine, further detecting whether the low-temperature water temperature is lower than 12 ℃, if the low-temperature water temperature is lower than 12 ℃, judging that the type verification of the refrigeration water pump equipment is successful, and if the low-temperature water temperature is higher than 12 ℃, judging that the equipment type is wrong, and reporting the error to the water pump; and after the second equipment type is determined as the cooling water pump or the chilled water pump, carrying out the next configuration on the water pump.

Illustratively, taking the first equipment type as a cooling tower as an example, verifying the cooling tower according to the detected execution parameters and sensing parameters corresponding to the cooling tower; specifically, whether the cooling tower calculated cold quantity is equal to the cooling water pump calculated cold quantity or not is judged, if the cooling tower calculated cold quantity is equal to the cooling water pump calculated cold quantity, whether the cooling tower power is smaller than the cooling water pump power or not is further judged, if the cooling tower power is smaller than the cooling water pump power, the equipment type verification of the cooling tower is judged to be successful, and if the cooling tower power is larger than the cooling water pump power, the equipment type is judged to be wrong, and the error is reported to the cooling tower; if the cooling capacity calculated by the cooling tower is not equal to the cooling capacity calculated by the cooling water pump, judging that the equipment type is wrong, and reporting the error to the cooling tower; after the second equipment type is determined as the cooling tower, the cooling tower is configured next.

Illustratively, taking the first equipment type as an air conditioner box as an example, verifying the cooling tower according to the detected execution parameters and sensing parameters corresponding to the air conditioner box; specifically, whether air temperature and humidity change information is detected or not is judged, if the air temperature and humidity are not detected, the type of equipment is judged to be wrong, and the air-conditioning box is reported to be wrong; if the air temperature and humidity are detected, judging whether the calculated cold quantity of the air-conditioning box is smaller than the calculated cold quantity of the chilled water pump or not, and if the calculated cold quantity of the air-conditioning box is smaller than the calculated cold quantity of the chilled water pump, successfully verifying the type of the air-conditioning box equipment; otherwise, judging that the type of the equipment is wrong, and reporting the error to the air-conditioning box; and after the second equipment type is confirmed as the air conditioning box, carrying out the next configuration on the air conditioning box.

And 240, judging and classifying the second equipment according to the identity parameters of the environment-friendly equipment to obtain a first configuration model.

Specifically, the second device is obtained through the environment control device identity verification module, the type of the second device is judged through the environment control system self-configuration module according to the obtained environment control device identity parameters, so that the second device is classified, and the first configuration model is obtained according to the classification result.

For example, referring to fig. 4, the type of the second device is determined, optionally, the type of the second device is determined to be a cooling tower, an air conditioning cabinet, a water pump or a water chilling unit, optionally, if the cooling tower is determined, the parallel configuration model of the water cooling machine is loaded, if the cooling tower is not determined, the parallel configuration model of the air cooling machine is loaded, and the parallel configuration model of the water cooling machine and the parallel configuration model of the air cooling machine are the first configuration model.

And step 250, comparing and classifying the corresponding conventional parameters of the equipment in the first configuration model according to the execution parameters and/or sensing parameters of the environmental control equipment, judging the structural form of the corresponding environmental control equipment, and performing corresponding execution parameter configuration to obtain a second configuration model.

Specifically, the environmental control system self-configuration module compares the acquired environmental control equipment execution parameters with the conventional execution parameters of the equipment of the first configuration model, or compares the acquired environmental control equipment sensing parameters with the conventional sensing parameters of the equipment of the first configuration model to obtain comparison results, classifies the comparison results according to the comparison results to obtain the structural form of the corresponding environmental control equipment based on the environmental control equipment execution parameters, and simultaneously performs corresponding execution parameter configuration to obtain the second configuration model.

And step 260, verifying the first configuration model and the second configuration model according to conventional parameters of the equipment to obtain a third configuration model.

Specifically, the first configuration model and the second configuration model are verified through the devices corresponding to the first configuration model and the second configuration model according to conventional parameters of the devices, and whether the models are configured correctly is judged, so that a third configuration model is obtained.

And 270, combining the first configuration model, the second configuration model and the third configuration model to obtain an equipment configuration model.

Specifically, all the configuration models are combined to obtain the equipment configuration models of all the environment-controlled equipment; it is understood that all configuration models may be a combination of the first configuration model and one or more of the second configuration model and the third configuration model.

For example, referring to fig. 4, after loading the parallel configuration model of the water chiller, it is determined whether the heat dissipation capacity of the cooling tower meets the calculated value of the parallel heat dissipation of the cooling tower, if the heat dissipation capacity of the cooling tower meets the calculated value of the parallel heat dissipation of the cooling tower, the parallel configuration model of the cooling tower is loaded, and if the heat dissipation capacity of the cooling tower does not meet the calculated value of the parallel heat dissipation of the cooling tower, the one-to-one configuration model of the cooling tower is loaded. Further, after loading the cooling tower one-to-one configuration model, the cooling tower parallel configuration model or the air cooling machine parallel configuration model, verifying the models, and judging whether the cooling water temperature meets the water pump parallel heat dissipation value, if the cooling water temperature meets the water pump parallel heat dissipation value, loading the water pump parallel configuration model, and if the cooling water temperature does not meet the water pump parallel heat dissipation value, loading the water pump one-to-one configuration model, wherein the calculation methods for the water pump parallel heat dissipation calculation values are various, and it can be understood that the embodiment is not limited herein. The cooling tower one-to-one configuration model, the cooling tower parallel configuration model, the water pump one-to-one configuration model and the water pump parallel configuration model are a second configuration model.

On the basis of the above embodiment, the self-configuration method of the environmental control device may be further embodied as: after the corresponding configuration is performed to obtain the device configuration model, the method further includes: and automatically constructing a topological structure according to the equipment configuration model and the corresponding parameters thereof.

Specifically, after equipment configuration models are established for all the environment control equipment, the configuration models obtained by different environment control equipment are counted, and a topological structure is automatically established according to the configuration models and corresponding parameters; there are various ways to construct the topology structure, and this embodiment is not limited herein.

On the basis of the above embodiment, the self-configuration method of the environmental control device may be further embodied as: and sending a working control signal to the environment control equipment and the environment control actuator according to the equipment configuration model and the topological structure so as to control the environment control equipment and the environment control actuator to work, and verifying the equipment configuration model and the topological structure according to a working state.

Specifically, after the configuration model and the topology structure are established for the environment control device, the system of the embodiment combines the configuration model and the topology structure, sends a work control signal to the corresponding environment control device and the corresponding environment control actuator according to the requirement, controls the environment control device and the environment control actuator to work, and judges whether the device configuration model and the topology structure are accurate according to whether the environment control device and the environment control actuator work and the corresponding working state, so that the verification of the device configuration model and the topology structure is realized; optionally, a set work control signal is sent to a certain environmental control device and an actuator thereof, where the work control signal may include a start signal, a work time signal, a work mode signal, a stop signal, and the like; and if the work finished by the corresponding environment control equipment and the actuator thereof is different from the setting work corresponding to the control signal, reporting errors to the configuration model and the topology structure.

On the basis of the above embodiment, the self-configuration method of the environmental control device may be further embodied as: acquiring environmental control equipment information, comprising: and receiving the information of the environmental control equipment acquired by the identity identifier of the environmental control equipment through the I/O module and the network switch.

Specifically, the environment control equipment identity recognition module acquires environment control equipment information acquired by an environment control equipment identity identifier through a network layer, and optionally, the network layer comprises an I/O module and a network switch; the environment control equipment identity identifier collects parameters of the environment control equipment, the sensing equipment and the execution equipment, and sends the parameters to the environment control equipment identity identification module, the environment control equipment identity verification module and the environment control system self-configuration module through the I/O module and the network switch, so that the equipment information is processed and self-configured.

Based on the foregoing embodiments, fig. 5 is a schematic structural diagram of a self-configuration system of an environmental control apparatus according to an embodiment of the present disclosure. Referring to fig. 5, the self-configuration system of the environmental control apparatus provided in this embodiment specifically includes: the environment control system comprises an environment control equipment identity identifier 301, an environment control equipment identity identification module 302, an environment control equipment identity verification module 303 and an environment control system self-configuration module 304.

The environment control device identity identifier 301 is configured to obtain environment control device information, where the environment control device information includes an environment control device identity parameter, an environment control device execution parameter, and an environment control device sensing parameter; the environment control device identity recognition module 302 is configured to perform type recognition on a device according to the environment control device identity parameter to obtain a first device; the environment control device identity verification module 303 is configured to perform type verification on the first device according to the environment control device execution parameter and the environment control device sensing parameter, and obtain a second device if the verification is successful; the environmental control system self-configuration module 304 is configured to automatically determine structural forms of all the second devices according to the interrelations among all the second devices and the corresponding environmental control device identity parameters, the environmental control device execution parameters, and the environmental control device sensing parameters, and perform corresponding configuration to obtain a device configuration model.

Further, the system also comprises an I/O module and a network switch; the I/O module and the network switch are configured to receive the information of the environmental control equipment collected by the environmental control equipment identity identifier 301 and send the information to the environmental control equipment identity recognition module 302, the environmental control equipment identity verification module 303, and the environmental control system self-configuration module 304.

Further, the environment control device identity authentication module 303 further includes: the system comprises an identity verification judging unit, an identity verification error reporting unit and an identity verification finishing unit, wherein the identity verification judging unit is used for judging whether a first device corresponds to a corresponding environment control device execution parameter and a corresponding environment control device sensing parameter; the identity verification error reporting unit is used for reporting an error to the first equipment if the first equipment does not correspond to any one of the execution parameters and the sensing parameters of the corresponding environment control equipment; and the identity verification completion unit is used for judging that the verification is successful and obtaining the second equipment if the first equipment corresponds to the corresponding execution parameters of the environment control equipment and the sensing parameters of the environment control equipment.

Further, the environmental control system self-configuration module 304 includes: the first self-configuration unit is used for judging and classifying the second equipment according to the identity parameters of the environmental control equipment to obtain a first configuration model; the second self-configuration unit is used for comparing and classifying corresponding conventional parameters of the equipment in the first configuration model according to the execution parameters and/or sensing parameters of the environmental control equipment, judging the structural form of the corresponding environmental control equipment, and performing corresponding execution parameter configuration to obtain a second configuration model; the third self-configuration unit is used for verifying the first configuration model and the second configuration model according to conventional parameters of equipment to obtain a third configuration model; the configuration combination unit is used for combining the first configuration model, the second configuration model and the third configuration model to obtain an equipment configuration model.

Further, the device comprises a topology construction module, wherein the topology construction module is used for automatically constructing a topology structure according to the device configuration model and the corresponding parameters thereof.

The verification module is used for sending work control signals to the environment control equipment and the environment control actuator according to the equipment configuration model and the topological structure so as to control the environment control equipment and the environment control actuator to work and verify the equipment configuration model and the topological structure according to the working state.

The method comprises the steps of obtaining the information of the environmental control equipment to carry out identification and verification to obtain the equipment type, carrying out self-configuration according to the equipment type to obtain a corresponding equipment configuration model, and realizing simple and quick configuration of the environmental control equipment; when equipment is replaced, the configuration of the energy-saving control application program can be completed only by correspondingly adjusting equipment information, the problems of repetition and complexity in configuration of the existing energy-saving system are solved, and a large amount of repetitive work of point alignment, configuration and the like is avoided.

The self-configuration system of the environmental control device provided by the embodiment of the application can be used for executing the self-configuration method of the environmental control device provided by the embodiment, and has corresponding functions and beneficial effects.

The embodiment of the present application further provides a computer device, and the computer device may integrate the self-configuration system of the environmental control device provided in the embodiment of the present application. Fig. 6 is a schematic structural diagram of a computer device according to an embodiment of the present application. Referring to fig. 6, the computer apparatus includes: an input device 43, an output device 44, a memory 42, and one or more processors 41; the memory 42 for storing one or more programs; when the one or more programs are executed by the one or more processors 41, the one or more processors 41 implement the self-configuration method of the ring control device according to the above embodiments. The input device 43, the output device 44, the memory 42 and the processor 41 may be connected by a bus or other means, and fig. 6 illustrates the connection by the bus as an example.

The processor 41 executes software programs, instructions and modules stored in the memory 42 to execute various functional applications and data processing of the device, that is, to implement the above-mentioned self-configuration method of the environment control device.

The computer device provided above can be used to execute the self-configuration method of the environment control device provided above, and has corresponding functions and advantages.

Embodiments of the present application further provide a storage medium containing computer-executable instructions, which when executed by a computer processor, perform a method for self-configuring an environment control apparatus, the method comprising: acquiring environmental control equipment information, wherein the environmental control equipment information comprises an environmental control equipment identity parameter, an environmental control equipment execution parameter and an environmental control equipment sensing parameter; according to the identity parameters of the environment-friendly equipment, identifying the type of the equipment to obtain first equipment; according to the execution parameters and sensing parameters of the environmental control equipment, performing type verification on the first equipment, and obtaining second equipment if the verification is successful; and automatically judging the structural forms of all the second equipment according to the mutual relations among all the second equipment and the corresponding environment control equipment identity parameters, the environment control equipment execution parameters and the environment control equipment sensing parameters, and carrying out corresponding configuration to obtain an equipment configuration model.

Storage medium-any of various types of memory devices or storage devices. The term "storage medium" is intended to include: mounting media such as CD-ROM, floppy disk, or tape systems; computer system memory or random access memory such as DRAM, DDR RAM, SRAM, EDO RAM, lanbas (Rambus) RAM, etc.; non-volatile memory such as flash memory, magnetic media (e.g., hard disk or optical storage); registers or other similar types of memory elements, etc. The storage medium may also include other types of memory or combinations thereof. In addition, the storage medium may be located in a first computer system in which the program is executed, or may be located in a different second computer system connected to the first computer system through a network (such as the internet). The second computer system may provide program instructions to the first computer for execution. The term "storage media" may include two or more storage media that may reside in different locations, such as in different computer systems that are connected by a network. The storage medium may store program instructions (e.g., embodied as a computer program) that are executable by one or more processors.

Of course, the storage medium containing the computer-executable instructions provided in the embodiments of the present application is not limited to the above-mentioned self-configuration method for the ring control device, and may also perform related operations in the self-configuration method for the ring control device provided in any embodiments of the present application.

The self-configuration system, the storage medium, and the computer device of the ring control device provided in the above embodiments may perform the self-configuration method of the ring control device provided in any embodiments of the present application, and reference may be made to the self-configuration method of the ring control device provided in any embodiments of the present application without detailed technical details described in the above embodiments.

The foregoing is considered as illustrative of the preferred embodiments of the invention and the technical principles employed. The present application is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present application has been described in more detail with reference to the above embodiments, the present application is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present application, and the scope of the present application is determined by the scope of the claims.

Claims

1. A method for self-configuring an environment control device, comprising:

according to the execution parameters of the environmental control equipment and the sensing parameters of the environmental control equipment, performing type verification on the first equipment, and obtaining second equipment if the verification is successful;

according to the mutual relation among all the second equipment and the corresponding environment control equipment identity parameters, the environment control equipment execution parameters and the environment control equipment sensing parameters, the structural forms of all the second equipment are judged automatically, and corresponding configuration is carried out to obtain an equipment configuration model, wherein the method comprises the steps of judging and classifying the second equipment according to the environment control equipment identity parameters to obtain a first configuration model, and the first configuration model comprises a plurality of differently classified equipment configuration models; comparing and classifying corresponding conventional parameters of the equipment in the first configuration model according to the execution parameters and/or sensing parameters of the environmental control equipment, judging the structural form of the corresponding environmental control equipment, and carrying out corresponding execution parameter configuration to obtain a second configuration model, wherein the second configuration model is determined to be a parallel configuration model if the execution parameters and/or sensing parameters of the environmental control equipment are matched with the corresponding conventional parameters of the equipment in the first configuration model, and the second configuration model is determined to be a one-to-one configuration model if the execution parameters and/or sensing parameters of the environmental control equipment are not matched with the corresponding conventional parameters of the equipment in the first configuration model; verifying the first configuration model and the second configuration model according to conventional parameters of equipment to obtain a third configuration model, wherein the method comprises verifying the equipment corresponding to the first configuration model and the second configuration model according to the conventional parameters of the equipment, judging whether the models are configured correctly, if so, determining that the third configuration model is a parallel configuration model, and if not, determining that the third configuration model is a one-to-one configuration model; and combining the first configuration model, the second configuration model and the third configuration model to obtain an equipment configuration model.

2. The method according to claim 1, wherein the performing type verification on the first device according to the execution parameter of the environmental control device and the sensing parameter of the environmental control device, and obtaining a second device if the verification is successful comprises:

judging whether the first equipment corresponds to the corresponding execution parameters of the environmental control equipment and the sensing parameters of the environmental control equipment or not;

3. The method of claim 1, wherein the performing the corresponding configuration to obtain the device configuration model further comprises:

4. The self-configuration method of claim 3, wherein after automatically constructing the topology structure according to the configuration model and the corresponding parameters thereof, the method further comprises:

and sending a working control signal to the environment control equipment and the environment control actuator according to the equipment configuration model and the topological structure so as to control the environment control equipment and the environment control actuator to work, and verifying the equipment configuration model and the topological structure according to a working state.

5. The method according to claim 1, wherein the obtaining information of the ring control device comprises:

and receiving the ring control equipment information acquired by the ring control equipment identity identifier through the I/O module and the network switch.

6. A self-configuration system for an environmental control apparatus, comprising:

the environment control equipment identity identifier is used for acquiring environment control equipment information, wherein the environment control equipment information comprises an environment control equipment identity parameter, an environment control equipment execution parameter and an environment control equipment sensing parameter;

the environment-control equipment identity recognition module is used for carrying out type recognition on equipment according to the environment-control equipment identity parameters to obtain first equipment;

the environment control system self-configuration module is used for automatically judging the structural forms of all the second equipment according to the mutual relations among all the second equipment and the corresponding environment control equipment identity parameters, the environment control equipment execution parameters and the environment control equipment sensing parameters, and carrying out corresponding configuration to obtain an equipment configuration model, wherein the method comprises the steps of judging and classifying the second equipment according to the environment control equipment identity parameters to obtain a first configuration model, and the first configuration model comprises a plurality of differently classified equipment configuration models; comparing and classifying corresponding conventional parameters of the equipment in the first configuration model according to the execution parameters and/or sensing parameters of the environmental control equipment, judging the structural form of the corresponding environmental control equipment, and carrying out corresponding execution parameter configuration to obtain a second configuration model, wherein the second configuration model is determined to be a parallel configuration model if the execution parameters and/or sensing parameters of the environmental control equipment are matched with the corresponding conventional parameters of the equipment in the first configuration model, and the second configuration model is determined to be a one-to-one configuration model if the execution parameters and/or sensing parameters of the environmental control equipment are not matched with the corresponding conventional parameters of the equipment in the first configuration model; verifying the first configuration model and the second configuration model according to conventional parameters of equipment to obtain a third configuration model, wherein the method comprises verifying the equipment corresponding to the first configuration model and the second configuration model according to the conventional parameters of the equipment, judging whether the models are configured correctly, if so, determining that the third configuration model is a parallel configuration model, and if not, determining that the third configuration model is a one-to-one configuration model; and combining the first configuration model, the second configuration model and the third configuration model to obtain a device configuration model.

7. The self-configuration system of claim 6, further comprising an I/O module and a network switch; the I/O module and the network switch are used for receiving the environment control equipment information collected by the environment control equipment identity identifier and sending the environment control equipment information to the environment control equipment identity identification module, the environment control equipment identity verification module and the environment control system self-configuration module.

8. A computer device, comprising: a memory and one or more processors;

the memory to store one or more programs;

when executed by the one or more processors, cause the one or more processors to implement a method for self-configuration of an environment control apparatus as recited in any of claims 1-5.

9. A storage medium containing computer-executable instructions for performing the self-configuration method of an environmental control apparatus according to any one of claims 1 to 5 when executed by a computer processor.