CN117518937A - Intelligent management control method and system for equipment based on Internet of things - Google Patents

Abstract

The invention discloses an intelligent management control method and system for equipment based on the Internet of things, comprising an equipment information acquisition unit, an equipment efficiency analysis unit and an analysis result output unit, relating to the technical field of intelligent management of equipment, solving the technical problem that time is wasted by manual secondary analysis because reasonable data adjustment calculation is not needed according to acquired data.

Description

Intelligent management control method and system for equipment based on Internet of things

Technical Field

The invention relates to the technical field of intelligent equipment management, in particular to an intelligent equipment management control method and system based on the Internet of things.

Background

The intelligent equipment management control system based on the Internet of things has wide application in various fields. In the industrial field, the remote monitoring and management of equipment can be realized, and the production efficiency and the safety are improved. In the agricultural field, can realize accurate management such as intelligent irrigation, intelligent fertilization, improve the output and the quality of crops. In city management, the method can realize the application of intelligent traffic, intelligent energy and the like, and promote the management and service level of cities.

According to the patent display of the application number CN202111364172.3, the patent acquires the electricity utilization change information of each region by monitoring the operation information of the power generation equipment and the power transmission and distribution equipment; judging whether the electric quantity output by the power transmission and distribution equipment is larger than the current electric quantity; when the electric quantity output by the power transmission and distribution equipment is not more than the current electricity utilization information, a plurality of power generation equipment are allocated to cooperate with each other, so that the flexible starting and stopping of the power generation equipment in the local area can be maintained, and the cooperation of the power generation equipment, the power transmission and distribution equipment and the like can be automatically realized; after various power generation equipment in a single area is comprehensively started, the electric quantity output by the power transmission and distribution equipment is still smaller than the current electric quantity, the power transmission and distribution and power consumption conditions of surrounding areas are verified in sequence, and power is transferred to the areas with surplus power generation, so that the power generation and power consumption conditions among the areas are communicated, the electric quantity allocation range can be enlarged, the power generation and power consumption conditions in a large range are balanced, the resource allocation is reasonable, and the situations of resource waste or excessive resource standby are avoided.

When the intelligent management and control are carried out on part of the existing factory equipment, most of the factory equipment is monitored in real time through parameters of the factory equipment, so that the working state of the equipment is judged, the working state is directly reflected to staff, reasonable analysis and judgment are not carried out according to the acquired time in the process, reasonable data adjustment calculation is not carried out, the follow-up secondary analysis is needed, and time is wasted.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an intelligent management control method and system for equipment based on the Internet of things, which solve the problem that time is wasted due to the fact that reasonable data adjustment calculation is not performed according to acquired data and manual secondary analysis is needed.

In order to achieve the above purpose, the invention is realized by the following technical scheme: equipment intelligent management control system based on thing networking includes:

the device information acquisition unit is used for acquiring basic information of a target object and transmitting the basic information to the device efficiency analysis unit, wherein the target object comprises: the internet of things device, the basic information includes: operating power and real-time temperature;

the device efficiency analysis unit is used for acquiring and analyzing the transmitted basic information of the target object, judging the running state of the target object and generating running state information by analyzing the production efficiency of the target object, and the running state information comprises: high-efficiency production information and low-efficiency production information are transmitted to the high-efficiency analysis unit at the same time, and low-efficiency production information is transmitted to the low-efficiency analysis unit;

the high-efficiency analysis unit is used for acquiring the transmitted high-efficiency production information, acquiring basic information of the target object and analyzing the basic information, judging whether the power of the target object needs to be regulated or not by analyzing the real-time temperature, generating corresponding analysis information and transmitting the analysis information to the equipment regulation unit, wherein the analysis information comprises: temperature regulation information and temperature early warning information;

the device adjusting and analyzing unit is used for acquiring and analyzing the transmitted analysis information, analyzing the temperature adjusting information through the relation between the real-time temperature and the early warning temperature, and obtaining corresponding power adjusting information, wherein the power adjusting information comprises: the temperature reduction information and the parameter information are analyzed to calculate the time required by the temperature reaching the early warning temperature to obtain corresponding temperature early warning time information;

and the low-efficiency analysis unit is used for acquiring and analyzing the transmitted low-efficiency production information, analyzing the power of the target object, generating corresponding adjustment information by combining the historical record, and transmitting the adjustment information to the analysis result output unit.

As a further aspect of the invention: the specific manner in which the device efficiency analysis unit generates the operation state information is as follows:

s1: taking T as a time period, acquiring i time periods, i=1, 2, … and n, acquiring the production efficiency record of a target object in the time period T as XLI, simultaneously taking the time period i as an abscissa, establishing a rectangular coordinate system by taking the production efficiency XLI as an ordinate, and drawing a relation diagram of the two;

s2: and judging the change trend of the production efficiency of the target object according to the relation graph, wherein when the change trend and the change trend are in a direct proportion, the target object is high-efficiency production, and meanwhile high-efficiency production information is generated, otherwise when the change trend and the change trend are in an inverse proportion, the target object is low-efficiency production, and meanwhile low-efficiency production information is generated.

As a further aspect of the invention: the specific way of generating the analysis information by the high-efficiency analysis unit is as follows:

and when the Ws is smaller than Wz, the real-time temperature of the target object does not exceed the normal temperature, and early warning is carried out on the real-time temperature of the target object and temperature early warning information is generated.

As a further aspect of the invention: the specific way in which the device analysis unit generates the power adjustment information is as follows:

a1: the real-time temperature Ws is obtained and compared with a preset value YS, when Ws is more than or equal to YS, the real-time temperature of the target object exceeds an early warning value, a temperature early warning signal is generated at the same time, and then the temperature early warning signal is analyzed in the following specific analysis mode:

a11: acquiring the working state of the target object, judging whether the working can be stopped, and generating a corresponding judging signal, wherein the judging signal comprises the following components: a stop-enabled signal and a stop-disabled signal; specifically, a temperature early warning signal is obtained and the working state of the current target object is judged, if the target object can be timely closed when the temperature early warning signal appears, a corresponding signal capable of stopping is generated, and if the target object needs to work under special conditions, a corresponding signal incapable of stopping is generated.

A12: then analyzing the stop signal to obtain the unit cooling speed of the target object as V1, obtaining the real-time temperature Ws of the target object, and substituting the two into the formulaCalculating cooling time t1, and generating pair of cooling information, wherein W1 is a device temperature safety value, a1 is a cooling influence proportionality coefficient, and specific numerical values of W1 and a1 are set by an operator;

a13: and acquiring a signal that the target object cannot stop, acquiring normal power record as Gz, calculating a difference Gs-Gz between the current power Gs of the target object and the normal power Gz, and generating corresponding parameter information.

The mode of generating the temperature early warning time information is as follows:

a2: obtaining real-time temperature Ws, calculating the difference value between the real-time temperature Ws and a preset value YS to obtain a temperature early-warning difference value record as Wc, obtaining a working time record of a target object as GT and an initial temperature W0, and substituting the GT and the initial temperature W0 into a formulaCalculating to obtain the unit time heating rate Vw of the target object, wherein a2 is a heating influence proportionality coefficient;

a3: then substituting the temperature rise speed Vw and the temperature early-warning difference Wc in unit time into a formulaThe temperature early warning time t2 is calculated, a2 is a heating influence proportion coefficient, and a specific numerical value is set by an operator. Specifically, in calculating the temperature rise rate per unit time, the default temperature rise rate is uniformly changed

As a further aspect of the invention: the specific way in which the low-efficiency analysis unit generates the analysis result is as follows:

b1: acquiring the current power of the target object as G1, comparing the current power with the normal power Gz, when G1 is more than or equal to Gz, indicating that the current power of the target object exceeds the normal power, generating an equipment early warning signal, otherwise, when G1 is less than Gz, indicating that the current power of the target object does not reach the normal power, and generating a power regulating signal; specifically, if the current power exceeds the normal power, the power setting of the target object is indicated to be free of problems, further the problem of the target object is indicated, otherwise, the power parameter setting is indicated to be problematic.

B2: the power adjustment signal is obtained, the current power G1 corresponding to the power adjustment signal is obtained, meanwhile, the history record is obtained, and the history record comprises: working power and working temperature, and calculate and get the regulated power according to the history, and the calculation mode of the regulated power is as follows:

b21: all the working powers in the history are recorded as GLj, j=1, 2, … and m, the working temperature WDj corresponding to the working power is obtained, then the working temperature WDj in the normal temperature range is obtained, the working power GLj is correspondingly obtained, and the working power GLj is recorded as the working power to be analyzed; specifically, the normal temperature range indicates a temperature at which the temperature generated by the device during operation does not exceed the pre-warning temperature value.

B22: and then calculating the obtained average value with the analysis working power, marking the average value as GLp, substituting the current power G1 and GLp into a formula Gc= |G1-GLp| to calculate the regulated power Gc, and generating regulation information.

As a further aspect of the invention: and the analysis result output unit is used for acquiring the transmitted power regulation information, temperature early warning time information and regulation information and displaying the power regulation information, the temperature early warning time information and the regulation information to an operator through the display equipment.

The control method of the intelligent equipment management control system based on the Internet of things comprises the following steps:

step one: acquiring basic information of equipment, judging the running state of the equipment according to the basic information, and classifying the running state into high-efficiency equipment and low-efficiency equipment;

step two: basic information classified as high-efficiency equipment is obtained, and whether the high-efficiency equipment needs power adjustment or not is judged by analyzing the real-time temperature, and corresponding analysis information is generated;

step three: then, the high-efficiency equipment is further analyzed according to the classification information, and power adjustment information and temperature early warning time information are obtained by acquiring the relation between the real-time temperature and the early warning temperature;

step four: basic information classified as low-efficiency equipment is obtained, the low-efficiency equipment is analyzed according to the history record, and corresponding adjusting information is generated.

Advantageous effects

The invention provides an intelligent equipment management control method and system based on the Internet of things. Compared with the prior art, the method has the following beneficial effects:

according to the invention, the operating state of the equipment is judged by acquiring the working efficiency of the factory equipment, meanwhile, different situation analyses are carried out on the equipment with different working efficiencies, whether the high-efficiency equipment needs to be properly adjusted or not is judged by analyzing the working temperature and the working power of the equipment, so that the lasting operation of the high-efficiency equipment is ensured, the equipment damage caused by overload working efficiency is avoided, the whole working efficiency is adjusted by analyzing the working efficiency of the low-efficiency equipment, the production efficiency can be improved by reasonably changing the working efficiency, and the operation influence on the equipment caused by excessive adjustment is avoided by reasonable data calculation adjustment.

Drawings

FIG. 1 is a block diagram of a system of the present invention;

FIG. 2 is a flow chart of the method of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the present application provides an intelligent management control system for a device based on internet of things, including:

the device information acquisition unit is used for acquiring basic information of a target object and transmitting the basic information to the device efficiency analysis unit, wherein the target object comprises: the internet of things device, the basic information includes: operating power and real-time temperature, and real-time temperature is obtained through the temperature sensor that sets up.

The device efficiency analysis unit is used for acquiring and analyzing the transmitted basic information of the target object, judging the running state of the target object and generating running state information by analyzing the production efficiency of the target object, and the running state information comprises: the method comprises the steps of transmitting high-efficiency production information and low-efficiency production information to a high-efficiency analysis unit, transmitting low-efficiency production information to the low-efficiency analysis unit, and generating running state information in the following specific modes:

s1: taking T as a time period, acquiring i time periods, i=1, 2, … and n, acquiring the production efficiency record of a target object in the time period T as XLI, simultaneously taking the time period i as an abscissa, establishing a rectangular coordinate system by taking the production efficiency XLI as an ordinate, and drawing a relation diagram of the two;

s2: and judging the change trend of the production efficiency of the target object according to the relation graph, wherein when the change trend and the change trend are in a direct proportion, the target object is high-efficiency production, and meanwhile high-efficiency production information is generated, otherwise when the change trend and the change trend are in an inverse proportion, the target object is low-efficiency production, and meanwhile low-efficiency production information is generated.

Specifically, the relationship between the two is represented by a direct proportion and the relationship graph is represented by an ascending trend, and the relationship between the two is represented by an inverse proportion and the relationship graph is represented by a descending trend.

The high-efficiency analysis unit is used for acquiring the transmitted high-efficiency production information, acquiring basic information of the target object and analyzing the basic information, judging whether the power of the target object needs to be regulated or not by analyzing the real-time temperature, generating corresponding analysis information and transmitting the analysis information to the equipment regulation unit, wherein the analysis information comprises: the specific mode of generating the analysis information is as follows:

and when the Ws is smaller than Wz, the real-time temperature of the target object does not exceed the normal temperature, and early warning is carried out on the real-time temperature of the target object and temperature early warning information is generated.

The device adjusting and analyzing unit is used for acquiring and analyzing the transmitted analysis information, analyzing the temperature adjusting information through the relation between the real-time temperature and the early warning temperature, and obtaining corresponding power adjusting information, wherein the power adjusting information comprises: the temperature reduction information and the parameter information are obtained by analyzing the temperature change to calculate the time required by the temperature to reach the early warning temperature, and the specific mode for generating the power adjustment information is as follows:

a1: the real-time temperature Ws is obtained and compared with a preset value YS, when Ws is more than or equal to YS, the real-time temperature of the target object exceeds an early warning value, a temperature early warning signal is generated at the same time, and then the temperature early warning signal is analyzed in the following specific analysis mode:

a11: acquiring the working state of the target object, judging whether the working can be stopped, and generating a corresponding judging signal, wherein the judging signal comprises the following components: a stop-enabled signal and a stop-disabled signal; specifically, a temperature early warning signal is obtained and the working state of the current target object is judged, if the target object can be timely closed when the temperature early warning signal appears, a corresponding signal capable of stopping is generated, and if the target object needs to work under special conditions, a corresponding signal incapable of stopping is generated.

A12: splicing jointAnalyzing the stop signal to obtain the unit cooling speed of the target object as V1, obtaining the real-time temperature Ws of the target object, and substituting the two into the formulaCalculating cooling time t1, and generating pair of cooling information, wherein W1 is a device temperature safety value, a1 is a cooling influence proportionality coefficient, and specific numerical values of W1 and a1 are set by an operator;

a13: acquiring a signal that can not be stopped, acquiring normal power record as Gz, calculating a difference Gs-Gz between the current power Gs of the target object and the normal power Gz, and generating corresponding parameter information;

the specific mode for acquiring the temperature early warning time information is as follows:

a2: obtaining real-time temperature Ws, calculating the difference value between the real-time temperature Ws and a preset value YS to obtain a temperature early-warning difference value record as Wc, obtaining a working time record of a target object as GT and an initial temperature W0, and substituting the GT and the initial temperature W0 into a formulaCalculating to obtain the unit time heating rate Vw of the target object, wherein a2 is a heating influence proportionality coefficient;

a3: then substituting the temperature rise speed Vw and the temperature early-warning difference Wc in unit time into a formulaThe temperature early warning time t2 is calculated, a2 is a heating influence proportion coefficient, and a specific numerical value is set by an operator. Specifically, in calculating the temperature increase rate per unit time, the increase rate of the default temperature is uniformly changed.

And the analysis result output unit is used for acquiring the transmitted power regulation information and temperature early warning time information and displaying the power regulation information and the temperature early warning time information to an operator through the display equipment.

In the second embodiment, as the second embodiment of the present invention, the difference from the first embodiment is that the inefficiency analyzing unit acquires and analyzes the transmitted inefficiency production information.

The low-efficiency analysis unit is used for acquiring and analyzing the transmitted low-efficiency production information, generating corresponding adjustment information by analyzing the power of the target object and combining the historical record, transmitting the adjustment information to the analysis result output unit, and generating the adjustment information in the following specific modes:

b1: acquiring the current power of the target object as G1, comparing the current power with the normal power Gz, when G1 is more than or equal to Gz, indicating that the current power of the target object exceeds the normal power, generating an equipment early warning signal, otherwise, when G1 is less than Gz, indicating that the current power of the target object does not reach the normal power, and generating a power regulating signal; specifically, if the current power exceeds the normal power, the power setting of the target object is indicated to be free of problems, further the problem of the target object is indicated, otherwise, the power parameter setting is indicated to be problematic.

B2: the power adjustment signal is obtained, the current power G1 corresponding to the power adjustment signal is obtained, meanwhile, the history record is obtained, and the history record comprises: working power and working temperature, and calculate and get the regulated power according to the history, and the calculation mode of the regulated power is as follows:

b21: all the working powers in the history are recorded as GLj, j=1, 2, … and m, the working temperature WDj corresponding to the working power is obtained, then the working temperature WDj in the normal temperature range is obtained, the working power GLj is correspondingly obtained, and the working power GLj is recorded as the working power to be analyzed; specifically, the normal temperature range indicates a temperature at which the temperature generated by the device during operation does not exceed the pre-warning temperature value.

B22: and then calculating the obtained average value with the analysis working power, marking the average value as GLp, substituting the current power G1 and GLp into a formula Gc= |G1-GLp| to calculate the regulated power Gc, and generating regulation information.

And the analysis result output unit is used for acquiring the transmitted adjustment information and displaying the adjustment information to an operator through the display equipment.

Embodiment III as embodiment III of the present invention, the emphasis is placed on the implementation of the above-described embodiments in combination.

Referring to fig. 2, the method for controlling intelligent management of devices based on the internet of things specifically includes the following steps:

step one: acquiring basic information of equipment, judging the running state of the equipment according to the basic information, and classifying the running state into high-efficiency equipment and low-efficiency equipment;

step two: basic information classified as high-efficiency equipment is obtained, and whether the high-efficiency equipment needs power adjustment or not is judged by analyzing the real-time temperature, and corresponding analysis information is generated;

step three: then, the high-efficiency equipment is further analyzed according to the classification information, and power adjustment information and temperature early warning time information are obtained by acquiring the relation between the real-time temperature and the early warning temperature;

step four: basic information classified as low-efficiency equipment is obtained, the low-efficiency equipment is analyzed according to the history record, and corresponding adjusting information is generated.

Some of the data in the above formulas are numerical calculated by removing their dimensionality, and the contents not described in detail in the present specification are all well known in the prior art.

The above embodiments are only for illustrating the technical method of the present invention and not for limiting the same, and it should be understood by those skilled in the art that the technical method of the present invention may be modified or substituted without departing from the spirit and scope of the technical method of the present invention.

Claims (8)

1. Equipment intelligent management control system based on thing networking, its characterized in that includes:

the device efficiency analysis unit is used for judging whether the target object is high-efficiency production or low-efficiency production according to the production efficiency of the target object, then transmitting the high-efficiency production information to the high-efficiency analysis unit and transmitting the low-efficiency production information to the low-efficiency analysis unit;

the high-efficiency analysis unit is used for analyzing the real-time temperature of the target object to judge whether the power of the target object needs to be subjected to temperature regulation or not, and transmitting analysis information to the equipment regulation unit;

the equipment adjusting and analyzing unit is used for obtaining corresponding cooling information and parameter information according to the relation between the real-time temperature and the early-warning temperature, and calculating the time required by the temperature reaching the early-warning temperature by analyzing the temperature change to obtain corresponding temperature early-warning time information;

and the low-efficiency analysis unit is used for analyzing the power and the history of the target object, generating adjustment information and transmitting the adjustment information to the analysis result output unit.

2. The intelligent management control system of equipment based on the internet of things according to claim 1, wherein the specific manner of generating the running state information by the equipment efficiency analysis unit is as follows:

s1: obtaining the production efficiency of i time period target objects in a time period T, namely XLi, wherein i=1, 2, … and n, and simultaneously establishing a relation diagram of the time period and the production efficiency;

s2: and if the two are in a direct proportion relation, the target object is high-efficiency production and high-efficiency production information is generated, and if the two are in an inverse proportion relation, the target object is low-efficiency production and low-efficiency production information is generated.

3. The intelligent management control system of equipment based on the internet of things according to claim 1, wherein the specific mode of generating the analysis information by the high-efficiency analysis unit is as follows:

and acquiring the real-time temperature of the target object and recording the real-time temperature as Ws, generating temperature regulation information when the Ws is more than or equal to Wz, and otherwise, generating temperature early warning information when the Ws is less than Wz.

4. The intelligent management control system of the device based on the internet of things according to claim 1, wherein the specific manner of generating the power adjustment information by the device analysis unit is as follows:

a1: comparing the real-time temperature Ws with a preset value YS, and generating a temperature early warning signal when the temperature Ws is more than or equal to YS, wherein the analysis of the temperature early warning signal is as follows:

a11: acquiring the working state of the target object, judging whether the working can be stopped, and generating a corresponding judging signal, wherein the judging signal comprises the following components: a stop-enabled signal and a stop-disabled signal;

a12: then analyzing the stop signal to obtain the unit cooling speed of the target object as V1, obtaining the real-time temperature Ws of the target object, and substituting the two into the formulaCalculating cooling time t1, and generating pair of cooling information, wherein W1 is a device temperature safety value, a1 is a cooling influence proportionality coefficient, and specific numerical values of W1 and a1 are set by an operator;

a13: and acquiring a signal that the target object cannot stop, acquiring normal power record as Gz, calculating a difference Gs-Gz between the current power Gs of the target object and the normal power Gz, and generating corresponding parameter information.

5. The intelligent management control system of equipment based on the internet of things according to claim 1, wherein the specific mode of generating the temperature early warning time information by the equipment analysis unit is as follows:

a2: acquiring real-time temperature Ws, calculating a difference value from a preset value YS to obtain a temperature early-warning difference value Wc, and substituting the working time GT and the initial temperature W0 of the target object into a formulaCalculating to obtain the unit time heating rate Vw of the target object, wherein a2 is a heating influence proportionality coefficient;

a3: then substituting the temperature rise speed Vw and the temperature early-warning difference Wc in unit time into a formulaThe temperature early warning time t2 is calculated, a2 is a heating influence proportion coefficient, and a specific numerical value is set by an operator.

6. The intelligent management control system of equipment based on the internet of things according to claim 1, wherein the specific mode of generating the analysis result by the low-efficiency analysis unit is as follows:

b1: comparing the current power of the target object with the normal power Gz by taking the current power of the target object as G1, generating an equipment early warning signal when G1 is more than or equal to Gz, and generating a power regulating signal when G1 is less than Gz;

b2: the current power G1 corresponding to the power adjusting signal is obtained, meanwhile, the working power and the working temperature in the history are obtained, and then the adjusting power in the history is calculated:

b21: all the working powers in the history are recorded as GLj, j=1, 2, … and m, the working temperature WDj corresponding to the working power is obtained, then the working temperature WDj in the normal temperature range is obtained, the working power GLj is correspondingly obtained, and the working power GLj is recorded as the working power with analysis;

b22: and then calculating the obtained average value with the analysis working power, marking the average value as GLp, substituting the current power G1 and GLp into a formula Gc= |G1-GLp| to calculate the regulated power Gc, and generating regulation information.

7. The intelligent management control system of the equipment based on the internet of things according to claim 1, wherein the analysis result output unit is configured to obtain the transmitted power adjustment information, temperature early warning time information and adjustment information, and display the power adjustment information, the temperature early warning time information and the adjustment information to an operator through the display device.

8. The control method for executing the intelligent management control system of the device based on the internet of things according to any one of claims 1 to 7, which is characterized by comprising the following steps:

step one: acquiring basic information of equipment, judging the running state of the equipment according to the basic information, and classifying the running state into high-efficiency equipment and low-efficiency equipment;

step two: basic information classified as high-efficiency equipment is obtained, and whether the high-efficiency equipment needs power adjustment or not is judged by analyzing the real-time temperature, and corresponding analysis information is generated;

step three: then, the high-efficiency equipment is further analyzed according to the classification information, and power adjustment information and temperature early warning time information are obtained by acquiring the relation between the real-time temperature and the early warning temperature;

step four: basic information classified as low-efficiency equipment is obtained, the low-efficiency equipment is analyzed according to the history record, and corresponding adjusting information is generated.