CN116742484A - Circuit connection control system of solid insulation cabinet - Google Patents

Abstract

The invention discloses a circuit connection control system of a solid insulation cabinet, which belongs to the technical field of circuit connection control of solid insulation cabinets and comprises a demand module, an acquisition module and a control module; the demand module is used for analyzing the demands of clients, determining corresponding formulated targets and producing corresponding solid insulation cabinets according to the formulated targets; the acquisition module is used for acquiring parameter data of the solid insulation cabinet in real time; the control module is used for controlling the line connection of the solid insulation cabinet and acquiring the parameter data acquired by the acquisition module in real time; identifying a preset circuit connection control mode of the solid insulation cabinet; carrying out line connection control on the solid insulation cabinet according to the obtained parameter data and the line connection control mode; through each other between demand module, collection module and the control module, realize the individualized demand of user to solid insulation cabinet line connection control for solid insulation cabinet can exert its effect better in the application background, makes things convenient for the user to use.

Description

Circuit connection control system of solid insulation cabinet

Technical Field

The invention belongs to the technical field of circuit connection control of solid insulation cabinets, and particularly relates to a circuit connection control system of a solid insulation cabinet.

Background

The solid insulation cabinet is an electrical device used in a power distribution system, and adopts solid insulation materials to replace the traditional gas insulation devices; the device has the advantages of high reliability, environmental protection, maintenance-free property, small size, strong short circuit resistance, long service life and the like; the gas-insulated switching power supply is widely applied to places such as power distribution systems, industrial fields and power stations, gradually replaces traditional gas-insulated switching equipment, and becomes a more reliable and environment-friendly choice.

However, the circuit connection control logic inside the existing solid insulation cabinet is fixed, namely, the corresponding circuit connection control mode is fixed when leaving the factory; the current solid insulation cabinet is suitable for most user demands, but under the influence of special requirements, self use habits and the like, the circuit connection control logic of the current solid insulation cabinet cannot fully meet the user demands; accordingly, in order to solve this problem, the present invention provides a line connection control system of a solid insulated cabinet.

Disclosure of Invention

In order to solve the problems of the scheme, the invention provides a circuit connection control system of a solid insulation cabinet.

The aim of the invention can be achieved by the following technical scheme:

a circuit connection control system of a solid insulation cabinet comprises a demand module, an acquisition module and a control module;

the demand module is used for analyzing the demands of clients, determining corresponding formulated targets and producing corresponding solid insulation cabinets according to the formulated targets;

further, the target making acquisition method comprises the following steps:

establishing a model library, wherein the model library is used for storing various types of brief introduction models;

acquiring application requirements of clients, and matching corresponding profile models from a model library based on the application requirements; displaying the matched profile models to clients, and setting corresponding line connection management demand data according to the displayed profile models by the clients;

carrying out feasibility analysis on the line connection management demand data by a preset technician to obtain corresponding targets to be selected, corresponding cost change values and performance influence values, and calculating a priority value corresponding to each target to be selected;

and sequencing the targets to be selected according to the sequence from the high priority value to the low priority value, recommending the targets to the clients according to the sequence, and selecting the corresponding formulated targets according to the recommendation by the clients.

Further, the method for establishing the model library comprises the following steps:

obtaining various types of solid insulation cabinets of manufacturers, obtaining corresponding application ranges and circuit connection management modes of the solid insulation cabinets, and manufacturing brief introduction models of the corresponding solid insulation cabinets according to the solid insulation cabinets, the corresponding circuit connection management modes and the corresponding application ranges;

and establishing a model base according to each brief introduction model.

Further, the range of the influence value is [0, 10].

Further, the method for calculating the priority value includes:

acquiring the selling price, the cost change value and the performance influence value of each target to be selected, marking the acquired selling price, cost change value and performance influence value as CB1, CB2 and XM respectively, and according to a priority formula PQ=b1×exp (XM)/[ b2×ε× (Cb1+Cb2) ^1/2 ]Calculating a corresponding priority value PQ, wherein ε is a cost unit conversion factor and the range of values is (0,0.1)]The method comprises the steps of carrying out a first treatment on the surface of the b1 and b2 are both proportional coefficients, and the value range is 0<b1≤1，0<b2≤1。

The acquisition module is used for acquiring the parameter data of the solid insulation cabinet in real time.

Further, the working method of the acquisition module comprises the following steps:

acquiring a preset circuit connection control mode of the solid insulation cabinet, identifying each acquisition item corresponding to the circuit connection control mode, and acquiring real-time parameters according to the acquired acquisition items to obtain corresponding parameter data.

The control module is used for controlling the line connection of the solid insulation cabinet and acquiring the parameter data acquired by the acquisition module in real time; identifying a preset circuit connection control mode of the solid insulation cabinet;

and carrying out line connection control on the solid insulation cabinet according to the obtained parameter data and the line connection control mode.

Further, the solid insulation cabinet monitoring system further comprises a monitoring module, wherein the monitoring module is used for monitoring the solid insulation cabinet in real time to obtain a corresponding monitoring result.

Further, the working method of the monitoring module comprises the following steps:

setting corresponding monitoring items and monitoring allowable intervals according to the changed line connection control mode of the solid insulation cabinet;

and collecting monitoring data corresponding to each monitoring item in real time, comparing the obtained monitoring data with a corresponding monitoring permission interval, judging whether data abnormality occurs, and when judging that the data abnormality occurs, carrying out corresponding alarm prompt, otherwise, not carrying out alarm prompt.

Compared with the prior art, the invention has the beneficial effects that:

through each other between demand module, collection module and the control module, realize the individualized demand of user to solid insulation cabinet line connection control for solid insulation cabinet can exert its effect better in the application background, makes things convenient for the user to use. The solid insulation cabinet is produced according to the personalized requirements of the user by setting the requirement module, so that the management requirement of the user on the line connection mode is met; the circuit connection control logic solves the problem that the circuit connection control logic of the existing solid insulation cabinet cannot fully meet the requirements of users under the influence of special requirements, self use habits and the like. Through setting up monitoring module, realize carrying out real-time supervision to the solid insulation cabinet after changing former circuit connection control mode, the unstable problem that probably brings after solving the former circuit connection control mode of change.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

Fig. 1 is a functional block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments 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.

As shown in fig. 1, a circuit connection control system of a solid insulation cabinet comprises a demand module, an acquisition module, a control module and a monitoring module;

the demand module analyzes the demand of the customer, and the specific method comprises the following steps:

obtaining various types of solid insulation cabinets of a manufacturer, marking application ranges corresponding to the various types of solid insulation cabinets, and indicating what type of solid insulation cabinet is selected under which requirements; obtaining corresponding line connection management modes of various solid insulation cabinets, manufacturing a brief introduction model of the corresponding solid insulation cabinet according to each solid insulation cabinet and the corresponding line connection management mode and application range for the line connection management mode in the preset solid insulation cabinet produced by a current manufacturer, wherein the brief introduction model is a display model representing the application range and the line connection mode of the solid insulation cabinet, is generally set by using a two-dimensional model or an image form, such as an image comprising the solid insulation cabinet, and is formed by inserting brief introduction of the corresponding application range, the line connection mode and equipment related information into the image, but is set according to a uniform format; the machine profile model also comprises relevant data such as model, performance, function and the like of corresponding equipment;

acquiring application requirements of clients, such as direct selection of related data of solid insulation cabinets with intent, application background and the like, and excluding the requirements of line connection management; matching corresponding profile models according to the obtained application requirements, wherein a plurality of profile models meeting the application requirements of clients can be provided according to the number, the function types and the like of various solid insulation cabinets in a manufacturer;

displaying the matched profile models to clients, setting corresponding line connection management demand data by the clients according to the displayed profile models, namely, the clients automatically determine whether the demand is met according to the corresponding line connection management mode in the profile models, and if the demand is not met, carrying out line connection management according to the line connection management mode which does not meet the demand, so as to form the line connection management demand data of the profile models; carrying out feasibility analysis on the obtained line connection management requirement data, namely judging whether the line connection management requirement can be realized on a corresponding fixed insulation cabinet according to technical capability and common knowledge in the field, wherein the requirements which are proposed by non-corresponding technicians of clients can not be realized or the enterprise can not be realized, so that the feasibility analysis is required, and the unrealizable profile model is removed; the method specifically comprises the steps of analyzing by appointed technicians in an enterprise, judging whether each line connection management requirement can be realized, and if corresponding cost change values and performance influence values are to be realized, wherein the cost change values refer to how the cost is changed, possibly reduced or increased if the mode is implemented, and evaluating the cost change values according to a pricing system set by the enterprise; the performance influence value is based on the performance influence on the solid insulation cabinet after the mode is applied, the general influence is smaller, and if the influence is larger, the normal operation of the solid insulation cabinet is influenced, and the solid insulation cabinet cannot be realized; setting performance influence values of each influence degree in the influence range, wherein the smaller the influence is, the larger the corresponding value of the performance is, and otherwise, the larger the corresponding value of the performance is; namely, even if the influence value is 0, the use requirement is met, the influence is too large, the influence on the use is considered as unrealizable, and the elimination is carried out; i.e. the range of impact values is 0, 10.

Marking a solid insulation cabinet corresponding to each brief introduction model of the feasibility analysis as a target to be selected; acquiring the selling price, the cost change value and the performance influence value of each target to be selected, marking the acquired selling price, cost change value and performance influence value as CB1, CB2 and XM respectively, and according to a priority formula PQ=b1×exp (XM)/[ b2×ε× (Cb1+Cb2) ^1/2 ]Calculating a corresponding priority value, wherein epsilon is a cost unit conversion coefficient and is used for converting the cost unit, and particularly, the cost unit is discussed and set through an expert group; when no unit conversion is performed, it is possible toCalculating corresponding priority values PQ by using the following formula PQ=b1×XM-b2× (CB1+CB2)/100, wherein b1 and b2 are proportionality coefficients, and the value range is 0<b1≤1，0<b2 is less than or equal to 1, and is adjusted by a customer according to the self demand; and sequencing the targets to be selected according to the sequence from the high priority value to the low priority value, recommending the targets to the clients according to the sequence, selecting corresponding formulation targets by the clients according to the recommendation, and producing the corresponding solid insulation cabinets by manufacturers according to the formulation targets.

The solid insulation cabinet is produced according to the personalized requirements of the user by setting the requirement module, so that the management requirement of the user on the line connection mode is met; the circuit connection control logic solves the problem that the circuit connection control logic of the existing solid insulation cabinet cannot fully meet the requirements of users under the influence of special requirements, self use habits and the like.

The acquisition module is used for acquiring parameter data related to line connection control, and the specific method comprises the following steps:

acquiring a preset circuit connection control mode of the solid insulation cabinet, and identifying each acquisition item corresponding to the circuit connection control mode, namely, each circuit adjusts data items of parameters needing acquisition, such as related parameters of voltage, temperature and the like; the method is matched with a line connection control mode, namely, after the corresponding line connection control mode is determined, the corresponding acquisition item can be determined; and acquiring corresponding real-time parameters according to the acquired acquisition items to acquire corresponding parameter data.

The control module is used for controlling the line connection of the solid insulation cabinet and acquiring the parameter data acquired by the acquisition module in real time; identifying a preset circuit connection control mode of the solid insulation cabinet;

and carrying out line connection control on the solid insulation cabinet according to the obtained parameter data and the line connection control mode.

Through each other between demand module, collection module and the control module, realize the individualized demand of user to solid insulation cabinet line connection control for solid insulation cabinet can exert its effect better in the application background, makes things convenient for the user to use.

In one embodiment, because the prefabricated line connection management mode in the solid insulation cabinet is changed, compared with the existing solid insulation cabinet, the solid insulation cabinet is different and cannot be applied for a long time and in a large quantity like the existing solid insulation cabinet, so that the solid insulation cabinet needs to be monitored in real time in order to ensure safe and normal operation; based on the above, a monitoring module is provided, and the monitoring module is used for monitoring the solid insulation cabinet in real time, and the specific method comprises the following steps:

after various solid insulation cabinets change the line connection control mode, an expert analyzes which data need to be monitored, and the normal operation interval of the corresponding data, such as the line temperature, the equipment temperature, the continuous high temperature duration and other relevant monitoring data, so as to form a corresponding monitoring item and a monitoring permission interval;

and collecting monitoring data corresponding to each monitoring item in real time, comparing the obtained monitoring data with a corresponding monitoring permission interval, judging whether data abnormality occurs, and when judging that the data abnormality occurs, carrying out corresponding alarm prompt, otherwise, not carrying out alarm prompt.

Through setting up monitoring module, realize carrying out real-time supervision to the solid insulation cabinet after changing former circuit connection control mode, the unstable problem that probably brings after solving the former circuit connection control mode of change.

The above formulas are all formulas with dimensions removed and numerical values calculated, the formulas are formulas which are obtained by acquiring a large amount of data and performing software simulation to obtain the closest actual situation, and preset parameters and preset thresholds in the formulas are set by a person skilled in the art according to the actual situation or are obtained by simulating a large amount of data.

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 (7)

1. The circuit connection control system of the solid insulation cabinet is characterized by comprising a demand module, an acquisition module and a control module;

the demand module is used for analyzing the demands of clients, determining corresponding formulated targets and producing corresponding solid insulation cabinets according to the formulated targets;

the acquisition module is used for acquiring parameter data of the solid insulation cabinet in real time;

the control module is used for controlling the line connection of the solid insulation cabinet and acquiring the parameter data acquired by the acquisition module in real time; identifying a preset circuit connection control mode of the solid insulation cabinet;

carrying out line connection control on the solid insulation cabinet according to the obtained parameter data and the line connection control mode; the target making acquisition method comprises the following steps:

establishing a model library, wherein the model library is used for storing various types of brief introduction models;

acquiring application requirements of clients, and matching corresponding profile models from a model library based on the application requirements; displaying the matched profile models to clients, and setting corresponding line connection management demand data according to the displayed profile models by the clients;

carrying out feasibility analysis on the line connection management demand data by a preset technician to obtain corresponding targets to be selected, corresponding cost change values and performance influence values, and calculating a priority value corresponding to each target to be selected;

and sequencing the targets to be selected according to the sequence from the high priority value to the low priority value, recommending the targets to the clients according to the sequence, and selecting the corresponding formulated targets according to the recommendation by the clients.

2. The line connection control system of a solid insulation cabinet according to claim 1, wherein the method for creating the model library comprises:

obtaining various types of solid insulation cabinets of manufacturers, obtaining corresponding application ranges and circuit connection management modes of the solid insulation cabinets, and manufacturing brief introduction models of the corresponding solid insulation cabinets according to the solid insulation cabinets, the corresponding circuit connection management modes and the corresponding application ranges;

and establishing a model base according to each brief introduction model.

3. A line connection control system for a solid insulated cabinet according to claim 1, wherein the range of impact values is [0, 10].

4. The line connection control system of a solid insulated cabinet according to claim 1, wherein the calculating method of the priority value comprises:

acquiring the selling price, the cost change value and the performance influence value of each target to be selected, marking the acquired selling price, cost change value and performance influence value as CB1, CB2 and XM respectively, and according to a priority formula PQ=b1×exp (XM)/[ b2×ε× (Cb1+Cb2) ^1/2 ]Calculating a corresponding priority value PQ, wherein ε is a cost unit conversion factor and the range of values is (0,0.1)]The method comprises the steps of carrying out a first treatment on the surface of the b1 and b2 are both proportional coefficients, and the value range is 0<b1≤1，0<b2≤1。

5. The line connection control system of a solid insulated cabinet according to claim 1, wherein the working method of the acquisition module comprises:

acquiring a preset circuit connection control mode of the solid insulation cabinet, identifying each acquisition item corresponding to the circuit connection control mode, and acquiring real-time parameters according to the acquired acquisition items to obtain corresponding parameter data.

6. The line connection control system of a solid insulation cabinet according to claim 1, further comprising a monitoring module, wherein the monitoring module is configured to monitor the solid insulation cabinet in real time, and obtain a corresponding monitoring result.

7. The line connection control system of a solid insulated cabinet of claim 6, wherein the method of operation of the monitoring module comprises:

setting corresponding monitoring items and monitoring allowable intervals according to the changed line connection control mode of the solid insulation cabinet;

and collecting monitoring data corresponding to each monitoring item in real time, comparing the obtained monitoring data with a corresponding monitoring permission interval, judging whether data abnormality occurs, and when judging that the data abnormality occurs, carrying out corresponding alarm prompt, otherwise, not carrying out alarm prompt.