CN114330007A - Energy management visual display system and method - Google Patents

Abstract

The invention discloses a visual display system and a visual display method for energy management, wherein the visual display system comprises the following steps: the system model library module comprises a three-dimensional power supply equipment model and a three-dimensional power utilization equipment model; a data acquisition and transmission module; an adjustment unit; and the visualization system display module is used for displaying the system model base module and enabling the system model base module to be transformed in a preset mode according to the power utilization data acquired by the data acquisition and transmission module. The display system displays the power supply equipment and the power utilization equipment in a three-dimensional model mode, so that a user can know the power utilization operation structure of the system more visually and clearly, after the system enters the flexible power utilization mode, the power supply equipment model and the power utilization equipment model are changed in a preset mode, the user can know the difference between the system before the flexible power utilization mode is started and after the flexible power utilization mode is started through a comparison method, the system operation condition is displayed more visually, and the user experience is better.

Description

Energy management visual display system and method

Technical Field

The invention relates to the technical field of energy management, in particular to a visual display system and method for energy management.

Background

The light storage straight and flexible (PEDF) is a short name for applying four technologies of solar Photovoltaic (Photovoltaic), Energy storage (Energy storage), Direct current distribution (Direct current) and flexible interaction (flexible) in the field of buildings. "light" is solar photovoltaic technology. Solar photovoltaic power generation is one of main renewable power sources in the future, and the external surface of a building with huge volume is a space resource for developing distributed photovoltaic; storage is an energy storage technology. In future power systems, energy storage is an indispensable component; "direct" is a direct current technique. Compared with alternating current, direct current has the characteristics of simple form, easy control, high transmission efficiency, small energy loss and the like; "Soft" is a flexible electro technique. Flexibility refers to the ability of the consumer to adjust its power based on the power supply.

The light storage is directly flexible, is not known by the public as a novel and effective method for realizing the aim of carbon neutralization of buildings, is not beneficial to popularization of the method, and further influences the realization of the aim of carbon neutralization of buildings. Specifically, the introduction of the current energy management system to "light and storage is straight and soft" is based on abstract text description, and the words are professionally obscure, so that it is difficult for non-professional people to understand the meaning and advantages of the "light and storage is straight and soft" system, thereby hindering the acceptance and acceptance of the ordinary people to "light and storage is straight and soft".

In addition, the interface of the existing energy management system is mostly a two-dimensional picture, and is mostly static, the presentation form is relatively single abstract, and not only non-professionals are difficult to understand the system operation status, but also professional operation and maintenance personnel are not visual and vivid enough.

Disclosure of Invention

The invention mainly aims to provide an energy management visual display system and method, and aims to solve the technical problems that an existing energy management system interface is single and abstract in expression and not visual and vivid enough.

In order to achieve the above object, the present invention provides a visual display system for energy management, comprising:

the system model library module comprises a three-dimensional power supply equipment model and a three-dimensional power utilization equipment model;

the data acquisition and transmission module is used for acquiring power consumption data of the power supply equipment and the power consumption equipment;

the adjusting unit is used for outputting a flexible control instruction to the power grid power distribution cabinet and the load, and the power grid power distribution cabinet and the load execute corresponding operations;

and the visualization system display module is used for displaying the system model base module and enabling the system model base module to be transformed in a preset mode according to the power utilization data acquired by the data acquisition and transmission module.

As a further improvement of the invention: the preset modes comprise zooming and rotating.

As a further improvement of the invention: the system model library module further comprises an energy flow line model which is connected with the power supply equipment model and the electric equipment model.

As a further improvement of the invention: the data acquisition and transmission module comprises a data acquisition module, a data processing module and a data transmission module, the data acquisition module is used for acquiring power consumption data of the power supply equipment and the power consumption equipment, the data processing module is used for converting the power consumption data into display data, and the data transmission module is used for transmitting the display data to the visualization system display module.

As a further improvement of the invention: the visualization system display module comprises an index display area, a system power display area and a system three-dimensional model display area, wherein the index display area is used for displaying the carbon neutralization contribution index of the system, the system power display area is used for displaying the system power, and the system three-dimensional model display area is used for displaying the power utilization running state of the system through the system model base module.

As a further improvement of the invention: the system power display area comprises a system power curve graph which is used for displaying a power utilization comparison state of the system before entering the flexible power utilization mode and after entering the flexible power utilization mode.

As a further improvement of the invention: and the visualization system display module is used for displaying based on a web browser.

The invention also provides a visual display method for energy management, which comprises the following steps:

establishing a three-dimensional power supply equipment model, an electric equipment model and an energy streamline model for connecting the power supply equipment model and the electric equipment model;

acquiring power consumption data of the power supply equipment and the electric equipment acquired by the data acquisition and transmission module;

judging whether a flexible power utilization mode is started or not according to the power utilization data;

and if the flexible power utilization mode is started, the power supply equipment model, the power utilization equipment model and the energy streamline model are converted in a preset mode.

As a further improvement of the invention: the preset modes comprise zooming and rotating.

As a further improvement of the invention: if the flexible adjustment of the power grid is started, after the step of converting the power supply equipment model, the electric equipment model and the energy flow line model in a preset mode if the flexible power utilization mode is started, the method further comprises the following steps of:

and generating a system power curve graph according to the system electric power.

This technical scheme provides a visual display system of energy management, mode show power supply unit and consumer through three-dimensional model, make the user know the system power consumption operation structure more directly perceivedly clearly, and after the system got into flexible power consumption mode, power supply unit model, the consumer transforms with preset's mode, the method through the contrast makes the user know the system before opening flexible power consumption mode and the difference after opening flexible power consumption mode, system operation situation show more directly perceived image, user uses and experiences better.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of a visual display system for energy management according to the present application;

fig. 2 is a schematic flow chart illustrating an embodiment of a visual display method for energy management according to the present application;

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture, and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, if the meaning of "and/or" and/or "appears throughout, the meaning includes three parallel schemes, for example," A and/or B "includes scheme A, or scheme B, or a scheme satisfying both schemes A and B. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The light storage is directly flexible, is not known by the public as a novel and effective method for realizing the aim of carbon neutralization of buildings, is not beneficial to popularization of the method, and further influences the realization of the aim of carbon neutralization of buildings. Specifically, the introduction of the current energy management system to "light and storage is straight and soft" is based on abstract text description, and the words are professionally obscure, so that it is difficult for non-professional people to understand the meaning and advantages of the "light and storage is straight and soft" system, thereby hindering the acceptance and acceptance of the ordinary people to "light and storage is straight and soft".

In addition, the interface of the existing energy management system is mostly a two-dimensional picture, and is mostly static, the presentation form is relatively single abstract, and not only non-professionals are difficult to understand the system operation status, but also professional operation and maintenance personnel are not visual and vivid enough.

The technical scheme mainly aims to provide a visual energy management display system and method, and aims to solve the technical problems that an existing energy management system module is single and abstract in expression and not visual and vivid enough.

Referring to fig. 1, in an embodiment of the energy management visual display system according to the present technical solution, the energy management visual display system includes:

the system model library module comprises a three-dimensional power supply equipment model and an electric equipment model;

in this embodiment, the power supply device includes a power distribution cabinet and a photovoltaic array, the electric device includes power electronic devices such as a dc autonomous electric appliance (e.g., a washing machine, an air conditioner, a hot water bottle, and a lamp), a bidirectional flexible charging pile, and an electric vehicle, and the power supply device model and the electric device model are established according to the shapes of the power electronic devices, so that a user can distinguish the power electronic devices and the uses of the power electronic devices more intuitively and clearly.

The data acquisition and transmission module is used for acquiring power consumption data of the power supply equipment and the power consumption equipment;

the data acquisition and transmission module is connected with each power supply device and each electric device, current information of the power supply devices and the electric devices is detected, then the current information is converted into display data which can be used for system identification, and the display data are transmitted to the visualization system display module.

The adjusting unit is used for outputting a flexible control instruction to the power grid power distribution cabinet and the load, and the power grid power distribution cabinet and the load execute corresponding operations;

the adjusting unit belongs to a switch with the functions of starting and stopping and adjusting the flexibility of the system, the flexible control instruction output by the adjusting unit is sent to the power grid power distribution cabinet, the power grid power distribution cabinet enables the system to enter a flexible power utilization mode, the power grid power distribution cabinet is adjusted to be direct current output, and the power grid power distribution cabinet is matched with photovoltaic power generation, so that the flexible power utilization of the system is realized.

The visualization system display module is used for displaying the system model base module and enabling the system model base module to be transformed in a preset mode according to the power utilization data acquired by the data acquisition and transmission module;

the visualization system display module is provided with a display interface and is connected with the acquisition and transmission module, and the three-dimensional model of the system model library module is correspondingly transformed on the display interface of the visualization system display module by acquiring power consumption data of the power supply equipment and the power consumption data of the power consumption equipment.

It is worth noting that in order to obtain better visual experience and facilitate quick understanding of a user, all power supply equipment models and electric equipment models are displayed in a three-dimensional mode. In this embodiment, all three-dimensional models are modeled using Cinema 4D software.

According to the energy management visual display system, the power supply equipment and the power utilization equipment are displayed in a three-dimensional model mode, so that a user can know the power utilization operation structure of the system more visually and clearly, the power supply equipment model and the power utilization equipment model are changed in a preset mode after the system enters the flexible power utilization mode, the user can know the difference between the system before the flexible power utilization mode is started and after the flexible power utilization mode is started through a comparison method, the system operation condition is displayed more visually and vividly, and the user experience is better.

Further, the system model library module further comprises an energy flow line model which is connected with the power supply equipment model and the electric equipment model. The energy flow line model is strip-shaped, the diameter of the energy flow line model can be changed according to the real-time power consumption data of the power supply equipment and the power consumption equipment of the system, when the power consumption data is larger in system current, the larger the system power consumption is represented, the thicker the diameter of the energy flow line model is, and the direction of the energy flow line model is the flowing direction of the current of each power supply equipment and the power consumption equipment. When the system is in the rigid power utilization mode, namely the flexible adjustment of the power grid is not started, the energy flow line model is displayed in red, and when the system is in the flexible power utilization mode, namely the flexible adjustment of the power grid is started, the energy flow is green.

Further, the preset mode comprises zooming and rotating. After the system enters the flexible power utilization mode, the power supply equipment model, the power utilization equipment model and the energy flow line model can perform zooming and rotating actions, so that obvious difference changes are generated on an interface, and a user is reminded of starting the flexible power utilization mode. Meanwhile, after the flexible power utilization mode is entered, the energy flow line model can change colors and become thick and thin, and the user is reminded of opening the flexible power utilization mode through obvious difference change. In addition, the power supply equipment model and the electric equipment model can change the display states of the power supply equipment model and the electric equipment model according to the real-time or the current power utilization state of the system, for example, when the power supply equipment model is at night, a moon icon appears above the photovoltaic array model, and the photovoltaic array model is gray at the moment and indicates that the photovoltaic power generation does not exist at the moment; when the photovoltaic array model is in the daytime, a sun icon appears above the photovoltaic array model, and the photovoltaic array model is white at the moment and represents that the photovoltaic is in a power generation state at the moment.

Further, the data acquisition and transmission module comprises a data acquisition module, a data processing module and a data transmission module, the data acquisition module is used for acquiring power consumption data of the power supply equipment and the power consumption equipment, the data processing module is used for converting the power consumption data into display data, and the data transmission module is used for transmitting the display data to the visualization system display module. In this embodiment, the data acquisition module employs a current sensor. The current sensor is a current device of detection equipment, and can convert a detected current signal into a detection signal meeting a certain standard requirement or output information in other required forms according to a certain rule so as to meet the requirements of information transmission, processing, storage, display, recording, control and the like. The data processing module is used for converting the detection signals of the data acquisition module into display data which can be identified by the cost system, and then the display data are sent to the visualization system display module through the data transmission module in a wired or wireless communication mode, and the visualization system display module enables all models of the system model base module to be converted in a preset mode according to the display data.

Furthermore, the visualization system display module comprises an index display area, a system power display area and a system three-dimensional model display area. The index display area is used for displaying the carbon neutralization contribution index of the system, in the embodiment, the index display area comprises a carbon neutralization contribution index visualization display area, the carbon neutralization contribution index visualization display area represents the carbon dioxide emission reduction amount of the system according to the number of the lightened green leaves, and the solar energy utilization rate of the system is represented according to the number of the lightened sun. The index display area further comprises a carbon neutralization contribution index quantitative display area, and the carbon neutralization contribution index quantitative display area displays the carbon dioxide emission reduction quantity value and the solar utilization value of the system in the current time period. The system three-dimensional model display area comprises a power supply equipment model, an electric equipment model and an energy flow line model of the system model base module, and displays the power utilization running state of the system through the three-dimensional model and the three-dimensional model transformation effect.

Further, the system power display area is used for displaying the system power consumption. The system power display area comprises a system power curve graph, the system power curve of the system power curve graph is developed by adopting WebGL library three.js, the system power curve graph comprises a dark red background area and a green background area, the dark red background area and the green background area are used for displaying the power consumption comparison state of the system before and after the power grid is flexibly adjusted, and the system power consumption and the system peak clipping and valley filling effects are quantitatively displayed through the curve. The dark red background area represents a system power curve when the light storage straight and soft technology is not adopted, the power of the system is not adjustable and is a rigid system, the actual power curve of the building is a red curve at the moment, the peak-valley difference is large, and no rule exists; the green background area shows a system power curve after the light storage straight-flexible technology is adopted, at the moment, the building system has flexible adjusting capacity, the power of the building system can be adjusted along with an expected power utilization curve, meanwhile, new energy can be fully consumed for power generation, and carbon neutralization is further achieved.

Further, the visualization system display module performs display based on a web browser.

Based on the foregoing embodiment, please refer to fig. 2, the embodiment further provides an energy management visual display method, including the following steps:

s10: establishing a three-dimensional power supply equipment model, an electric equipment model and an energy streamline model for connecting the power supply equipment model and the electric equipment model;

s20: acquiring power consumption data of the power supply equipment and the electric equipment acquired by the data acquisition and transmission module;

s30: judging whether a flexible power utilization mode is started or not according to the power utilization data;

s40: and if the flexible power utilization mode is started, the power supply equipment model, the power utilization equipment model and the energy streamline model are converted in a preset mode.

According to the visual display method for energy management, the power supply equipment and the power utilization equipment are displayed in a three-dimensional model mode, so that a user can know the power utilization operation structure of a system more visually and clearly, after the system enters a flexible power utilization mode, the power supply equipment model, the power utilization equipment model and the energy flow line model are changed in a preset mode, the user can know the difference of the system before and after the flexible power utilization mode is started more visually and vividly through a comparison method, and the user experience is better.

Further, the preset mode comprises zooming and rotating. After the system enters the flexible power utilization mode, the power supply equipment model, the power utilization equipment model and the energy flow line model can perform zooming and rotating actions, so that obvious difference changes are generated on an interface, and a user is reminded of starting the flexible power utilization mode. Meanwhile, after the flexible power utilization mode is entered, the energy flow line model can change colors and become thick and thin, and the user is reminded of opening the flexible power utilization mode through obvious difference change.

Further, if the flexible power utilization mode is started, after the step of transforming the power supply device model, the power utilization device model and the energy flow line model in a preset manner, the method further includes:

and generating a system power curve graph according to the system electric power.

In this embodiment, the data acquisition and transmission module includes a data acquisition module, a data processing module, and a data transmission module. In this embodiment, the data acquisition module employs a current sensor. The data acquisition module acquires current data of the power supply equipment and the electric equipment, the current data are converted into system power data through the data processing module, then the system power data are transmitted to the visualization system display module through the data transmission module, and the visualization system display module generates a system power curve graph according to the system power data, so that a user can know the real-time power consumption of the system conveniently.

The above description is only an alternative embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. An energy management visual display system, comprising:

the system model library module comprises a three-dimensional power supply equipment model and a three-dimensional power utilization equipment model;

the data acquisition and transmission module is used for acquiring power consumption data of the power supply equipment and the power consumption equipment;

the adjusting unit is used for outputting a flexible control instruction to the power grid power distribution cabinet and the load, and the power grid power distribution cabinet and the load execute corresponding operations;

and the visualization system display module is used for displaying the system model base module and enabling the system model base module to be transformed in a preset mode according to the power utilization data acquired by the data acquisition and transmission module.

2. The energy management visualization system of claim 1, wherein the predetermined manner comprises zooming, rotating.

3. The energy management visual presentation system of claim 1, wherein the system model library module further comprises an energy flow line model connecting the power supply equipment model and the power consumption equipment model.

4. The energy management visual display system according to claim 1, wherein the data acquisition and transmission module comprises a data acquisition module, a data processing module and a data transmission module, the data acquisition module is used for acquiring power utilization data of power supply equipment and power utilization equipment, the data processing module is used for converting the power utilization data into display data, and the data transmission module is used for transmitting the display data to the visual system display module.

5. The energy management visual display system according to claim 1, wherein the visual system display module comprises an index display area, a system power display area and a system three-dimensional model display area, the index display area is used for displaying system carbon neutralization contribution indexes, the system power display area is used for displaying system power, and the system three-dimensional model display area is used for displaying the system power utilization operation state through the system model library module.

6. The energy management visual display system according to claim 5, wherein the system power display area comprises a system power graph, and the system power graph is used for displaying a power consumption comparison state before the system enters the flexible power consumption mode and after the system enters the flexible power consumption mode.

7. The energy management visualization display system according to claim 1, wherein the visualization system display module is based on a web browser for display.

8. The energy management visual display method is characterized by comprising the following steps:

establishing a three-dimensional power supply equipment model, an electric equipment model and an energy streamline model for connecting the power supply equipment model and the electric equipment model;

acquiring power consumption data of the power supply equipment and the electric equipment acquired by the data acquisition and transmission module;

judging whether a flexible power utilization mode is started or not according to the power utilization data;

and if the flexible power utilization mode is started, the power supply equipment model, the power utilization equipment model and the energy streamline model are converted in a preset mode.

9. The energy management visualization method according to claim 8, wherein the predetermined manner comprises zooming and rotating.

10. The visual display method for energy management according to claim 8, wherein after the step of transforming the power supply equipment model, the power consumption equipment model and the energy flow line model in a preset manner if the flexible power consumption mode is started, the method further comprises:

and generating a system power curve graph according to the system electric power.

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