CN115642652A - Electric power adjusting device based on artificial intelligence - Google Patents

Abstract

The invention discloses an artificial intelligence-based power adjusting device, which comprises a power adjusting device, wherein the power adjusting device comprises a power plant generation total monitoring module, a user power consumption total monitoring module, a total power consumption monitoring module and an adjusting information acquisition module.

Description

Electric power adjusting device based on artificial intelligence

Technical Field

The invention relates to the field of power adjusting devices, in particular to a power adjusting device based on artificial intelligence.

Background

The power consumption is divided into a residential power consumption system and a commercial enterprise power consumption system by a power company, and the power dispatching system is used for properly limiting and transmitting the enterprise power consumption to residential power consumption when the residential power consumption exceeds a limit. The method is a modern monitoring, controlling and managing means formed along with the continuous development of science and technology in recent years, under the current large background of energy conservation and emission reduction, the concept of electricity conservation is well-known, but people often think that electricity conservation is simply to reduce electricity consumption, and in fact, electricity consumption is high and low, electricity consumption is unstable, and is also waste of electric energy.

Most of the existing energy-saving technologies and energy-saving devices focus on how to reduce power consumption, but do not solve the problem of electric energy waste caused by mismatching of the power consumption and the generated energy, and therefore an electric power adjusting device based on artificial intelligence is provided.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides an artificial intelligence-based power regulating device.

In order to achieve the purpose, the invention adopts the following technical scheme: an electric power regulating device based on artificial intelligence comprises an electric power regulating device, wherein the electric power regulating device comprises a power plant generation total number monitoring module, a user power consumption total number monitoring module, a total power consumption monitoring module, a regulation information acquisition module, an electric quantity regulation control module, a regulation structure sending module, a server, a fault monitoring module and a fault information collecting module, wherein the total power consumption monitoring module comprises a power plant generation total number in the current time period, a user group power consumption total number in the current time period, a circuit loss power consumption total number in the current time period, an overflow electric quantity total number in the current time period, a collection processing of the overflow electric quantity in each time period, a highest overflow electric quantity and a lowest overflow electric quantity in each time period, the regulation information acquisition module comprises an information acquisition mark point, an information overflow electric quantity or lowest overflow electric quantity in each time period, an analysis on the acquisition information, a corresponding information mark point in each time period, a current electric quantity overflow information increase information mark point, a storage processing of the overflow information in the total power generation amount, a current electric quantity amplitude reduction information of the overflow, a current overflow information release information on the overflow information, a storage processing of the overflow information on the current overflow information on the total generation amount, and a storage release information on the current overflow information on the storage of the overflow amount

As a further description of the above technical solution:

the power adjusting device is internally provided with a power plant power generation total monitoring module, a user power utilization total monitoring module, a total power consumption monitoring module, an adjusting information acquisition module, a power adjusting control module, an adjusting structure sending module, a fault monitoring module and a fault information summarizing module, and the power adjusting device needs to communicate information with a server through transmission lines or wireless transmission.

As a further description of the above technical solution:

the total power consumption monitoring module needs to acquire the total power generation amount of the power plant in the current time period, the total power consumption amount of the user group in the current time period and the total line loss power consumption amount in the current time period, wherein the total overflowing power amount in the current time period is a difference value between the total power generation amount of the power plant in the current time period, the total power consumption amount of the user group in the current time period and the total line loss power consumption amount in the current time period.

As a further description of the above technical solution:

the total amount of the overflowing electric quantity in the current time period is counted according to the time period, and the highest overflowing electric quantity and the lowest overflowing electric quantity in each time period are counted, so that the overflowing electric quantity in each time period needs to be summarized and further screened out to obtain the highest value and the lowest value.

As a further description of the above technical solution:

the adjustment information acquisition module needs to acquire the total power generation amount in each time period and acquire the highest overflow power or the lowest overflow power in each time period, and the acquired information is analyzed to analyze and process the information acquired in the adjustment information acquisition module.

As a further description of the above technical solution:

the electric quantity adjusting control module needs to acquire information mark points, the information mark points are corresponding information mark points in each time period, when the acquired information mark points are surplus in power generation, the amplitude information of the current electric quantity overflow information for improving the power consumption is determined, then the overflow electric quantity in the total power generation amount is determined, the overflow electric quantity is stored and processed when the acquired information mark points are insufficient in power generation, the amplitude information of the current electric quantity overflow information for reducing the power consumption is determined, and then the current electric quantity overflow information is determined to release the stored electric quantity.

As a further description of the above technical solution:

the method specifically comprises the following steps:

s1: and acquiring the total power generation amount of the target power plant in each time period.

S2: and acquiring the total electricity consumption of the target user group in each time period.

S3: and adjusting the electricity utilization information according to the electricity consumption of each time period and the electricity generation amount in the current time period.

S4: and adjusting the corresponding power utilization information in each time period to keep the difference value between the total power utilization amount in the corresponding time period and the total power generation amount in the corresponding time period within a certain difference range after adjustment.

The invention has the following beneficial effects:

1. the internal working state of the equipment is monitored and processed in real time through the fault monitoring module and the fault information gathering module, and then the fault information gathered by the fault information gathering module is transmitted to the server through the adjusting structure sending module, so that an operator can conveniently master the internal information of the equipment in real time, and the fault finding speed of the equipment is increased;

2. through the power generation total number monitoring module, the user power consumption total number monitoring module and the total power consumption monitoring module of the power plant, the equipment can master the power consumption state in real time, and meanwhile, the information in a required time period can be conveniently extracted by an operator, so that the convenient effect of the operator is improved;

3. the total power consumption monitoring module enables an operator to count the overflowing power in each time period, so that the power utilization pressure in each time period can be conveniently adjusted according to the overflowing power in the later period of the power adjusting device, and the adjusting effect of equipment is improved;

4. the adjustment information acquisition module is used for analyzing the total power generation amount and the highest or lowest overflowing electric quantity in each time period and generating corresponding information mark points, so that the information mark points can be quickly detected and corresponding actions can be performed when subsequent equipment works;

5. the information mark points acquired by the electric quantity adjusting control module are used for analyzing whether the current data is in a state of excessive power generation or insufficient power generation, and then the electric quantity performance is adjusted according to different states, so that the equipment can make a response quickly, and the working efficiency of the equipment is improved.

Drawings

Fig. 1 is a schematic overall flow chart of an artificial intelligence-based power conditioning apparatus according to the present invention;

FIG. 2 is a flow chart of an artificial intelligence based power conditioning device according to the present invention;

FIG. 3 is a schematic view of a system flow structure of a total power consumption monitoring module of an artificial intelligence-based power conditioning device according to the present invention;

FIG. 4 is a schematic view of a system flow structure of an artificial intelligence-based adjustment information acquisition module of the power adjustment device according to the present invention;

fig. 5 is a schematic diagram of a system flow structure of an electric quantity regulation control module of an electric power regulation device based on artificial intelligence according to the present invention.

Illustration of the drawings:

1. an electric power adjusting device; 2. a power generation total number monitoring module of a power plant; 3. a user electricity consumption total monitoring module; 4. a total power consumption monitoring module; 5. an adjustment information acquisition module; 6. an electric quantity adjusting control module; 7. an adjustment structure sending module; 8. a server; 9. a fault monitoring module; 10. a fault information summarizing module; 41. the total power generation amount of the power plant in the current time period; 42. the total electricity consumption of the user group in the current time period; 43. the total power consumption of the line loss in the current time period; 44. the total overflowing electric quantity in the current time period; 45. summarizing the overflowing electric quantity in each time period; 46. counting the highest overflow electric quantity and the lowest overflow electric quantity in each time period; 51. acquiring the total power generation amount in each time period; 52. acquiring the highest overflow electric quantity or the lowest overflow electric quantity in each time period; 53. analyzing the acquired information; 54. generating corresponding information mark points in each time period; 61. acquiring an information mark point; 62. determining the amplitude information of the current electric quantity overflow information for improving the electric quantity; 63. determining current electric quantity overflow information to store the overflow electric quantity in the total power generation quantity; 64. determining amplitude information of reducing the electricity consumption of the current electricity overflow information; 65. and determining the current electric quantity overflow information to release the stored electric quantity.

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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "coupled" are to be construed broadly and encompass, for example, both fixed and removable coupling as well as integral coupling; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

Referring to fig. 1-5, an artificial intelligence based power conditioning device comprises a power conditioning device 1, the power conditioning device 1 comprises a power plant generation total monitoring module 2, a user power consumption total monitoring module 3, a total power consumption monitoring module 4, a conditioning information acquisition module 5, a power conditioning control module 6, a conditioning structure transmission module 7, a server 8, a fault monitoring module 9, and a fault information summarizing module 10, the total power consumption monitoring module 4 comprises a power plant generation total 41 in a current time period, a user group power consumption total 42 in the current time period, a current time period internal line power consumption total 43, a current time period internal overflowing power amount total 44, summarizing and processing the overflowing power amount in each time period 45, counting the highest overflowing power amount and the lowest overflowing power amount in each time period 46, the conditioning information acquisition module 5 comprises an acquisition information total generating amount 51 in each time period, an information acquisition module 52, analyzing and analyzing the acquisition information 53, generating corresponding information marking points 54 in each time period, the power conditioning control module 6 comprises an acquisition information marking point 61, determining information of current power consumption information to increase the overflowing power consumption information 62, determining the overflowing power consumption information in each time period, determining the overflowing power consumption amount, determining the overflowing power consumption total information to determine the overflowing power consumption amount, determining the overflowing information to determine the overflowing information in each time period, and releasing the current time period 64.

Specifically, the method comprises the following steps: the power regulating device 1 is internally provided with a power plant generation total monitoring module 2, a user power consumption total monitoring module 3, a total power consumption monitoring module 4, a regulating information acquisition module 5, a power regulating control module 6, a regulating structure sending module 7, a fault monitoring module 9 and a fault information summarizing module 10, the power regulating device 1 needs to communicate information with a server 8 through transmission lines or wireless transmission, and monitoring and regulating capabilities of equipment are enhanced through various modules arranged inside the power regulating device 1.

Specifically, the method comprises the following steps: the total power consumption monitoring module 4 needs to obtain the total power generation amount 41 of the power plant in the current time period, the total power consumption amount 42 of the user group in the current time period, and the total circuit loss power consumption amount 43 in the current time period, and the total overflowing power amount 44 in the current time period is a difference value between the total power generation amount 41 of the power plant in the current time period, the total power consumption amount 42 of the user group in the current time period, and the total circuit loss power consumption amount 43 in the current time period, so that connection information between the power consumption amount and the power generation amount in each time period can be conveniently and visually displayed through the difference value.

Specifically, the method comprises the following steps: the total overflowing electric quantity 44 in the current time period is subjected to statistical processing 45 according to the time period, the highest overflowing electric quantity and the lowest overflowing electric quantity 46 in each time period are subjected to statistical processing 45, the overflowing electric quantity in each time period needs to be further screened out to obtain the highest value and the lowest value, and the highest value and the lowest value enable the device to be rapidly analyzed with current data information during working so as to rapidly obtain the current electric quantity state.

Specifically, the method comprises the following steps: the adjustment information obtaining module 5 needs to obtain the total power generation amount 51 in each time period and obtain the highest overflow power amount or the lowest overflow power amount 52 in each time period, and analyzes 53 the obtained information to analyze the information obtained in the adjustment information obtaining module 5.

Specifically, the method comprises the following steps: the electric quantity adjusting control module 6 needs to obtain an information mark point 61, the information mark point 61 is used for generating corresponding information mark points 54 in each time period, when the information mark point 61 is used for generating excessive power, the amplitude information 62 for improving the power consumption by the current electric quantity overflow information is determined, then the overflow electric quantity in the total power generation quantity by the current electric quantity overflow information is stored 63, when the information mark point 61 is used for generating insufficient power, the amplitude information 64 for reducing the power consumption by the current electric quantity overflow information is determined, and then the current electric quantity overflow information is determined to release the stored electric quantity 65.

The method specifically comprises the following steps:

s1: and acquiring the total power generation amount of the target power plant in each time period.

S2: and acquiring the total electricity consumption of the target user group in each time period.

S3: and adjusting the electricity utilization information according to the electricity utilization amount of each time period and the electricity generation amount in the current time period.

S4: and adjusting the corresponding power utilization information in each time period to keep the difference value between the total power utilization amount in the corresponding time period and the total power generation amount in the corresponding time period within a certain difference range after adjustment.

The working principle is as follows: the method comprises the steps of firstly monitoring and processing the internal working state of equipment in real time through a fault monitoring module 9 and a fault information summarizing module 10, then transmitting fault information summarized by the fault information summarizing module 10 to a server 8 by utilizing an adjusting structure sending module 7, facilitating an operator to master the internal information of the equipment in real time, improving the fault finding speed of the equipment, enabling the equipment to master the power consumption state in real time through a power plant total generation amount monitoring module 2, a user total power consumption amount monitoring module 3 and a total power consumption amount monitoring module 4, facilitating the operator to extract information in required time periods, improving the convenient and fast effect of the operator, enabling the operator to count the electric quantity overflowing in each time period through the total power consumption amount monitoring module 4, facilitating the later-stage regulation processing of the power regulating device 1 according to the electric quantity of overflowing, improving the regulation effect of the equipment, analyzing the total power generation amount and the highest or lowest overflowing electric quantity in each time period by utilizing a regulating information obtaining module 5, generating amount marking points corresponding to enable subsequent equipment to be capable of fast detecting the information marking points and making corresponding actions when the subsequent equipment works, further making the obtained through a regulating action control module 6, and further making the analysis on the electric quantity of the current generating data of the surplus power generation amount and making the corresponding information to be different.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. An artificial intelligence-based power conditioning device, comprising a power conditioning device (1), characterized in that: the electric power adjusting device (1) comprises a power generation total number monitoring module (2) of a power plant, a user power consumption total number monitoring module (3), a total power consumption monitoring module (4), an adjusting information acquisition module (5), an electric quantity adjusting control module (6), an adjusting structure sending module (7), a server (8), a fault monitoring module (9) and a fault information summarizing module (10), the total power consumption monitoring module (4) comprises a power generation total number (41) of the power plant in the current time period, a user group power consumption total number (42) in the current time period, a circuit power consumption total number (43) in the current time period, an overflowing electric quantity total number (44) in the current time period, summarizing (45) overflowing electric quantities in each time period, counting the highest overflowing electric quantity and the lowest overflowing electric quantity (46) in each time period, the adjusting information acquisition module (5) comprises a power generation total number (51) in each time period, the highest overflowing electric quantity or the lowest overflowing electric quantity (52) in each time period, analyzing (53) acquired information, generating mark points (54) corresponding to each time period are generated, the electric quantity adjusting control module (6) comprises an electric quantity acquisition information mark point (61), an electric quantity determining an electric quantity information storage mark (63), and an electric quantity storage mark information processing method for determining the current electric quantity in the current electric quantity (63), determining the current electric quantity overflowing information to reduce the amplitude information (64) of the electric quantity used, and determining the current electric quantity overflowing information to release the stored electric quantity (65).

2. The artificial intelligence based power conditioning device of claim 1, wherein: the power supply system is characterized in that a power plant generation total number monitoring module (2), a user power consumption total number monitoring module (3), a total power consumption monitoring module (4), an adjustment information acquisition module (5), a power adjustment control module (6), an adjustment structure sending module (7), a fault monitoring module (9) and a fault information gathering module (10) are arranged in the power adjusting device (1), and the power adjusting device (1) needs to be in information intercommunication with a server (8) through transmission lines or wireless transmission.

3. The artificial intelligence based power conditioning device of claim 1, wherein: the total power consumption monitoring module (4) needs to acquire the total power generation number (41) of the power plant in the current time period, the total power consumption number (42) of the user group in the current time period and the total power consumption number (43) of the circuit loss in the current time period, and the total overflowing power amount (44) in the current time period is the difference value between the total power generation number (41) of the power plant in the current time period and the total power consumption number (42) of the user group in the current time period and the total power consumption number (43) of the circuit loss in the current time period.

4. The artificial intelligence based power conditioning arrangement of claim 1, wherein: the method comprises the steps that the overflowing electric quantity in each time period is summarized and processed (45), the total overflowing electric quantity (44) in the current time period is counted and processed according to the time period, the highest overflowing electric quantity and the lowest overflowing electric quantity (46) in each time period are counted, and the overflowing electric quantity in each time period needs to be summarized and processed (45) to further screen out the highest value and the lowest value.

5. The artificial intelligence based power conditioning arrangement of claim 1, wherein: the adjusting information obtaining module (5) needs to obtain the total power generation amount (51) in each time period and obtain the highest overflow power or the lowest overflow power (52) in each time period, and the obtained information is analyzed (53) to analyze and process the information obtained in the adjusting information obtaining module (5).

6. The artificial intelligence based power conditioning device of claim 1, wherein: the electric quantity regulation control module (6) needs to acquire information marking points (61), acquire information marking points (61) for generating information marking points (54) corresponding in each time period, when acquiring the information marking points (61) and being surplus for power generation, determine that the current electric quantity overflows amplitude information (62) that the information improves the power consumption and then to confirm that the current electric quantity overflows the information and carry out storage processing (63) to the overflow electric quantity in the total amount of power generation, when acquiring the information marking points (61) and being insufficient for power generation, determine that the current electric quantity overflows amplitude information (64) that the information reduces the power consumption and then confirm that the current electric quantity overflows the information and releases (65) the storage electric quantity.

7. The operating method of the artificial intelligence based power conditioning device according to any one of claims 1-5, comprising the steps of:

s1: and acquiring the total power generation amount of the target power plant in each time period.

S2: and acquiring the total electricity consumption of the target user group in each time period.

S3: and adjusting the electricity utilization information according to the electricity consumption of each time period and the electricity generation amount in the current time period.

S4: and adjusting the corresponding power utilization information in each time period to keep the difference value between the total power utilization amount in the corresponding time period and the total power generation amount in the corresponding time period within a certain difference range after adjustment.

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