CN110135768B - Enterprise power utilization management method and power utilization management system for regional power-on management - Google Patents

Enterprise power utilization management method and power utilization management system for regional power-on management Download PDF

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CN110135768B
CN110135768B CN201910531623.4A CN201910531623A CN110135768B CN 110135768 B CN110135768 B CN 110135768B CN 201910531623 A CN201910531623 A CN 201910531623A CN 110135768 B CN110135768 B CN 110135768B
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朱小平
钟进
贺更新
易显
黄磊
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Huaxiang Xiangneng Technology Co Ltd
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Abstract

The invention discloses an enterprise power utilization management method and a power utilization management system for regional power-on management, wherein the power utilization management system comprises an Internet of things platform, a regional controller and a sub-regional controller; the enterprise power utilization management method comprises the following steps: detecting whether a worker arrives at a post; if so, acquiring a related work area and a related work sub-area of the employee; judging whether other associated employees arrive in the associated work area through the Internet of things platform, and judging whether other employees arrive in the associated work area; and when no other associated staff arrives in the associated working area and no other staff arrives in the associated sub-working area, controlling the area controller corresponding to the associated working area to be in the power-on state and controlling the sub-area controller corresponding to the associated working sub-area to be in the power-on state. The technical scheme provided by the invention aims to solve the problems that the power-on management mode depends on manual realization and the intelligent degree is low in the power utilization management process of the existing enterprise.

Description

Enterprise power utilization management method and power utilization management system for regional power-on management
Technical Field
The invention relates to the technical field of enterprise power utilization management, in particular to an enterprise power utilization management method for regional power-on management and a power utilization management system applying the enterprise power utilization management method.
Background
In the power consumption management process of an enterprise, a power supply needs to be turned on or off manually. In order to save energy, the office area of the staff is usually powered off after the work of the day is finished. When the power supply is cut off, the staff entering the office to work needs to start the switch by themselves to be electrified. Therefore, the power-on management mode in the existing enterprise power utilization management process depends on manual realization, and the intelligent degree is low.
Disclosure of Invention
The invention mainly aims to provide an enterprise power utilization management method for regional power utilization management, and aims to solve the problems that in the existing enterprise power utilization management process, a power utilization management mode depends on manual implementation and the intelligent degree is low.
In order to achieve the purpose, the enterprise power utilization management method for the regional power-on management is applied to a power utilization management system, and the power utilization management system comprises an internet of things platform, a plurality of regional controllers and a plurality of sub-regional controllers, wherein the regional controllers and the sub-regional controllers are respectively in signal connection with the internet of things platform; each zone controller is used for controlling the power on and off of one working zone, and each sub-zone controller is used for controlling the power on and off of one working sub-zone in one working zone; the enterprise electricity utilization management method for regional power-on management comprises the following steps:
detecting whether a worker arrives at a post;
when the fact that the employee arrives at the post is detected, acquiring a related work area and a related work sub-area of the employee on the Internet of things platform;
judging whether other associated staff arrive in the associated work area or not through the Internet of things platform, and judging whether other staff arrive in the associated work area or not;
when no other related staff arrives in the related working area and no other staff arrives in the related sub-working area, controlling the area controller corresponding to the related working area to be in a power-on state so as to power on the related working area, and controlling the sub-area controller corresponding to the related working sub-area to be in a power-on state so as to power on the related working sub-area.
Preferably, the power consumption management system further includes an attendance system in signal connection with the internet of things platform, and the step of detecting whether the employee arrives at the post includes:
detecting attendance information in the attendance system;
and determining whether the staff arrives at the post according to the attendance information.
Preferably, the attendance system is an access control system, and the attendance information is card punching information.
Preferably, after the step of determining whether other associated employees have arrived in the associated work area and determining whether other employees have arrived in the associated work sub-area through the internet of things platform, the method further includes:
and when other associated staff arrive in the associated work area and no other associated staff arrive in the associated work sub-area, controlling the sub-area controller corresponding to the associated work sub-area to be in an electrified state so as to electrify the associated work sub-area.
Preferably, after the step of determining whether other associated employees have arrived in the associated work area and determining whether other employees have arrived in the associated work sub-area through the internet of things platform, the method further includes:
and when other associated employees arrive in the associated work area and other associated employees arrive in the associated work area, returning a prompt of successful power-on to the platform of the Internet of things.
Preferably, after the step of determining whether other associated employees have arrived in the associated work area and determining whether other employees have arrived in the associated work sub-area through the internet of things platform, the method further includes:
and when no other associated staff arrives in the associated work area and other associated staff arrives in the associated work area, returning a prompt of information error to the Internet of things platform.
Preferably, each of the zone controllers is used for controlling the power on and off of each working floor, and each of the zone controllers is used for controlling the power on and off of each working room.
Preferably, the enterprise power utilization management method for regional power-on management further includes:
acquiring the number of the staff arriving at the post in each working area;
controlling the working area, in which the number of the staff arriving at the post does not exceed a first set value, to enter a first power utilization mode through the Internet of things platform;
controlling the working area, in which the number of the staff arriving at the post exceeds the first set value and does not exceed the second set value, to enter a second electricity utilization mode through the Internet of things platform;
and controlling the working area with the number of the staff arriving at the post exceeding a second set value to enter a third power utilization mode through the Internet of things platform.
Preferably, each power utilization mode is related to the number of light switches on in a working area, the power on/off state of an air conditioner and the power on/off state of a public power utilization module.
In order to achieve the above object, the present invention further provides an electricity management system, which includes an internet of things platform, a plurality of regional controllers and a plurality of sub-regional controllers, wherein the regional controllers and the sub-regional controllers are respectively in signal connection with the internet of things platform; each zone controller is used for controlling the power on and off of one working zone, and each sub-zone controller is used for controlling the power on and off of one working sub-zone in one working zone; the power utilization management system applies the enterprise power utilization management method of the regional power-on management.
According to the technical scheme, each employee correspondingly has an associated work sub-region and an associated work region, wherein the number of the work regions is multiple, each work region comprises a plurality of work sub-regions, the power on and off of each work region is controlled by a corresponding region controller, the power on and off of each work sub-region in each work region is controlled by a corresponding sub-region controller, and the platform of the internet of things controls each region controller and controls each sub-region controller. The enterprise power utilization management method for the regional power-on management detects whether employees arrive at the post or not; when the fact that the employee arrives at the post is detected, acquiring a related work sub-area and a related work area of the employee; judging whether other associated staff arrive in the associated work area or not, and judging whether other staff arrive in the associated sub-work area or not; when no other related staff arrives in the related working area and no other staff arrives in the related sub-working area, the area controller corresponding to the related working area is controlled to be in a power-on state so as to power on the related working area, and the sub-area controller corresponding to the related working area is controlled to be in a power-on state so as to power on the related working area, so that manual power on is not needed, and the problems that a power on management mode in the existing enterprise power utilization management process depends on manual implementation and the intelligent degree is low are solved. Furthermore, each working area is respectively subjected to power-on control, and working sub-areas are respectively subjected to power-on control in each working area, so that when no relevant employee in a certain working area arrives at post, the working area is not powered on, and when no relevant employee in a certain working sub-area arrives at post, the working sub-area is not powered on, thereby being beneficial to realizing energy-saving management in the aspect of power utilization.
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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 diagram of the connection of modules in the power management system according to the present invention;
FIG. 2 is a flowchart of a first embodiment of a method for managing power consumption of an enterprise with regional power-on management according to the present invention;
fig. 3 is a flowchart of a method for managing power consumption of an enterprise by regional power management according to a second embodiment of the present invention.
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 all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.
In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes and are 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 the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.
In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
In addition, the technical solutions in the embodiments of the present invention may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination of technical solutions should not be considered to exist, and is not within the protection scope of the present invention.
The invention provides an enterprise electricity utilization management method based on regional power-on management.
Referring to fig. 1 and fig. 2, in order to achieve the above object, the enterprise power management method for regional power-on management provided by the present invention is applied to a power management system, where the power management system includes an internet of things platform, a plurality of regional controllers and a plurality of sub-regional controllers, which are respectively in signal connection with the internet of things platform; each zone controller is used for controlling the power on and off of one working zone, and each sub-zone controller is used for controlling the power on and off of one working sub-zone in one working zone; the enterprise electricity utilization management method for regional power-on management comprises the following steps:
step S10, detecting whether there is employee on duty;
step S20, when the employee arrives at the post, acquiring the associated work area and the associated work sub-area of the employee on the platform of the Internet of things;
step S30, judging whether other related employees arrive in the related work area through the Internet of things platform, and judging whether other employees arrive in the related work sub-area;
step S40, when no other related employee arrives in the related work area and no other employee arrives in the related sub-work area, controlling the area controller corresponding to the related work area to be in an energized state to energize the related work area, and controlling the sub-area controller corresponding to the related work sub-area to be in an energized state to energize the related work sub-area.
According to the technical scheme, each employee correspondingly has an associated work sub-region and an associated work region, wherein the number of the work regions is multiple, each work region comprises a plurality of work sub-regions, the power on and off of each work region is controlled by a corresponding region controller, the power on and off of each work sub-region in each work region is controlled by a corresponding sub-region controller, and the platform of the internet of things controls each region controller and controls each sub-region controller. The enterprise power utilization management method for the regional power-on management detects whether employees arrive at the post or not; when the fact that the employee arrives at the post is detected, acquiring a related work sub-area and a related work area of the employee; judging whether other associated staff arrive in the associated work area or not, and judging whether other staff arrive in the associated sub-work area or not; when no other related staff arrives in the related working area and no other staff arrives in the related sub-working area, the area controller corresponding to the related working area is controlled to be in a power-on state so as to power on the related working area, and the sub-area controller corresponding to the related working area is controlled to be in a power-on state so as to power on the related working area, so that manual power on is not needed, and the problems that a power on management mode in the existing enterprise power utilization management process depends on manual implementation and the intelligent degree is low are solved. Furthermore, each working area is respectively subjected to power-on control, and working sub-areas are respectively subjected to power-on control in each working area, so that when no relevant employee in a certain working area arrives at post, the working area is not powered on, and when no relevant employee in a certain working sub-area arrives at post, the working sub-area is not powered on, thereby being beneficial to realizing energy-saving management in the aspect of power utilization.
Referring to fig. 1, in this embodiment, the power consumption management system may include a plurality of area controllers and a plurality of sub-area controllers, each area controller and each sub-area controller are respectively in signal connection with the platform of the internet of things, for example, the power consumption management system includes an area controller a and an area controller B, where the sub-area controller a1, the sub-area controller a2, and the sub-area controller A3 are sequentially used to control the power on/off of the work sub-area a1, the work sub-area a2, and the work sub-area A3 in the work area a, and the sub-area controller B1 and the sub-area controller B2 are sequentially used to control the power on/off of the work sub-area B1 and the work sub-area B2 in the work area B.
And establishing a mapping relation table aiming at the association relation among the staff, the work area and the work sub-area, wherein the mapping relation table comprises the mapping relation between each work sub-area and the staff, and the mapping relation table comprises the mapping relation between each work area and the staff. When employee X works in work sub-area b1 in work area b, employee X has a mapping relationship with work area b, and employee X has a mapping relationship with work sub-area b 1.
In the invention, after the employee arriving at the post is detected, the information of the employee arriving at the post is sent to the Internet of things platform, and the steps S30 and S40 are executed through the Internet of things platform. There are various methods for detecting whether there is an employee who arrives at the post in step S10. For example, whether a worker arrives at a post or not is detected by the worker, and when the worker arrives at the post, the worker sends information of the worker arriving at the post to the power utilization management system; if the work attendance is not finished, the work attendance system sends a work attendance signal to the power utilization management system; the signal that the employee triggered to the post at the terminal of the employee can also be a signal that the employee sent to the post to the power management system through the mobile phone of the employee when the employee approached the work area, for example.
Furthermore, a position signal receiving module is arranged in the working area, the staff holds a position signal sending module, and when the position signal receiving module detects the position signal sent by the position signal sending module, the staff is detected to arrive at the post.
The position signal receiving module can be a Bluetooth signal receiving module, and the position signal sending module of the employee can be a Bluetooth module carried by the mobile terminal of the employee. When the Bluetooth module is used for the first time, the Bluetooth signal receiving module and the Bluetooth module in the employee mobile terminal need to be paired.
The position signal receiving module can be a Wi-Fi signal receiving module, and the position signal sending module of the employee can be a Wi-Fi module carried in the mobile terminal of the employee.
After a certain work subarea is powered on, the staff related to the work subarea can start each power utilization module in the work subarea as required, for example, after the power is powered on, the staff can start an air conditioner or a computer in the work subarea as required.
The arrival at the work position in the invention refers to arrival at the work position, for example, arrival at a work sub-area, and the arrival at the work position includes the first arrival at the work position after a new attendance time period starts, and also includes reacquisition after a short time leaves in the same attendance time period.
Judging whether the employee enters the associated working area first within the current attendance time period or not according to the attendance information; and when the employee is the first employee man-hour entering the associated work area within the current attendance checking period, electrifying the area controller corresponding to the associated work area so as to electrify the associated work area.
Furthermore, in each attendance checking period, after each time that the employee arrives at the post, acquiring a related work area and a related work sub-area of the post employee, performing a first accumulation operation on the number of the on-duty employees in the related work area, and performing a second accumulation operation on the number of the on-duty employees in the related work sub-area; meanwhile, after each time that the staff leaves the post is detected, acquiring a related work area and a related work sub-area of the staff leaving the post, performing first decrement operation on the number of the staff on the post in the related work area, and performing second decrement operation on the number of the staff on the post in the related work sub-area, thereby determining the number of the staff on the post in each work area according to the first accumulation operation and the first decrement operation, determining the number of the staff on the post in each work sub-area according to the second accumulation operation and the second decrement operation, performing power-off operation on the work area with the number of the staff on the post being zero, and performing power-off operation on the work sub-area with the number of the staff on the post being zero.
Referring to fig. 3, based on the first embodiment of the enterprise power consumption management method of the partition power management of the present invention and the second embodiment of the enterprise power consumption management method of the partition power management of the present invention, the power consumption management system is in signal connection with an enterprise attendance system, and the step S10 includes:
step S11, detecting attendance information in the attendance system;
and step S12, determining whether the staff arrives at the post according to the attendance information.
And detecting whether the employee arrives at the duty or not according to the attendance information of each attendance period (for example, every day).
And detecting whether the staff arrives at the post or not, and realizing the step through an attendance system. For example, it is determined that the employee arrives at the sentry by detecting that the employee performs attendance operation on the attendance system.
Furthermore, the attendance system is an access control system, and the attendance information is card punching information. FIG. 1 provides an embodiment of an access control system coupled to a power management system.
The access control system may be in various forms, and is not limited herein. When detecting that a certain employee goes to the post through the access control system, determining that the employee goes to the post. The attendance information of the staff is acquired through the traffic record information of the staff in the access control system, and whether the staff arrives at the post or not can be determined through the traffic record information, so that the situation that a redundant power utilization management device or an attendance device is arranged can be avoided.
Based on the second embodiment of the enterprise power management method by sub-area power management of the present invention, and the third embodiment of the enterprise power management method by sub-area power management of the present invention, after step S30, the method includes:
step S50, when other associated employees have arrived in the associated work area and no other associated employees have arrived in the associated work sub-area, controlling the sub-area controller corresponding to the associated work sub-area to be in a power-on state so as to enable the associated work sub-area to be powered on.
The embodiment corresponds to the situation that other employees arrive in the associated work area of the current employee on duty and the associated work sub-area does not arrive at other associated employees, so that the associated work area is electrified, but the associated work sub-area is not electrified, and only the sub-area controller corresponding to the associated work sub-area needs to be controlled to be in an electrified state to electrify the associated work sub-area.
Judging whether the employee enters the associated work sub-area first in the current attendance time period or not according to the attendance information; and when the employee is the first employee man-hour entering the associated work sub-region in the current attendance checking period, electrifying the sub-region controller corresponding to the associated work sub-region so as to electrify the associated work sub-region.
The card punching record of the access control system is combined into the enterprise power utilization management method, the work place of the staff is not required to be powered by a mode of manually starting a power supply, whether the first associated staff enters each work area or each work sub-area is determined directly according to the card punching information in each attendance checking period, if yes, the work area is electrified, and the power supply management is more intelligent; and when no relevant staff enters a certain working area, power is not supplied, and the energy-saving effect is better.
Based on the first to third embodiments of the enterprise power management method by sub-regional power management of the present invention, in a fourth embodiment of the enterprise power management method by sub-regional power management of the present invention, after step S30, the method further includes:
and step S60, when other associated employees arrive in the associated work area and other associated employees arrive in the associated work area, returning a prompt of successful power-on to the platform of the Internet of things.
When other associated staff arrive in the associated work area and other associated staff arrive in the associated work sub-area, power supply for the associated work area or the associated work sub-area is not needed, and at the moment, a prompt that the power is successfully supplied is returned to the platform of the internet of things.
Based on the first to fourth embodiments of the enterprise power management method by sub-regional power management of the present invention, in a fifth embodiment of the enterprise power management method by sub-regional power management of the present invention, after step S30, the method further includes:
and step S70, when no other associated staff arrives in the associated work area and no other associated staff arrives in the associated work area, returning a prompt of information error to the Internet of things platform.
Further, when no other associated staff arrives in the associated work area and other associated staff arrives in the associated work area, it is indicated that the information of the system is wrong, and in order to not affect the electrification of the associated work area, after a prompt of information error is returned to the platform of the internet of things, the post arrival information (such as the number of the staff arriving at the post) of the associated staff in the associated work area is corrected.
Preferably, each of the zone controllers is used for controlling the power on and off of each working floor, and each of the zone controllers is used for controlling the power on and off of each working room. That is, the zone controller is a floor controller, and the sub-zone controller is a room controller. Furthermore, the subregion controller is used for controlling the power on and off of each power utilization module in the work subregion, for example, the power utilization module can be a switch, an air conditioner, a socket or a high-power utilization device. Of course, the zone controller is not limited to the floor controller, and the sub-zone controller is not limited to the room controller. For example, an office hall may be divided into a plurality of work areas according to a set method, and each work area is divided into a plurality of work sub-areas.
Based on the first to fifth embodiments of the enterprise power utilization management method by sub-regional power management of the present invention, in a sixth embodiment of the enterprise power utilization management method by sub-regional power management of the present invention, the enterprise power utilization management method by sub-regional power management further includes:
step S80, acquiring the number of staff arriving at the post in each working area;
step S90, controlling the working area with the number of the staff arriving at the post not exceeding a first set value to enter a first power utilization mode through the Internet of things platform;
step S100, controlling the working area, in which the number of the staff arriving at the post exceeds the first set value and does not exceed the second set value, to enter a second electricity utilization mode through the Internet of things platform;
and S110, controlling the working area with the number of the staff arriving at the post exceeding a second set value to enter a third power utilization mode through the Internet of things platform.
In this embodiment, the first set value is smaller than the second set value, and both the first set value and the second set value are positive numbers. In this embodiment, the corresponding power utilization mode can be entered according to the number of the staff who arrive at the post in each working area, so as to avoid waste of power utilization. Each of the power utilization modes may further be related to the number of light-on states of the working area, the power-on and power-off states of the air conditioner and the power-on and power-off states of the public power utilization module.
In the first power utilization mode, the number of workers arriving at the post is small, and the work area belongs to the public area of each work subarea, so that the power utilization of the public area can be controlled to enter an energy-saving state. As another example, air conditioners in a public area may be maintained in a powered down state, and a public utility module (e.g., a public electronic display screen) may be maintained in a powered down state.
Under the first electricity utilization mode, the number of staff arriving at the post is small, and the work area belongs to the public area of each work sub-area, so that the electricity utilization of the public area can be controlled to enter an energy-saving state, and the electricity consumption is reduced to the minimum standard. For example, in the first power utilization mode, the light near the work subarea with the staff arriving at the post of each work area is turned on, and the light near the work subarea without the staff arriving at the post is kept turned off. As another example, air conditioners in a public area may be maintained in a powered down state, and a public utility module (e.g., a public electronic display screen) may be maintained in a powered down state.
Under the second electricity utilization mode, the number of workers arriving at the post is between the first set value and the second set value, and the number of workers arriving at the post is half of the number of all the workers, so that electricity utilization in a public area can be controlled to enter a power saving state, electricity utilization comfort of the workers is guaranteed, and the workers do not enter a normal working electricity utilization mode. For example, in the second power mode, all lights in the working area are turned on, so that the air conditioner in the public area is powered on, but the power off state of the public power utilization module (such as a public electronic display screen) is kept.
In the third power utilization mode, the number of the staff arriving at the post exceeds a second set value, namely most of the staff arriving at the post, so that the power utilization in the public area can be controlled to enter a normal state, and the power utilization in the public area is controlled to enter a working mode. For example, in the third power mode, all lights in the working area are turned on, the air conditioner in the public area is in a power supply state, and power is supplied to the public power utilization module (such as a public electronic display screen).
In addition, referring to fig. 1 again, in order to achieve the above object, the present invention further provides an electricity management system, where the electricity management system includes an internet of things platform, a plurality of regional controllers and a plurality of sub-regional controllers, where the regional controllers and the sub-regional controllers are respectively in signal connection with the internet of things platform; each zone controller is used for controlling the power on and off of one working zone, and each sub-zone controller is used for controlling the power on and off of one working sub-zone in one working zone; the power utilization management system applies the enterprise power utilization management method of the regional power-on management. Since the technical part of the power consumption management system in this embodiment at least includes all technical solutions of the above embodiment of the enterprise power consumption management method for power management in a sub-area, all technical effects of the above embodiment are at least achieved, and details are not repeated here.
Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a computer-readable storage medium (such as ROM/RAM, magnetic disk, optical disk) as described above, and includes several instructions for enabling a terminal device to enter the method according to the embodiments of the present invention.
In the description herein, references to the description of the term "one embodiment," "another embodiment," or "first through xth embodiments," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, method steps, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.
The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.
The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The enterprise power utilization management method based on regional power-on management is characterized by being applied to a power utilization management system, wherein the power utilization management system comprises an Internet of things platform, a plurality of regional controllers and a plurality of sub-regional controllers, wherein the regional controllers and the sub-regional controllers are respectively in signal connection with the Internet of things platform; each zone controller is used for controlling the power on and off of one working zone, and each sub-zone controller is used for controlling the power on and off of one working sub-zone in one working zone; the enterprise electricity utilization management method for regional power-on management comprises the following steps:
detecting whether a worker arrives at a post or not, arranging a position signal receiving module in a working area, wherein the worker has a position signal sending module, when the position signal receiving module detects a position signal sent by the position signal sending module, the worker arrives at the post, the position signal receiving module is a Bluetooth signal receiving module, and the position signal sending module of the worker is a Bluetooth module carried by a mobile terminal of the worker;
when the fact that the employee arrives at the post is detected, acquiring a related work area and a related work sub-area of the employee on the Internet of things platform;
judging whether other associated staff arrive in the associated work area or not through the Internet of things platform, and judging whether other staff arrive in the associated work area or not;
when no other associated staff arrives in the associated work area and no other staff arrives in the associated work sub-area, controlling the area controller corresponding to the associated work area to be in a power-on state so as to power on the associated work area, and controlling the sub-area controller corresponding to the associated work sub-area to be in a power-on state so as to power on the associated work sub-area;
in each attendance checking period, after each time that the employee arrives at the post, acquiring a related working area and a related working sub-area of the post employee, performing a first accumulation operation on the number of the on-post employees in the related working area, and performing a second accumulation operation on the number of the on-post employees in the related working sub-area; meanwhile, after each time that the staff leaves the post is detected, acquiring a related work area and a related work sub-area of the staff leaving the post, performing first decrement operation on the number of the staff on the post in the related work area, and performing second decrement operation on the number of the staff on the post in the related work sub-area, thereby determining the number of the staff on the post in each work area according to the first accumulation operation and the first decrement operation, determining the number of the staff on the post in each work sub-area according to the second accumulation operation and the second decrement operation, performing power-off operation on the work area with the number of the staff on the post being zero, and performing power-off operation on the work sub-area with the number of the staff on the post being zero.
2. The enterprise power management method for regional power-on management according to claim 1, wherein the power management system further comprises an attendance system in signal connection with the internet of things platform, and the step of detecting whether the employee arrives at the police or not comprises:
detecting attendance information in the attendance system;
and determining whether the staff arrives at the post according to the attendance information.
3. The method for managing power consumption of an enterprise through regional power-on management according to claim 2, wherein the attendance system is an access control system, and the attendance information is card punching information.
4. The enterprise power management method for regional power on management according to claim 1, wherein after the step of determining whether other associated employees have arrived in the associated work region and determining whether other employees have arrived in the associated work sub-region through the internet of things platform, the method further comprises:
and when other associated staff arrive in the associated work area and no other associated staff arrive in the associated work sub-area, controlling the sub-area controller corresponding to the associated work sub-area to be in an electrified state so as to electrify the associated work sub-area.
5. The enterprise power management method for regional power on management according to claim 1, wherein after the step of determining whether other associated employees have arrived in the associated work region and determining whether other employees have arrived in the associated work sub-region through the internet of things platform, the method further comprises:
and when other associated employees arrive in the associated work area and other associated employees arrive in the associated work area, returning a prompt of successful power-on to the platform of the Internet of things.
6. The enterprise power management method for regional power on management according to claim 1, wherein after the step of determining whether other associated employees have arrived in the associated work region and determining whether other employees have arrived in the associated work sub-region through the internet of things platform, the method further comprises:
and when no other associated staff arrives in the associated work area and other associated staff arrives in the associated work area, returning a prompt of information error to the Internet of things platform.
7. The method for managing power consumption of an enterprise by managing power on according to any one of claims 1 to 6, wherein each zone controller is used for controlling power on and power off of each working floor, and each zone controller is used for controlling power on and power off of each working room.
8. The method for managing the power consumption of the enterprise with the sub-regional power-on management according to any one of claims 1 to 6, further comprising:
acquiring the number of the staff arriving at the post in each working area;
controlling the working area, in which the number of the staff arriving at the post does not exceed a first set value, to enter a first power utilization mode through the Internet of things platform;
controlling the working area, in which the number of the staff arriving at the post exceeds the first set value and does not exceed the second set value, to enter a second electricity utilization mode through the Internet of things platform;
and controlling the working area with the number of the staff arriving at the post exceeding a second set value to enter a third power utilization mode through the Internet of things platform.
9. The method according to claim 8, wherein each of the power consumption modes is related to a working area light on number, an air conditioner power on/off state and a public power utilization module power on/off state.
10. The power utilization management system is characterized by comprising an Internet of things platform, a plurality of regional controllers and a plurality of sub-regional controllers, wherein the regional controllers and the sub-regional controllers are respectively in signal connection with the Internet of things platform; each zone controller is used for controlling the power on and off of one working zone, and each sub-zone controller is used for controlling the power on and off of one working sub-zone in one working zone; the power utilization management system applies the enterprise power utilization management method of the regional power utilization management according to any one of claims 1 to 9.
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