A business establishment electricity control method, device and system

By determining the remaining power level of the power supply battery pack and the rating information of the electrical equipment, the power priority is dynamically adjusted, which solves the problem of inflexible power supply of UPS in business premises, extends the power supply time, improves the energy efficiency of the battery pack, and ensures the business continuity of the business premises.

CN114665570BActive Publication Date: 2026-07-03SUZHOU QINGTAO NEW ENERGY TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
SUZHOU QINGTAO NEW ENERGY TECH CO LTD
Filing Date
2022-04-22
Publication Date
2026-07-03

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Abstract

This invention discloses a method, device, and system for controlling power consumption in business establishments. The method includes: determining the remaining power level of the power supply battery pack; adjusting the equipment level assessment information based on the remaining power level; acquiring data interaction information between the equipment and system equipment; determining the power consumption priority of the equipment based on the data interaction information and the equipment level assessment information; and generating a power consumption strategy for the equipment based on the power consumption priority. Using the power control method proposed in this invention, the power allocation of the power supply battery pack can be more rational, which is beneficial to improving the overall power utilization rate of the power supply battery pack, thereby improving the overall energy efficiency of the power supply battery pack, and achieving the goal of extending the power supply duration of the power supply battery pack while ensuring the normal maintenance of the core system operations.
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Description

Technical Field

[0001] The embodiments of the present invention relate to power supply technology, and more particularly to a method, device and system for controlling the power consumption of business establishments. Background Technology

[0002] An uninterruptible power supply (UPS) is a power supply containing a battery pack. It is widely used in power supply scenarios such as banking, mining, aerospace, communications, and computer business terminals. Specifically, UPS is mainly used to provide a stable and uninterrupted power supply to single computers, computer network systems, or other important power electronic equipment in the above scenarios.

[0003] Currently, when the mains power fails, UPS systems mostly serve only a temporary function, with a short power supply time. Generators are still used as the power supply after the power outage, thus failing to fully utilize the UPS's capabilities. In fact, with the development of UPS systems, they can support the power needs of some low-power businesses after a power outage. Using UPS as a backup power system for these businesses is more conducive to uninterrupted operation of the business hall after a power outage.

[0004] In the above-mentioned business hall application scenario, the use of UPS has the following problems: the power demand of each load in the business hall is different after the mains power is cut off, and it is difficult to flexibly supply power to different loads according to the power demand of different devices; when the load is supplied with power based on a fixed power supply strategy, the available time of UPS is short. Summary of the Invention

[0005] This invention provides a method, device, and system for controlling electricity consumption in business establishments, aiming to extend the power supply time of the power supply battery pack while ensuring the normal maintenance of the core business of the system.

[0006] In a first aspect, embodiments of the present invention provide a method for controlling electricity consumption in business establishments, comprising:

[0007] Determine the remaining power level of the power supply battery pack, and adjust the equipment rating information according to the remaining power level;

[0008] Obtain data interaction information between electrical equipment and system equipment, and determine the power consumption priority of the electrical equipment based on the data interaction information and the electrical equipment level evaluation information;

[0009] The power consumption strategy for the electrical equipment is generated based on the power consumption priority.

[0010] Optionally, determining the power consumption priority of the electrical equipment based on the data interaction information and the electrical equipment rating information includes:

[0011] Obtain the power consumption level of the system equipment that interacts with the electrical equipment;

[0012] If the data interaction information includes the power equipment level assessment information, the power level corresponds to the highest level, and at least one of the power equipment level assessment information has the same level as the power level, then the power priority is determined to be the same as the power level.

[0013] Optionally, determining the power consumption priority of the electrical equipment based on the data interaction information and the electrical equipment rating information further includes:

[0014] If the level corresponding to the power equipment level assessment information is lower than the power consumption level, then obtain the communication pre-construction information corresponding to the system equipment;

[0015] If the data interaction information includes the communication pre-conditioning information, then it is determined that the power consumption priority is the same as the power consumption level;

[0016] Otherwise, the power priority is the same as the level corresponding to the power equipment rating information.

[0017] Optionally, determining the remaining power level of the power supply battery pack and generating equipment rating information based on the remaining power level includes:

[0018] When the remaining power level is reduced by one level, the level corresponding to the power equipment rating information is also reduced by one level.

[0019] Optionally, it also includes: obtaining power consumption level matching information and determining whether the data interaction information contains the power consumption level matching information;

[0020] If the data interaction information includes the power consumption level matching information, then the power consumption priority of the electrical equipment is determined based on the power consumption level matching information.

[0021] Optionally, if the power consumption priority is the highest, the power consumption strategy includes maintaining the power consumption of the electrical equipment;

[0022] If the power consumption priority is the lowest, then the power consumption strategy includes shutting down the electrical equipment.

[0023] Secondly, embodiments of the present invention also provide an electricity control device for business establishments, including an electricity level determination module, a level assessment information generation module, an electricity priority assessment module, and an electricity strategy generation module;

[0024] The power level determination module is used to determine the remaining power level of the power supply battery pack.

[0025] The rating information generation module is used to generate equipment rating information based on the remaining power level;

[0026] The power consumption priority assessment module is used to acquire data interaction information between the power consumption equipment and the system equipment, and to determine the power consumption priority of the power consumption equipment based on the data interaction information and the power consumption equipment level assessment information.

[0027] The power consumption strategy generation module is used to generate the power consumption strategy for the power-consuming equipment according to the power consumption priority.

[0028] Thirdly, embodiments of the present invention also provide a power supply control system for business establishments, including a controller, wherein the controller is configured with an executable program, and the executable program is used to implement the power supply control method for business establishments described in the embodiments of the present invention when it is executed.

[0029] Optionally, the power supply battery pack is included in the UPS power system.

[0030] Optionally, electrical equipment and system equipment are included in the bank branch business system.

[0031] Compared with the prior art, the beneficial effects of the present invention are as follows: In the power control method proposed in the present invention, the power equipment level assessment information is set. In an application scenario where the equipment composition in the system is unknown, the power priority of each device can be effectively determined. At the same time, based on the power equipment level assessment information, the remaining power level of the power supply battery pack is bound to the power priority of the device (that is, the power priority of the device can be dynamically changed with the change of the remaining power level). This allows for a more reasonable allocation of power from the power supply battery pack, which is conducive to improving the overall power utilization rate of the power supply battery pack and thus improving the overall energy efficiency of the power supply battery pack. This achieves the goal of extending the power supply time of the power supply battery pack while ensuring the normal maintenance of the core business of the system. Attached Figure Description

[0032] Figure 1 This is a flowchart of the power consumption control method for business premises in the embodiment;

[0033] Figure 2 This is a flowchart of another power control method for business premises in the embodiment;

[0034] Figure 3 This is a flowchart of another power control method for business establishments in the embodiments;

[0035] Figure 4 This is a schematic diagram of the power control device for the business premises in the embodiment. Detailed Implementation

[0036] The present invention will now be described in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and not intended to limit it. Furthermore, it should be noted that, for ease of description, the accompanying drawings show only the parts relevant to the present invention, and not all of the structures.

[0037] Example 1

[0038] Figure 1 This is the power control method for business premises in the embodiment, refer to Figure 1 The methods for controlling electricity use in business establishments include:

[0039] S101. Determine the remaining power level of the power supply battery pack.

[0040] For example, in this embodiment, the power supply battery pack serves as a backup power source for the electrical equipment. Under normal circumstances, the electrical equipment is powered by mains power. When the mains power supply fails, the power supply battery pack is used to temporarily power the electrical equipment.

[0041] For example, in this embodiment, the remaining power level can be determined by the SOC (State of Charge) value of the power supply battery pack, wherein the matching relationship between the SOC value and the remaining power level can be set according to requirements;

[0042] For example, it can be set that when the SOC value of the power supply battery pack is greater than 30%, the remaining power level is level 1, and when the SOC value is less than 30%, the remaining power level is level 2; or it can be set that each 10% SOC value corresponds to one level of remaining power, etc.

[0043] For example, in this embodiment, the power supply battery pack can be configured with a BMS. The BMS can measure the real-time SOC value of the power supply battery pack. After determining the SOC value, the corresponding remaining power level can be determined according to a preset matching relationship.

[0044] S102. Generate equipment rating information based on the remaining power level.

[0045] For example, in this embodiment, the first level of remaining power level corresponds to a set of equipment level assessment information.

[0046] For example, in this embodiment, a set of electrical equipment rating information includes several rating fields. Each rating field corresponds to a type of equipment, and the level corresponding to each rating field is related to the remaining power level.

[0047] Among them, the rating fields contained in the rating information of each set of electrical equipment corresponding to different levels of remaining power capacity may be the same, partially the same, or different.

[0048] For example, in this embodiment, a rating field can be set according to all categories of devices that may appear in an application scenario.

[0049] For example, in this embodiment, the matching relationship between the level corresponding to each rating field and the remaining power level can be set according to requirements. At the same time, when the remaining power level changes, the level corresponding to the equipment rating information can also change accordingly.

[0050] For example, in one possible implementation, it can be set that when the remaining power level decreases by one level, the level of the electrical equipment level assessment information corresponding to that level will be reduced by one level.

[0051] For example, the equipment rating information can be set to include a first-level rating field, a second-level rating field, and a third-level rating field, and the remaining power level can be set to level 1 and level 2.

[0052] When the remaining power level is level 1, the levels corresponding to the first level assessment field, the second level assessment field, and the third level assessment field can be level 1, level 2, and level 3, respectively.

[0053] When the remaining power level is level 2, the levels corresponding to the first level assessment field, the second level assessment field, and the third level assessment field can be level 2, level 3, and level 3, respectively.

[0054] S103. Obtain data interaction information between electrical equipment and system equipment.

[0055] For example, in this embodiment, the power-consuming equipment is defined as a device in an application scenario that needs to have its power consumption priority assessed, while the system equipment can be a device in the same application scenario that does not need to have its power consumption priority assessed.

[0056] For example, in this embodiment, obtaining the data interaction information between the electrical device and the system device can specifically be as follows:

[0057] The system obtains the data transmission frames sent by the electrical device to the system device, and extracts the frame ID from the data transmission frames. The frame ID can represent the UID (User Identifier) ​​of the electrical device, which can be used to identify the type and identity of the electrical device.

[0058] S104. Determine the power priority of electrical equipment based on data interaction information and electrical equipment level assessment information.

[0059] For example, based on the content recorded in steps S102 and S103, the UID can be the same as or correspond to the set first-level rating field.

[0060] For example, determining the power consumption priority of electrical equipment based on data interaction information and equipment rating information specifically includes:

[0061] Find the rating field that is the same as or corresponds to the UID, and use the level corresponding to the rating field as the power priority of the electrical equipment.

[0062] S105. Generate power consumption strategies for electrical equipment based on power consumption priority.

[0063] For example, in this embodiment, different power consumption priorities are set to correspond to different power consumption strategies. After determining the power consumption priority of the power consumption equipment, the corresponding power consumption strategy is bound to the power consumption equipment.

[0064] For example, in this solution, the power consumption strategy includes at least the maximum power consumption of the specified electrical equipment. In the power consumption strategy corresponding to high power consumption priority, the specified maximum power consumption is higher, and in the power consumption strategy corresponding to low power consumption priority, the specified maximum power consumption is lower.

[0065] For example, in conjunction with steps S101 to S105, during the process of the power supply battery pack supplying power to the electrical equipment, the remaining power level of the power supply battery pack is determined in real time. When the remaining power level changes, the electrical equipment level assessment information changes, which in turn changes the power consumption priority of the electrical equipment, and finally changes the power consumption strategy of the electrical equipment.

[0066] For example, if the UID of the electrical device is set to correspond to the first-level evaluation field, when the remaining power level is level 1, the level corresponding to the first-level evaluation field is level 1, then the power consumption priority of the electrical device is level 1, and at this time, the power consumption strategy of the electrical device is the first power consumption strategy.

[0067] When the remaining power level becomes level 2, the level corresponding to the first level assessment field is level 2, and the power consumption priority of the electrical equipment becomes level 2. At this time, the power consumption strategy of the electrical equipment is the second power consumption strategy.

[0068] In the power control method proposed in this embodiment, the power equipment level assessment information is set. In an application scenario where the equipment composition in the system is unknown, the power priority of each device can be effectively determined. At the same time, based on the power equipment level assessment information, the remaining power level of the power supply battery pack is bound to the power priority of the device (that is, the power priority of the device can be dynamically changed with the change of the remaining power level). This allows for a more reasonable allocation of power from the power supply battery pack, which is conducive to improving the overall power utilization rate of the power supply battery pack and thus improving the overall energy efficiency of the power supply battery pack. This achieves the goal of extending the power supply time of the power supply battery pack while ensuring the normal maintenance of the core business of the system.

[0069] Figure 2This is a flowchart of another power control method for business establishments in the embodiments, for reference. Figure 2 As one feasible solution, the power control method can be:

[0070] S201. Determine the remaining power level of the power supply battery pack.

[0071] S202. Generate equipment rating information based on the remaining power level.

[0072] S203. Obtain data exchange information between electrical equipment and system equipment.

[0073] For example, in this solution, the implementation process of steps S201 to S203 is basically the same as that of steps S101 to S103, wherein obtaining data interaction information includes obtaining data transmission frames sent by the electrical equipment to the system equipment.

[0074] S204. Obtain the power consumption level of system equipment that interacts with electrical equipment.

[0075] For example, in this solution, the power consumption level of the system equipment is a preset value.

[0076] For example, in this solution, the power supply battery pack can simultaneously supply power to both electrical devices and system equipment. During the startup process of the power supply battery pack, the power consumption level of each system device remains constant regardless of whether the remaining power level changes.

[0077] S205. Determine the power priority of electrical equipment based on data interaction information, electrical equipment level assessment information, and power level.

[0078] For example, in this solution, electricity priority can be determined in the following ways:

[0079] Step 1: Determine whether the data exchange information includes electrical equipment rating information.

[0080] For example, in this step, if there is a rating field that is the same as or corresponds to the frame ID in the data interaction information, it is determined that the data interaction information contains the rating information of the electrical equipment; otherwise, it is determined that the data interaction information does not contain the rating information of the electrical equipment.

[0081] Step 2: If the data exchange information includes electrical equipment rating information, then determine whether the electrical equipment rating information is the same as the level corresponding to the electrical equipment rating.

[0082] For example, in this step, a rating field that is the same as or corresponds to the frame ID is determined, and it is determined whether the level corresponding to the rating field is the same as the electricity consumption level.

[0083] For example, in this solution, if the system equipment that directly interacts with the electrical equipment is not unique, then it is determined whether the level corresponding to the rating field is the same as the highest power consumption level among the aforementioned system equipment.

[0084] If the data exchange information includes equipment level assessment information, and the level corresponding to the power consumption level is the highest, then the power consumption priority is determined to be the same as the power consumption level.

[0085] For example, if the system equipment that directly interacts with the electrical equipment includes a first system equipment and a second system equipment, and the power consumption levels corresponding to the first system equipment and the second system equipment are level 1 and level 2 respectively, then determine whether the level corresponding to the level assessment field is level 1.

[0086] If the system equipment that directly interacts with the electrical equipment only includes the second system equipment, then determine whether the level corresponding to the rating field is level 2.

[0087] Step 3: If the equipment rating information is the same as the power consumption level, then the power consumption priority is determined to be the same as the power consumption level.

[0088] For example, in this step, if the level corresponding to the rating field (which is the same as or corresponds to the frame ID) is the same as the power consumption level (that is, a power equipment rating information is the same as the level corresponding to the power consumption level), then it is determined that the power consumption priority of the power equipment is the same as the power consumption level.

[0089] For example, if the power consumption level of a system device that directly interacts with electrical equipment is set to level 1, and the remaining power consumption level is level 1, then if the frame ID of the electrical equipment corresponds to the first level assessment field, and the level corresponding to the first level assessment field is level 1, then the power consumption priority of the electrical equipment is level 1.

[0090] For example, in this solution, the equipment rating information may also include several data type fields. A data type field may indicate the type of data that may occur when the equipment interacts with the system equipment.

[0091] For example, different data type fields can correspond to the same level. When the data interaction information contains multiple data type fields, if there is a data type field that is the same as the level corresponding to the power consumption level (that is, at least one power equipment level assessment information is the same as the level corresponding to the power consumption level), then it is determined that the power consumption level assessment information is the same as the level corresponding to the power consumption level.

[0092] Step 4: If the rating of the electrical equipment is lower than the power consumption rating, then obtain the communication prerequisite information corresponding to the system equipment.

[0093] For example, in this step, if the system devices that directly interact with the electrical equipment are not unique, then the communication pre-processing information of the system device with the highest power consumption level is obtained.

[0094] For example, in this solution, the communication pre-defined information can represent a category of data when the electrical equipment interacts with the system equipment. This type of data can be used for statistical calculations or data integration for a specified project.

[0095] For example, in one application scenario, the communication pre-contact information of a system device can be defined as expenditure data, which can be used for the integration of detailed data.

[0096] Step 5: If the data exchange information includes communication prerequisite information, then the power priority is determined to be the same as the power level. If the data exchange information does not include communication prerequisite information, then the power priority is the same as the level corresponding to the power equipment level assessment information.

[0097] For example, in this solution, the data transmission frame sent by the power device to the system device is obtained, the frame data in the data transmission frame is intercepted, and it is determined whether the frame data contains communication pre-construction information. If it does, it is determined that the power priority and power level are the same; otherwise, it is determined that the power priority and the level corresponding to the level assessment field are the same.

[0098] For example, the power consumption level of the system equipment that directly interacts with the power-consuming equipment is set to level 1, the communication pre-contact information of the system equipment is set to expenditure, and when the remaining power level is level 1, the frame ID of the power-consuming equipment is set to correspond to the second level assessment field, and the level corresponding to the second level assessment field is level 2.

[0099] If the frame data of the electrical equipment contains expenditure data, the power consumption priority of the electrical equipment is level 1; otherwise, the power consumption priority of the electrical equipment is level 2.

[0100] Step 6: If the data exchange information does not include the equipment level assessment information, then the power priority is the lowest level set.

[0101] For example, if there is no rating field that is the same as or corresponds to the frame ID, the power priority of the electrical device is set to the lowest set level.

[0102] For example, if the power consumption priority is set to level 1, level 2 and level 3, with level 3 representing the lowest level, then the power consumption priority of the above-mentioned electrical equipment is level 3.

[0103] S206. Generate power consumption strategies for electrical equipment based on power consumption priority.

[0104] For example, this step is implemented in the same way as step S105.

[0105] For example, in this solution, if the power consumption level of the system equipment and the power consumption priority of the equipment are the same, then the power consumption strategies corresponding to both are the same.

[0106] exist Figure 1 Based on the beneficial effects of the proposed solution, this solution combines data interaction information, equipment level assessment information, system equipment power consumption level, and system equipment communication prerequisite information to determine the power consumption priority of equipment. When the power consumption priority of equipment cannot be determined through equipment level assessment information, the power consumption priority of equipment can be accurately determined based on the power consumption level and communication prerequisite information, especially when the communication logic between the equipment and system equipment is complex. This avoids the problem of not being able to implement the corresponding power consumption strategy for each equipment due to the inability to determine the power consumption priority or the incorrect determination of the power consumption priority, which ultimately leads to an abnormal reduction in the usage time of the power supply battery pack.

[0107] Figure 3 This is a flowchart of another power control method for business establishments in the embodiments, for reference. Figure 3 In one possible implementation, the power control method can be:

[0108] S301. Determine the remaining power level of the power supply battery pack.

[0109] S302. Generate equipment rating information based on the remaining power level.

[0110] For example, in this solution, the equipment rating information includes several data type fields. A data type field can represent the type of data that may appear when the equipment interacts with the system equipment.

[0111] For example, in banking applications, data types can include customer basic information, loan fee information, loan interest rate information, loan extension information, daily supplementary accounting information, monthly account data statistics, year-end transaction data, fund investment information, and buy / sell closing information.

[0112] For example, in this solution, the level corresponding to each data type field is related to the remaining power level, and the levels corresponding to different data type fields can be the same;

[0113] For example, when the remaining power level is level 1, the levels corresponding to customer basic information, loan fee information, loan interest rate information, and year-end transaction data information can be level 1, level 1, level 2, and level 3, respectively.

[0114] For example, in this solution, when the remaining power level changes, the corresponding level of the electrical equipment rating information changes accordingly. For instance, it can be set that when the remaining power level decreases by one level, the corresponding level of the electrical equipment rating information decreases by one level.

[0115] S303. Obtain data exchange information between electrical equipment and system equipment.

[0116] For example, in this solution, obtaining data interaction information means obtaining the data transmission frames sent by the electrical equipment to the system equipment.

[0117] S304. Obtain power consumption level matching information and determine whether the data interaction information contains power consumption level matching information.

[0118] For example, in this solution, the power consumption level matching information is predefined information. The power consumption level matching information includes several level matching fields. Each level matching field corresponds to a type of equipment, and each level matching field corresponds to a level. This level is a fixed value and is unrelated to the remaining power consumption level.

[0119] For example, in this solution, it can be determined whether the data exchange information contains electricity consumption level matching information in the following way:

[0120] Obtain the data transmission frame sent by the electrical device to the system device, and extract the device ID in the data transmission frame. The device ID can be used to identify the type and identity of the electrical device.

[0121] If there is power consumption level matching information corresponding to the same device ID, it is determined that the data interaction information contains power consumption level matching information; otherwise, it is determined that the data interaction information does not contain power consumption level matching information.

[0122] S305. If the data exchange information includes power consumption level matching information, the power consumption priority of the electrical equipment shall be determined according to the power consumption level matching information.

[0123] For example, the device ID of the electrical equipment is set to correspond with the first power consumption level matching information. If the level corresponding to the first power consumption level matching information is level 1, then the power consumption priority of the electrical equipment is level 1.

[0124] S306. If the data exchange information does not contain power consumption level matching information, then obtain the power consumption level of the system equipment that exchanges data with the power consumption equipment.

[0125] For example, in this solution, the implementation method for obtaining the power consumption level of the system equipment is the same as that described in step S204.

[0126] S307. Determine the power priority of electrical equipment based on data interaction information, electrical equipment level assessment information, and power level.

[0127] For example, in this solution, the power consumption priority of electrical equipment can be determined as follows:

[0128] Step 1: Determine whether the data exchange information includes the highest level of electrical equipment rating information (data type field). If it does, the electricity priority is the highest level.

[0129] Step 2: When the data exchange information does not include the highest level of electrical equipment rating information, determine the highest power consumption level among the system equipment that exchanges data with the electrical equipment, and record the system equipment corresponding to the highest power consumption level as the first system equipment.

[0130] Step 3: Obtain the first communication pre-condition information corresponding to the first system device, and determine whether the data interaction information includes the first communication pre-condition information.

[0131] Step 4: If the first communication pre-contact information is included, the power priority is the same as the power level corresponding to the first system device; otherwise, the power priority is the same as the highest level in the data type field contained in the data interaction information.

[0132] For example, the system devices are defined as Level 1 system devices (highest level), Level 2 system devices, and Level 3 system devices (lowest level); Level 1 system devices are defined as corresponding to Level 1 communication front-end information, Level 2 system devices as corresponding to Level 2 communication front-end information, and Level 3 system devices as corresponding to Level 3 communication front-end information.

[0133] If, under a given remaining power level, the equipment level assessment information includes a Level 1 data type field (highest level), a Level 2 data type field, and a Level 3 data type field (lowest level), then the process for determining power consumption priority can be as follows:

[0134] When electrical equipment interacts with Level 1 system equipment, if the data interaction information includes a Level 1 data type field, then the power consumption priority of the electrical equipment is determined to be Level 1.

[0135] When the highest level corresponding to the data type field included in the data interaction information is level 2, determine whether the electrical equipment has data interaction with level 1 system equipment.

[0136] When there are no Level 1 system devices that interact with the electrical equipment, the power consumption priority of the electrical equipment is Level 2.

[0137] When there is a Level 1 system device that interacts with the power-consuming equipment, determine whether the data interaction information contains Level 1 communication pre-contact information. If it does, the power consumption priority is Level 1; otherwise, the power consumption priority is Level 2.

[0138] When the highest level corresponding to the data type field included in the data interaction information is level 3, determine whether the electrical equipment has data interaction with level 1 system equipment.

[0139] When there is a Level 1 system device that interacts with the power-consuming equipment, determine whether the data interaction information contains Level 1 communication pre-contact information. If it does, the power consumption priority is Level 1; otherwise, determine whether the power-consuming equipment interacts with a Level 2 system device.

[0140] When there is a Level 2 system device that interacts with the power-consuming equipment, determine whether the data interaction information contains Level 2 communication pre-contact information. If it does, the power consumption priority is Level 2; otherwise, the power consumption priority is Level 3.

[0141] When there are no Level 1 or Level 2 system devices that interact with the electrical equipment, the power consumption priority of the electrical equipment is Level 3.

[0142] This solution illustrates the power control system using three power priority levels and three power consumption levels as an example. More power priority levels and power consumption levels can be determined based on actual needs.

[0143] For example, when an electrical device has more power priority, the content described in this plan can be used to further determine whether the electrical device is a level 4 power priority, level 5 power priority, etc.

[0144] S308. Generate power consumption strategies for electrical equipment based on power consumption priority.

[0145] For example, in this solution, if the electrical equipment has the highest priority, the power consumption strategy for that electrical equipment can be to maintain the power consumption of that electrical equipment.

[0146] If the power consumption priority of an electrical device is the lowest, then the power consumption strategy for that device can be to turn it off.

[0147] If the power priority of an electrical device is between the highest and lowest levels, the power consumption strategy for that device can be customized according to needs, such as reducing power consumption.

[0148] exist Figure 2 Based on the beneficial effects of the proposed scheme, this scheme introduces power consumption level matching information. Based on the power consumption level matching information, the power consumption priority of some electrical equipment can be quickly determined, thereby improving the execution efficiency of the power consumption control method.

[0149] Example 2

[0150] Figure 4 This is a schematic diagram of the power control device for the business premises in the embodiment, for reference. Figure 4This embodiment proposes a power control device for business establishments, including a power level determination module 100, a level assessment information generation module 200, a power priority assessment module 300, and a power strategy generation module 400.

[0151] The power level determination module 100 is used to determine the remaining power level of the power supply battery pack.

[0152] The rating information generation module 200 is used to generate rating information for electrical equipment based on the remaining power level.

[0153] The power priority assessment module 300 is used to: acquire data interaction information between electrical equipment and system equipment, and determine the power priority of electrical equipment based on the data interaction information and the power equipment level assessment information.

[0154] The power consumption strategy generation module 400 is used to generate power consumption strategies for electrical equipment based on power consumption priority.

[0155] In one possible implementation, the rating information generation module 200 can also be used simultaneously to: obtain the power consumption rating of system equipment that interacts with electrical equipment.

[0156] The power priority assessment module 300 can also be used to determine the power priority of electrical equipment based on data interaction information, equipment level assessment information, and power level.

[0157] In one possible implementation, the rating information generation module 200 can also be used simultaneously to: obtain electricity rating matching information.

[0158] The power priority assessment module 300 can also be used to: determine the power priority of electrical equipment based on the power level matching information if the data interaction information includes power level matching information; or determine the power priority of electrical equipment based on the data interaction information, the power equipment level assessment information, and the power level if the data interaction information does not include power level matching information.

[0159] In this solution, the working method and beneficial effects of the power control device for business establishments are the same as those described in Embodiment 1, and the specific process will not be repeated here.

[0160] Example 3

[0161] This embodiment also provides a power supply control system for business establishments, including a controller. The controller is configured with an executable program, which, when running, is used to implement any of the power supply control methods for business establishments described in Embodiment 1.

[0162] Based on the power control method for business establishments described in Embodiment 1, in this embodiment, the business establishment is limited to a bank branch business system, the power-consuming equipment and system equipment are included in the bank branch business system, and a UPS power supply system is set to supply power to the power-consuming equipment and system equipment.

[0163] For example, in a bank branch application scenario, the equipment rating information can include different types of data, such as user account information, balance information, transaction history, surveillance image information, and equipment information.

[0164] For example, in the above application scenario, the system equipment may include lighting equipment, air conditioning equipment, entertainment equipment in the rest area, etc. The power consumption level of the above equipment is a set value. For example, the power consumption level of the lighting equipment is set to level 2, and the power consumption level of the air conditioning equipment and entertainment equipment is set to level 3.

[0165] For example, in this embodiment, when the above-mentioned equipment is powered by the power supply battery pack in the UPS power system, if the power consumption level of the system equipment is level 2, the power consumption of the system equipment can be reduced. If the power consumption level of the system equipment is level 3, it means that the normal operation of banking business will not be affected when the system equipment stops working. Therefore, the power of such system equipment can be directly cut off.

[0166] For example, in this embodiment, an electrical device can be understood as a structure or component with a separate power consumption strategy, and an electrical device may have multiple devices with separate power consumption strategies.

[0167] For example, in this embodiment, when the electrical equipment includes multiple devices with individual power consumption strategies, the power consumption priority of each device in the electrical equipment can be determined individually.

[0168] For example, in this embodiment, when the remaining power level changes and the corresponding level of the equipment rating information changes accordingly, the business mode of the business hall can be changed accordingly. That is, under different business modes, the power priority of the same equipment is different.

[0169] For example, when the remaining power level decreases, the power priority of certain electrical devices decreases, and the corresponding power consumption strategy changes. At this time, the corresponding business model is adopted to ensure that the core business of the business hall can be carried out normally.

[0170] For example, when the mains power outage is short-lived and the remaining power level is high, the business hall can maintain operation using the first business mode. In this mode, the power priority corresponding to account information, user balance information, etc., included in the equipment level assessment information is level 1 (the highest level). At this time, the business hall maintains business processing services.

[0171] When the mains power failure is difficult to repair and the remaining power level is low, the power priority corresponding to account information, user balance information, etc. can be reduced to level 2. At this time, the business hall adopts the second business mode to maintain operation. In this mode, business processing services are suspended to reduce the energy consumption of the power supply battery pack.

[0172] The beneficial effects of the power control system proposed in this embodiment are the same as those described in Embodiment 1, and will not be repeated here.

[0173] Note that the above description is merely a preferred embodiment of the present invention and the technical principles employed. Those skilled in the art will understand that the present invention is not limited to the specific embodiments described herein, and various obvious changes, readjustments, and substitutions can be made without departing from the scope of protection of the present invention. Therefore, although the present invention has been described in detail through the above embodiments, the present invention is not limited to the above embodiments, and may include many other equivalent embodiments without departing from the concept of the present invention, the scope of which is determined by the scope of the appended claims.

Claims

1. A method for controlling electricity consumption in a business establishment, characterized in that, include: Determine the remaining power level of the power supply battery pack, and adjust the equipment rating information according to the remaining power level; Obtain data interaction information between electrical equipment and system equipment, and determine the power consumption priority of the electrical equipment based on the data interaction information and the electrical equipment level evaluation information; The power consumption strategy for the electrical equipment is generated based on the power consumption priority; A set of electrical equipment rating information includes several rating fields. Each rating field corresponds to a type of equipment, and the level corresponding to each rating field is related to the remaining power level. Obtain the data transmission frame sent by the electrical device to the system device, and extract the frame ID in the data transmission frame, where the frame ID represents the UID of the electrical device; Determining the power consumption priority of electrical equipment based on data exchange information and equipment rating information specifically includes: Find the rating field that is the same as or corresponding to the UID, and use the level corresponding to the rating field as the power priority of the electrical equipment; Determining the power consumption priority of electrical equipment based on data exchange information, equipment level assessment information, and power consumption level includes: Determine whether the data exchange information includes the highest level of electrical equipment rating information. If it does, then the electricity priority is the highest level. When the data exchange information does not include the highest level of electrical equipment rating information, determine the highest electrical equipment rating among the system equipment that exchanges data with the electrical equipment, and record the system equipment corresponding to the highest electrical equipment rating as the first system equipment. Obtain the first communication pre-condition information corresponding to the first system device, and determine whether the data interaction information includes the first communication pre-condition information; If the first communication pre-contact information is included, the power priority is the same as the power level corresponding to the first system device; otherwise, the power priority is the same as the highest level in the data type field contained in the data interaction information.

2. The power control method for business establishments as described in claim 1, characterized in that, Determine the remaining power level of the power supply battery pack, and generate equipment rating information based on the remaining power level, including: When the remaining power level is reduced by one level, the level corresponding to the power equipment rating information is also reduced by one level.

3. The power control method for business establishments as described in claim 1, characterized in that, Also includes: Obtain electricity consumption level matching information and determine whether the data interaction information contains the electricity consumption level matching information; If the data interaction information includes the power consumption level matching information, then the power consumption priority of the electrical equipment is determined based on the power consumption level matching information.

4. The power control method for business establishments as described in claim 1, characterized in that, If the power consumption priority is the highest, then the power consumption strategy includes maintaining the power consumption of the electrical equipment; If the power consumption priority is the lowest, then the power consumption strategy includes shutting down the electrical equipment.

5. A power control device for a business establishment, characterized in that, It includes a power level determination module, a level assessment information generation module, a power consumption priority assessment module, and a power consumption strategy generation module; The power level determination module is used to determine the remaining power level of the power supply battery pack. The rating information generation module is used to generate equipment rating information based on the remaining power level; The power consumption priority assessment module is used to acquire data interaction information between the power consumption equipment and the system equipment, and to determine the power consumption priority of the power consumption equipment based on the data interaction information and the power consumption equipment level assessment information. The power consumption strategy generation module is used to generate the power consumption strategy for the electrical equipment according to the power consumption priority; A set of electrical equipment rating information includes several rating fields. Each rating field corresponds to a type of equipment, and the level corresponding to each rating field is related to the remaining power level. Obtain the data transmission frame sent by the electrical device to the system device, and extract the frame ID in the data transmission frame, where the frame ID represents the UID of the electrical device; Determining the power consumption priority of electrical equipment based on data exchange information and equipment rating information specifically includes: Find the rating field that is the same as or corresponding to the UID, and use the level corresponding to the rating field as the power priority of the electrical equipment; Determining the power consumption priority of electrical equipment based on data exchange information, equipment level assessment information, and power consumption level includes: Determine whether the data exchange information includes the highest level of electrical equipment rating information. If it does, then the electricity priority is the highest level. When the data exchange information does not include the highest level of electrical equipment rating information, determine the highest electrical equipment rating among the system equipment that exchanges data with the electrical equipment, and record the system equipment corresponding to the highest electrical equipment rating as the first system equipment. Obtain the first communication pre-condition information corresponding to the first system device, and determine whether the data interaction information includes the first communication pre-condition information; If the first communication pre-contact information is included, the power priority is the same as the power level corresponding to the first system device; otherwise, the power priority is the same as the highest level in the data type field contained in the data interaction information.

6. A power control system for a business establishment, characterized in that, The device includes a controller configured with an executable program, which, when executed, implements the power control method for business premises as described in any one of claims 1 to 4.

7. The power control system for business premises as described in claim 6, characterized in that, The power supply battery pack is included in the UPS power system.

8. The power control system for business premises as described in claim 6, characterized in that, Electrical equipment and system equipment are included in the business system of the bank's branch.