WO2017215391A1 - Electricity consumption control method, apparatus and device for communication power source - Google Patents

Abstract

Provided are an electricity consumption control method, apparatus and device for a communication power source. The electricity consumption control method of the embodiments of the present invention comprises: acquiring user encoded information about a user to be subjected to power distribution; according to a pre-established association relationship between the user encoded information and a power distribution unit of a communication power source, determining a power distribution unit associated with the user encoded information about the user to be subjected to power distribution; and according to the determined power distribution unit, performing power distribution control over the user to be subjected to power distribution. According to the embodiments of the present invention, power distribution control over a user to be subjected to power distribution can be carried out according to a flexibly configured association relationship between user encoded information and a power distribution unit of a communication power source, such that power distribution control over a load device of the user is not restricted at a physical level, thereby improving the flexibility of site operations.

Description

Power control method, device and device for communication power source Technical field

The present application relates to, but is not limited to, the technical field of communication power management, and particularly relates to a power control method, device and device for a communication power source.

Background technique

With the development of the telecommunications industry, the infrastructure construction of telecom operators is increasing. The infrastructure of each telecom operator is independent, resulting in a large number of redundant infrastructure construction, resulting in waste of resources. A few days ago, with the emergence of companies providing infrastructure services, infrastructure will become a trend for multiple operators to share.

As the power supply equipment of the communication base station, the communication power supply is bound to become an important part of the infrastructure sharing of the telecom operators. This will lead to a major change in the power supply and management mode of the communication power supply, that is, only one telecom operator is provided with power to multiple Telecom operators provide electricity services.

The impact of this type of service transformation on communication power is huge. Before the communication power supply only served one telecom operator, the focus was on power supply security. Now it has become the power supply for many telecom operators at the same time, in addition to power supply security. Multi-user management capabilities have also become important.

Since it is a service for multiple users, there should be separate management for each user, such as current, power, alarm, control, etc., and each user's operational information can provide a basis for differential charging.

Summary of the invention

The following is an overview of the topics detailed in this document. This Summary is not intended to limit the scope of the claims.

The embodiment of the invention provides a method, a device and a device for controlling the power consumption of a communication power supply, which are used to solve the relationship between the power distribution branch and the user at a physical level when the communication power supply of the related art is simultaneously served for multiple users. This leads to the problem of not being able to flexibly control the distribution of power to each user.

The embodiment of the invention provides a power control method for a communication power source, including:

Obtain user code information of the user to be distributed;

Determining, according to a pre-established association relationship between the user code information and the power distribution unit of the communication power source, a power distribution unit associated with the user code information of the user to be power-distributed;

Performing power distribution control on the power distribution user according to the determined power distribution unit.

Optionally, before the step of determining the power distribution unit associated with the user code information of the user to be distributed according to the relationship between the pre-established user code information and the power distribution unit of the communication power source, The power control method may further include:

Establishing an association relationship between the user code information of the user served by the communication power source and the power distribution unit of the communication power source according to the power attribute information of the user served by the communication power source, wherein the power attribute information includes the user Distance information with a power distribution unit of the communication power source and/or user's power load information.

Optionally, the step of performing power distribution control on the to-be-distributed user according to the determined power distribution unit may include:

And the determined power distribution unit is configured to be powered by the power distribution unit.

Optionally, after the step of acquiring the user code information of the user to be distributed, the method may further include:

Acquiring the user identification information of the user served by the communication power source, where the user identification information includes: the user code information of the user and preset power source attribute information of the communication power source for the user.

Optionally, after the step of acquiring the user identification information of the user served by the communication power source, the method may further include:

Obtaining the power consumption of the user who has the same user code information among the users served by each communication power source within a preset time period;

The user identifier information that meets the first preset condition is filtered according to the preset power source attribute information and the user code information in the user identifier information, where the user identifier information that meets the first preset condition is the first power source attribute information. And user identification information of the first user coded information;

And obtaining, according to the power consumption of the user having the same user code information in the user serviced by the communication power source, the power consumption of the user corresponding to the filtered user identification information within the preset time period .

Optionally, the step of acquiring the power consumption of the user who has the same user code information in the user served by each communication power source within a preset duration may include:

Detecting the magnitude of the user load current in the power distribution unit of each communication power source;

Determining, according to the association relationship between the user code information and the power distribution unit of the communication power source, a size of a user load current corresponding to the same user code information among the users served by each communication power source;

According to the preset duration, the user load current corresponding to the same user coded information among the users served by each communication power source is integrated, and the user having the same user code information among the users served by each communication power source is preset. The amount of electricity used during the duration.

Optionally, after the step of acquiring the user identification information of the user served by the communication power source, the method may further include:

And performing power-off control processing on the user served by the communication power source according to the relationship between the user code information and the power distribution unit of the communication power source and the user identification information.

Optionally, the step of performing a power-off control process on the user served by the communication power source according to the relationship between the user code information and the power distribution unit of the communication power source and the user identification information may include:

And filtering the user identifier information that meets the second preset condition according to the preset power source attribute information and the user code information in the user identifier information, where the identifier information that meets the second preset condition has the second power source attribute Information and user identification information of the second user coded information;

Determining, according to the preset power attribute information in the filtered user identification information, a communication power source that needs to be powered off, and determining, according to the association relationship, a to-be-associated with the user code information in the filtered user identification information. Electric power distribution unit;

Controlling the communication power supply that needs to be powered down to power off the load on the to-be-powered control unit.

The application further provides a computer readable storage medium storing computer executable instructions, The above method is implemented when the computer executable instructions are executed.

An embodiment of the present invention further provides a power control device for a communication power source, including:

a first acquiring module, configured to obtain user code information of a user to be distributed;

a determining module, configured to determine, according to a relationship between the pre-established user code information and a power distribution unit of the communication power source, a power distribution unit associated with the user code information of the user to be power-distributed;

The first control module is configured to perform power distribution control on the power distribution user according to the determined power distribution unit.

Optionally, the power control device of the communication power supply may further include:

Establishing a module, configured to establish, according to the power attribute information of the user served by the communication power source, an association relationship between the user code information of the user served by the communication power source and the power distribution unit of the communication power source, where the power is used The attribute information includes distance information between the user and the power distribution unit of the communication power source and/or user's power load information.

An embodiment of the present invention further provides a power control device for a communication power source, including a plurality of power distribution units, each power distribution unit including a first predetermined number of current metering components and a second predetermined number of circuit breakers, The power control device further includes:

The intelligent monitoring unit is configured to obtain user code information of the user to be distributed, and determine, according to the association relationship between the pre-established user code information and the power distribution unit of the communication power source, the user code information associated with the user to be distributed Power distribution unit;

And a power distribution management unit, configured to perform power distribution control on the power distribution user according to the power distribution unit determined by the intelligent monitoring unit.

Embodiments of the present invention have the following beneficial effects:

The foregoing solution of the embodiment of the present invention obtains user coding information of a user to be distributed; and determines user code information of the user to be distributed according to an association relationship between the user code information and the power distribution unit of the communication power source. The associated power distribution unit; performs power distribution control on the power distribution user according to the determined power distribution unit. The embodiment of the present invention can perform power distribution control on the power distribution user according to the association relationship between the user code information that is flexibly configured and the power distribution unit of the communication power source, so that the power distribution control of the user's load device is not affected by the physical layer. The restrictions increase the flexibility of on-site construction.

Other aspects will be apparent upon reading and understanding the drawings and detailed description.

BRIEF abstract

1 is a first working flowchart of a method for controlling power consumption of a communication power supply according to an embodiment of the present invention;

2 is a diagram showing a mapping relationship between a user and a power distribution unit in a power control method of a communication power supply according to an embodiment of the present invention;

3 is a first structural block diagram of a power control device for a communication power supply according to an embodiment of the present invention;

4 is a second working flowchart of a method for controlling power consumption of a communication power supply according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a format of user identification information in a power control method of a communication power supply according to an embodiment of the present invention; FIG.

6 is a third working flowchart of a method for controlling power consumption of a communication power supply according to an embodiment of the present invention;

FIG. 7 is a flowchart showing an operation of an embodiment of step 63 of a power control method for a communication power supply according to an embodiment of the present invention;

FIG. 8 is a second structural block diagram of a power control device for a communication power supply according to an embodiment of the present invention.

Embodiments of the invention

The detailed description will be made below in conjunction with the specific embodiments and the accompanying drawings.

At present, in order to realize the multi-user management function, the communication power supply has undergone a great change in the DC power distribution part, that is, each user is provided with a separate DC power distribution part, which is distinguished from the physical level, and the fixed power distribution branch is the same as the user. The relationship between this type lacks configuration flexibility and user scalability, and is also easy to waste. For example, the communication power supply has 4 DC power distribution branches, and the maximum power is provided for 4 users. Currently, there are 3 users. One of the users needs more load. If the load of the corresponding branch of the user is insufficient, it can only be extended on this branch, but the branch that has not been used before can not be utilized. In addition, the multi-user management function of the related art power supply device makes it difficult to quickly and conveniently control each user, such as power-off control, and it is also inconvenient to perform statistical management on the power consumption information of each user.

Embodiments of the present invention provide a method, device, and device for controlling power consumption of a communication power supply. When the communication power supply of the related art is served for multiple users at the same time, the relationship between the power distribution branch and the user is fixed at the physical level, resulting in a problem that the power distribution control cannot be flexibly performed for each user.

First embodiment:

As shown in FIG. 1 , a method for controlling power consumption of a communication power supply according to an embodiment of the present invention includes:

Step 11: Obtain user code information of the user to be distributed.

Here, all users who supply power for the communication power supply are uniformly coded, and the sequenced sequence may be specifically used to obtain the user code information.

Step 12: Determine a power distribution unit associated with the user code information of the user to be power-distributed according to an association relationship between the previously established user code information and the power distribution unit of the communication power source.

The power distribution unit in this step refers to the power distribution part with independent metering, detection and control, and one power distribution unit can only correspond to one user, and one user can correspond to multiple power distribution units, so that the power distribution unit and the user A mapping relationship is established, and the user's load device can be flexibly connected to the communication power system. In a specific embodiment of the present invention, the mapping between the power distribution unit and the user code information may be implemented by using an intelligent monitoring unit. For example, if there are 4 users in the network, the power distribution unit and the user may be optionally configured. The content is: user one, user two, user three, user four, and the communication power system also has four power distribution units, namely, power distribution unit 1, power distribution unit 2, power distribution unit 3, power distribution unit 4, then There are matching mappings of the form:

(1) One-to-one direct mapping, that is, "power distribution unit one" corresponds to "user one", "power distribution unit two" corresponds to "user two", "power distribution unit three" corresponds to "user three", "power distribution unit Four" corresponds to "user four";

(2) One-to-one cross-mapping, for example, "power distribution unit one" corresponds to "user four", "power distribution unit two" corresponds to "user three", "power distribution unit three" corresponds to "user two", "power distribution unit Four" corresponds to "user one";

(3) Many-to-one multi-user mapping, for example, "power distribution unit one" corresponds to "user three", "power distribution unit two" corresponds to "user three", "power distribution unit three" corresponds to "user two", "power distribution Unit four" corresponds to "user one";

(4) Many-to-one-user mapping, for example, “power distribution unit one” corresponds to “user three”, “power distribution unit two” corresponds to “user three”, “power distribution unit three” corresponds to “user three”, “power distribution” Unit four" Corresponds to "user three".

The configuration of the power distribution unit is also applicable to the single power distribution and the traditional communication power of a single user. For example, the power supply has only one power distribution unit, and only the user three can use it to be configured as “user three”.

Preferably, before the step 12, the power control method of the communication power supply according to the embodiment of the present invention may include: establishing user code information of the user served by the communication power source according to the power attribute information of the user served by the communication power source, and the An association relationship between power distribution units of the communication power source, wherein the power attribute information includes distance information between the user and a power distribution unit of the communication power source and/or user power load information. Before each power distribution, the user is obtained according to the current power attribute information of the user, and the user is flexibly distributed according to the power attribute information. In a specific embodiment of the present invention, a corresponding mapping relationship may be selected according to distance information between the user and the power distribution unit of the communication power source and/or load information of the user. For example, there is one communication power supply A, and four power distribution units are power distribution unit 1, power distribution unit 2, power distribution unit 3, and power distribution unit 4, and correspondingly three users are user a, user b, and User c, user a has a large load, can access the power distribution unit 3 and the power distribution unit 4, the user b accesses the power distribution unit 2, and the user c accesses the power distribution unit 1, and the access mode is not affected by the physical aspect. limits.

As shown in FIG. 2, the mapping relationship between the user and the power distribution unit can be implemented through the foregoing relationship, and the isolation between the virtual layer and the physical access layer can be implemented, and only the user can be displayed when the information is presented. There is no need to care about the access part of the power distribution unit.

Returning to FIG. 1 again, step 13: performing power distribution control on the power distribution user according to the determined power distribution unit.

Optionally, the determined power distribution unit is configured to the user to be distributed, and the determined power distribution unit is configured to supply power to the user to be distributed.

The above solution of the embodiment of the present invention can be implemented by the power control device 3 of the communication power supply. As shown in FIG. 3, the power control device 3 includes an intelligent monitoring unit 31 and a power distribution management unit 32, and the intelligent monitoring unit 31 has information collection. , signal control, remote communication and other functions, the power distribution management unit 32 is composed of one or more power distribution units, the power distribution unit is composed of a circuit breaker, a number of current metering components and a number of open or fuse. Optionally, the power distribution management unit 32 can be divided into three types, one is only a circuit breaker, a plurality of current metering components, and a plurality of air-opening or fuses, and the information is directly detected and controlled by the intelligent monitoring unit; 32 itself has a management system that can be used to control And detecting all the power distribution devices inside the power distribution management unit 32, the power distribution management unit 32 and the intelligent monitoring unit can realize interaction through communication; third, each power distribution unit has a management system, which can control and detect the power distribution. All power distribution devices inside the unit, and each power distribution unit can communicate with the intelligent monitoring unit through communication.

The foregoing solution of the embodiment of the present invention includes: acquiring user code information of a user to be distributed; determining a user code of the user to be distributed according to an association relationship between the user code information and the power distribution unit of the communication power source. a power distribution unit associated with the information; performing power distribution control on the power distribution user according to the determined power distribution unit. The embodiment of the present invention can perform power distribution control on the power distribution user according to the association relationship between the user code information that is flexibly configured and the power distribution unit of the communication power source, so that the power distribution control of the user's load device is not affected by the physical layer. The restrictions increase the flexibility of on-site construction and reduce construction costs.

Second embodiment:

As shown in FIG. 4, the power control method of the communication power supply according to the embodiment of the present invention includes:

Step 41: Obtain user code information of the user to be distributed.

Step 42: Acquire user identification information of the user served by the communication power source, where the user identification information includes: the user code information of the user and preset power source attribute information of the communication power source for the user.

The preset power attribute information may be area information of the communication power source. Here, the area code of each communication power source may be uniformly coded according to the area information of each communication power source, and the area code and the user code are used as the identification information of the user. The user identification information can conveniently count the user's power usage information.

Further, the foregoing area coding may be divided layer by layer according to a region or an attribute range, so that the established tree structure can conveniently find or count information of a certain area or a certain attribute, which greatly increases the flexibility of processing information. The format of the user identification information is as shown in Table 1.

Table 1

Among them, the level I area, the level II area, the level III area, the site, and the user are layer-by-layer inclusion relationships, and the number of peers of each layer is determined by the number of bits, and the range of two decimal degrees is 1-99, three. The decimal range is 1-999. In this way, any tree can be formed into a tree structure from the top to the bottom. Each associated node is uniquely determined. For example, the user four in FIG. 2, as shown in FIG. 5, can be expressed as 01 01 08 011 04.

In addition, the information of the lower nodes can be calculated very conveniently by the value of a certain layer, thereby realizing the statistics of the information. For example, it is necessary to collect the power information of all users 4 coded as 01 in the Level II area. In this case, it is only necessary to collect the codes of all users in the entire network, and then pass the I-level area code 01, the level II area code 01 and the user. The code 04 filters all the encoded information, and extracts the power information of all the users who match the three codes.

Step 43: Acquire the power consumption of the user who has the same user code information among the users served by each communication power source within a preset time period.

The above step 43 may include: Step 431: Detecting the magnitude of the user load current in the power distribution unit of each communication power source.

Step 432: Calculate, according to the relationship between the user code information and the power distribution unit of the communication power source, the size of the user load current corresponding to the same user code information among the users served by each communication power source.

Here, according to the association relationship, the load current detected by the power distribution unit is assigned to the corresponding user, for example, the power distribution unit 1 and the power distribution unit 2 correspond to the user 1, and the power distribution unit 1 and the power distribution unit 2 detect the The sum of the load currents is the current of the user.

Step 433: Integrate the size of the user load current corresponding to the same user coded information among the users served by each communication power source according to the preset duration, and obtain a user having the same user code information among the users served by each communication power source. The amount of electricity used during the preset time period.

After the user's current is obtained in this step, the current, voltage, and time can be integrated to calculate the user's load power consumption, and then the power is accumulated according to the time period, such as monthly power recording, monthly users. The electricity is accumulated as a monthly electricity record, thereby obtaining the monthly electricity of a user of the site, and sending the user identification information and the user's power consumption information to the background. The user identification information can uniquely determine the power usage information of a user.

Step 44: According to the preset power attribute information and the user code information in the user identification information, the user identification information that meets the first preset condition is filtered out, wherein the user identification information that meets the first preset condition has the first Power attribute information and user identification information of the first user code information.

Step 45: Acquire, according to the power consumption of the user having the same user code information among the users served by each communication power source, the user corresponding to the filtered user identification information within the preset time period. energy used.

In the embodiment of the present invention, after the power consumption information of all users is received in the background, the power of a user is counted according to the user identification information. For example, the power of the user four is counted, and the information including the user code 04 in the user information code is filtered out, and the calculation is performed. The sum of the corresponding powers can be, for example, the power of the user three in the level II area 03 below the I level area 01 is counted, and only the user information code 0103 xx xxx 03 needs to be filtered out to calculate the sum of the corresponding power amounts. .

The power control method of the communication power supply according to the embodiment of the present invention can realize the statistics of the user power consumption information conveniently by using the user identification information.

Third embodiment:

As shown in FIG. 6, the power control method of the communication power supply according to the embodiment of the present invention includes:

Step 61: Acquire user code information of the user to be distributed.

Step 62: Acquire user identification information of the user served by the communication power source, where the user identification information includes: the user code information of the user and preset power source attribute information of the communication power source for the user.

This step is the same as step 42 above, and will not be described again here.

Step 63: Perform a power-off control process on the user served by the communication power source according to the relationship between the user code information and the power distribution unit of the communication power source and the user identification information.

Optionally, as shown in FIG. 7, the foregoing step 63 may include: Step 631: Filter user identification information that meets a second preset condition according to preset power attribute information and user code information in the user identification information. The identifier information that meets the second preset condition is user identifier information that has the second power attribute information and the second user code information.

Assume that the console in the background controls the users of the entire network to power off, then the background server can be at all. The user identification information corresponding to xx xx xx xxx 04 is filtered out in the user identification information.

Step 632: Determine, according to the preset power source attribute information in the filtered user identifier information, the communication power source that needs to be powered off, and determine, according to the association relationship, the user code information in the filtered user identifier information. The power distribution unit to be powered off.

According to the filtered user identification information, the background can determine the communication power supply to be powered off and the power distribution unit to be powered off, and then send the power-off command to the corresponding communication power source by polling or broadcasting; the communication power source receives the background transmission. After the power-off command, the association relationship may be determined, and the to-be-powered power distribution unit associated with the user code information in the filtered user identification information is determined.

Step 633: Control the power supply that needs to be powered off to power off the load on the to-be-powered control unit.

For example, the user 4 of the communication power supply corresponds to the power distribution unit 2 and the power distribution unit 3, and then the load on the power distribution unit 2 and the power distribution unit 3 is controlled to be powered off. In addition, all communication power stations that meet the user identification information will also complete the power-off control according to the above steps.

In the power control method of the communication power supply according to the embodiment of the present invention, the user is classified and counted and remotely controlled by the user identification information, and the statistics and control of the user power consumption information can be conveniently implemented according to the hierarchical relationship.

Embodiments of the present invention further provide a computer readable storage medium storing computer executable instructions that are implemented when the computer executable instructions are executed.

Fourth embodiment:

As shown in FIG. 8, an embodiment of the present invention further provides a power control device for a communication power source, including:

The first obtaining module 71 is configured to obtain user code information of the user to be distributed;

The determining module 72 is configured to determine, according to the association relationship between the pre-established user code information and the power distribution unit of the communication power source, the power distribution unit associated with the user code information of the user to be power-distributed;

The first control module 73 is configured to perform power distribution control on the to-be-distributed user according to the determined power distribution unit.

Optionally, the power control device of the communication power supply of the embodiment of the present invention may further include:

The establishing module 74 is configured to establish, according to the power attribute information of the user served by the communication power source, an association relationship between the user code information of the user served by the communication power source and the power distribution unit of the communication power source, where the The electrical attribute information includes distance information between the user and the power distribution unit of the communication power source and/or user's power load information.

In the power control device of the communication power supply according to the embodiment of the present invention, the first control module 73 is configured to configure the determined power distribution unit to the user to be distributed, and control the determined power distribution unit as a Tell the power distribution user to supply power.

Optionally, the power control device of the communication power supply of the embodiment of the present invention may further include:

The second obtaining module 75 is configured to obtain user identification information of the user served by the communication power source, where the user identification information includes: the user code information of the user and preset power source attribute information of the communication power source for the user.

Optionally, the power control device of the communication power supply of the embodiment of the present invention may further include:

The third obtaining module 76 is configured to obtain the power consumption of the user having the same user code information among the users served by each communication power source within a preset time period;

The screening module 77 is configured to filter the user identification information that meets the first preset condition according to the preset power source attribute information and the user code information in the user identifier information, where the user identifier information that meets the first preset condition is User identification information having first power attribute information and first user code information;

The fourth obtaining module 78 is configured to obtain, according to the power consumption of the user having the same user encoding information among the users served by each communication power source, the user corresponding to the filtered user identification information. The amount of electricity used during the preset duration.

Optionally, in the power control device of the communication power supply of the embodiment of the present invention, the third obtaining module 76 may include:

The detecting unit 761 is configured to detect a magnitude of a user load current in a power distribution unit of each communication power source;

The statistics unit 762 is configured to calculate, according to the association relationship between the user code information and the power distribution unit of the communication power source, the size of the user load current corresponding to the same user code information among the users served by each communication power source. ;

The first determining unit 763 is configured to perform integral processing on the size of the user load current corresponding to the same user coded information among the users served by each communication power source according to the preset duration, and obtain the same among the users served by each communication power source. The amount of power consumed by the user of the user coded information for a preset period of time.

Optionally, the power control device of the communication power supply of the embodiment of the present invention may further include:

The second control module 79 is configured to perform a power-off control process on the user served by the communication power source according to the relationship between the user code information and the power distribution unit of the communication power source and the user identification information.

The power control device for the communication power supply of the embodiment of the present invention, the second control module 79 includes:

The screening unit 791 is configured to filter out user identification information that meets the second preset condition according to the preset power source attribute information and the user code information in the user identifier information, where the identifier information that meets the second preset condition is User identification information having second power attribute information and second user code information;

The second determining unit 792 is configured to determine, according to the preset power source attribute information in the filtered user identifier information, the communication power source that needs to be powered off, and determine and filter the user identifier information according to the association relationship. The power distribution unit to be powered down associated with the user code information;

The control unit 793 is configured to control the communication power supply that needs to be powered down to perform power-off processing on the load on the to-be-powered control unit.

It should be noted that the device is a device corresponding to the foregoing method embodiment, and all implementations in the foregoing method embodiments are applicable to the embodiment of the device, and the same technical effects can be achieved.

An embodiment of the present invention further provides a power control device for a communication power source, including a plurality of power distribution units, each power distribution unit including a first predetermined number of current metering components and a second predetermined number of circuit breakers, It is characterized by:

The intelligent monitoring unit is configured to obtain user code information of the user to be distributed, and determine, according to the association relationship between the pre-established user code information and the power distribution unit of the communication power source, the user code information associated with the user to be distributed Power distribution unit;

And a power distribution management unit, configured to perform power distribution control on the power distribution user according to the power distribution unit determined by the intelligent monitoring unit. The power control device of the communication power source of the embodiment of the invention, Including intelligent monitoring unit and power distribution management unit, intelligent monitoring unit has functions of information collection, signal control, remote communication, etc. The power distribution management unit is composed of one or more power distribution units, and the power distribution unit is composed of several current measuring components. And a number of open or fuse components. Optionally, the power distribution management unit can be divided into three types, one is only a circuit breaker, a plurality of current metering components, and a plurality of air-opening or fuses, and the information is directly detected and controlled by the intelligent monitoring unit; the second is the power distribution management unit itself. There is a management system that can be used to control and detect all power distribution devices inside the power distribution management unit. The power distribution management unit and the intelligent monitoring unit can communicate through communication. Third, each power distribution unit has a management system. It can control and detect all the power distribution devices inside the power distribution unit, and each power distribution unit can communicate with the intelligent monitoring unit through communication.

The method, device and device for controlling the power consumption of the communication power supply according to the embodiment of the invention acquire the user code information of the user to be distributed; and determine the relationship between the user code information and the power distribution unit of the communication power source And a power distribution unit associated with the user code information of the power distribution user; and performing power distribution control on the power distribution user according to the determined power distribution unit. The embodiment of the present invention can perform power distribution control on the power distribution user according to the association relationship between the user code information that is flexibly configured and the power distribution unit of the communication power source, so that the power distribution control of the user's load device is not affected by the physical layer. The restrictions increase the flexibility of on-site construction.

Those of ordinary skill in the art will appreciate that all or some of the steps, systems, and functional blocks/units of the methods disclosed above may be implemented as software, firmware, hardware, and suitable combinations thereof. In a hardware implementation, the division between functional modules/units mentioned in the above description does not necessarily correspond to the division of physical units; for example, one physical component may have multiple functions, or one function or step may be composed of several physical The components work together. Some or all of the components may be implemented as software executed by a processor, such as a digital signal processor or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit. Such software may be distributed on a computer readable medium, which may include computer storage media (or non-transitory media) and communication media (or transitory media). As is well known to those of ordinary skill in the art, the term computer storage medium includes volatile and nonvolatile, implemented in any method or technology for storing information, such as computer readable instructions, data structures, program modules or other data. Sex, removable and non-removable media. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital versatile disc (DVD) or other optical disc storage, A magnetic cartridge, magnetic tape, magnetic disk storage or other magnetic storage device, or any other medium that can be used to store desired information and that can be accessed by a computer. Moreover, it is well known to those skilled in the art that communication media typically includes computer readable instructions, data structures, program modules, or other data in a modulated data signal, such as a carrier wave or other transport mechanism, and can include any information delivery media. .

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present application. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present application are included in the present application. Within the scope of protection.

Industrial applicability

Embodiments of the present invention provide a power control method, apparatus, and device for a communication power supply. The embodiment of the present invention can perform power distribution control on the power distribution user according to the association relationship between the user code information that is flexibly configured and the power distribution unit of the communication power source, so that the power distribution control of the user's load device is not affected by the physical layer. The restrictions increase the flexibility of on-site construction.

Claims (11)

1. A method for controlling power consumption of a communication power source, comprising:

   Obtain user code information of the user to be distributed;

   Determining, according to a pre-established association relationship between the user code information and the power distribution unit of the communication power source, a power distribution unit associated with the user code information of the user to be power-distributed;

   Performing power distribution control on the power distribution user according to the determined power distribution unit.
2. The power control method of the communication power source according to claim 1, wherein the user code information of the user to be distributed is determined according to the association relationship between the user code information and the power distribution unit of the communication power source Before the step of the associated power distribution unit, the power control method further includes:

   Establishing an association relationship between the user code information of the user served by the communication power source and the power distribution unit of the communication power source according to the power attribute information of the user served by the communication power source, wherein the power attribute information includes the user Distance information with a power distribution unit of the communication power source and/or user's power load information.
3. The power control method of the communication power supply according to claim 1, wherein the step of performing power distribution control on the power distribution user according to the determined power distribution unit comprises:

   And the determined power distribution unit is configured to be powered by the power distribution unit.
4. The method for controlling the power consumption of the communication power supply according to claim 1, after the step of acquiring the user code information of the user to be distributed, the method further includes:

   Acquiring the user identification information of the user served by the communication power source, where the user identification information includes: the user code information of the user and preset power source attribute information of the communication power source served by the user.
5. The method for controlling the power consumption of the communication power supply according to claim 4, after the step of acquiring the user identification information of the user served by the communication power source, the method further includes:

   Obtaining the power consumption of the user who has the same user code information among the users served by each communication power source within a preset time period;

   The user identifier information that meets the first preset condition is filtered according to the preset power source attribute information and the user code information in the user identifier information, where the user identifier information that meets the first preset condition is the first power source. Attribute information and user identification information of the first user coded information;

   And obtaining, according to the power consumption of the user having the same user code information in the user serviced by the communication power source, the power consumption of the user corresponding to the filtered user identification information within the preset time period .
6. The power control method of the communication power supply according to claim 5, wherein the step of acquiring the power consumption of the user having the same user code information among the users served by each communication power source within a preset time period comprises:

   Detecting the magnitude of the user load current in the power distribution unit of each communication power source;

   Determining, according to the association relationship between the user code information and the power distribution unit of the communication power source, a size of a user load current corresponding to the same user code information among the users served by each communication power source;

   According to the preset duration, the user load current corresponding to the same user coded information among the users served by each communication power source is integrated, and the user having the same user code information among the users served by each communication power source is preset. The amount of electricity used during the duration.
7. The method for controlling the power consumption of the communication power supply according to claim 4, after the step of acquiring the user identification information of the user served by the communication power source, the method further includes:

   And performing power-off control processing on the user served by the communication power source according to the relationship between the user code information and the power distribution unit of the communication power source and the user identification information.
8. The power control method for a communication power source according to claim 7, wherein said communication power source is based on said association relationship between said user code information and a power distribution unit of said communication power source and said user identification information The steps for the service user to perform the power-off control process include:

   And filtering the user identifier information that meets the second preset condition according to the preset power source attribute information and the user code information in the user identifier information, where the identifier information that meets the second preset condition has the second power source attribute Information and user identification information of the second user coded information;

   Determining, according to the preset power attribute information in the filtered user identification information, a communication power source that needs to be powered off, and determining, according to the association relationship, the selected user identification information The power distribution unit to be powered down associated with the user code information;

   Controlling the communication power supply that needs to be powered down to power off the load on the to-be-powered control unit.
9. A power control device for a communication power source, comprising:

   a first acquiring module, configured to obtain user code information of a user to be distributed;

   a determining module, configured to determine, according to a relationship between the pre-established user code information and a power distribution unit of the communication power source, a power distribution unit associated with the user code information of the user to be power-distributed;

   The first control module is configured to perform power distribution control on the power distribution user according to the determined power distribution unit.
10. The power control device for a communication power supply according to claim 9, further comprising:

    Establishing a module, configured to establish, according to the power attribute information of the user served by the communication power source, an association relationship between the user code information of the user served by the communication power source and the power distribution unit of the communication power source, where the power is used The attribute information includes distance information between the user and the power distribution unit of the communication power source and/or user's power load information.
11. A power control device for a communication power source includes a plurality of power distribution units, each power distribution unit includes a first predetermined number of current metering components and a second predetermined number of circuit breakers, and the power control device further includes :

    The intelligent monitoring unit is configured to obtain user code information of the user to be distributed, and determine, according to the association relationship between the pre-established user code information and the power distribution unit of the communication power source, the user code information associated with the user to be distributed Power distribution unit;

    And a power distribution management unit, configured to perform power distribution control on the power distribution user according to the power distribution unit determined by the intelligent monitoring unit.

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