CN115967188B - Equipment remote control method, device and equipment based on power distribution unit - Google Patents

Abstract

The invention relates to the field of intelligent high-voltage direct-current PDUs, and discloses a device remote control method, a device and equipment based on a power distribution unit, wherein the method comprises the following steps: collecting equipment parameters of the access equipment when the access equipment is accessed to the power distribution unit, wherein the equipment parameters comprise current values, temperature values, equipment quantity and power switch states; determining the equipment type of the access equipment, and configuring a remote acquisition protocol of the access equipment by using the number of the equipment; identifying a remote communication grade of the access equipment, determining a remote alarm grade of the access equipment, measuring a current fluctuation range of the access equipment within a preset time, and determining a remote interference grade of the access equipment by using the current fluctuation range; constructing response control information of the access equipment, response alarm information of the access equipment, and response interference information of the access equipment by utilizing the remote interference level; and determining a device remote control result of the power distribution unit. The invention can improve the efficiency of safely supplying power to the equipment.

Description

Equipment remote control method, device and equipment based on power distribution unit

Technical Field

The invention relates to the field of intelligent high-voltage direct-current PDUs (Power distribution units), in particular to a device remote control method, a device and equipment based on a power distribution unit.

Background

The remote control of the equipment of the power distribution unit is that the power distribution unit monitors and feeds back the current and voltage of various terminal equipment in a machine room and a cabinet or in a power supply system in real time, and is used for helping operation and maintenance personnel to adjust the working states of various equipment in time, so that the reliability of the power supply system is improved and the electric energy is saved.

At present, with the rapid development of information technology, devices required to be used on an intelligent high-voltage direct-current PDU (power distribution unit) are rapidly increased, and meanwhile, devices carried on the same intelligent high-voltage direct-current PDU are more and more, so that requirements of the devices on safe power supply of the intelligent high-voltage direct-current PDU are also higher and more, however, the power supply detection data of the devices connected with the intelligent high-voltage direct-current PDU in the prior art are not comprehensive and detailed enough, so that the power supply efficiency of the intelligent high-voltage direct-current PDU to the devices is lower, and therefore, the safety power supply efficiency of the devices is insufficient due to the fact that the analysis of the power supply data of the devices of an intelligent high-voltage direct-current PDU system is not detailed enough.

Disclosure of Invention

In order to solve the problems, the invention provides a device remote control method, a device and equipment based on a power distribution unit, which can divide intelligent high-voltage direct-current PDU access equipment more finely, display dangerous power supply conditions possibly existing in the equipment in a hierarchical manner and improve the efficiency of safely supplying power to the equipment.

In a first aspect, the present invention provides a method for remotely controlling a device based on a power distribution unit, including:

acquiring a power distribution unit and corresponding access equipment which are constructed in the cloud in advance, and acquiring equipment parameters of the access equipment when the access equipment is accessed to the power distribution unit, wherein the equipment parameters comprise current values, temperature values, equipment quantity and power switch states;

determining the equipment type of the access equipment according to the current value, the temperature value and the equipment number, and configuring a remote acquisition protocol of the access equipment by utilizing the equipment number;

identifying a remote communication grade of the access equipment by utilizing the remote acquisition protocol according to the power switch state, determining a remote alarm grade of the access equipment by utilizing the equipment type, measuring a current fluctuation range of the access equipment within a preset time, and determining a remote interference grade of the access equipment by utilizing the current fluctuation range;

constructing response control information of the access device by using the remote communication grade in the power distribution unit, constructing response alarm information of the access device by using the remote alarm grade in the power distribution unit, and constructing response interference information of the access device by using the remote interference grade in the power distribution unit;

And determining a remote control result of the equipment of the power distribution unit according to the response control information, the response alarm information and the response interference information.

In a possible implementation manner of the first aspect, the collecting device parameters of the access device when accessing the power distribution unit includes:

collecting the high and low levels and the corresponding duration time of the access equipment, and determining the power supply effect of the access equipment;

configuring a parameter acquisition device of the access equipment by utilizing the power supply effect;

and acquiring equipment parameters of the access equipment when the power distribution unit is accessed according to the high and low levels and the corresponding duration time and the parameter acquisition device.

In a possible implementation manner of the first aspect, the determining a device type of the access device according to the current value, the temperature value and the device number includes:

inquiring the current value, the temperature value and the current range, the temperature range and the equipment range corresponding to the equipment number respectively;

determining the device type of the access device according to the current range, the temperature range and the device range by using the following formula: electric= { "

，/>

，/>

"}; wherein electric indicates the device type of the access device, < >>

Representing the number of devices->

Representing the range of the device, i.e. +.>

，/>

Representing the current value,/->

Indicating the temperature range, i.e. +.>

，/>

Representing the temperature value,/->

Indicating the temperature range, i.e. +.>

。

In a possible implementation manner of the first aspect, the identifying, according to the power switch state, a remote communication class of the access device using the remote acquisition protocol includes:

when the power switch state accords with a preset switch state, identifying the protocol type of the remote acquisition protocol;

and determining the remote communication grade of the access equipment according to the protocol class.

In a possible implementation manner of the first aspect, the determining, by using the device type, a remote alarm level of the access device includes:

identifying a current risk level of the access device using the device type;

and determining the remote alarm level of the access equipment according to the current risk level.

In a possible implementation manner of the first aspect, the constructing, in the power distribution unit, response control information of the access device using the remote communication level includes:

Configuring a data display area of the access device in the power distribution unit according to the telecommunication level;

constructing response control information of the access device in the data display area using the following format: data= { "PDU": [ ], "I": [ ], "t": [ ], "agreement": [ ]; wherein, data represents response control information of the access device, PDU represents device name and number of devices, PDU represents number of devices, I represents current value, t represents temperature, t represents time value, agreement represents remote acquisition protocol, and agreement represents name of remote acquisition protocol.

In a possible implementation manner of the first aspect, the constructing, in the power distribution unit, response alarm information of the access device using the remote alarm level includes:

according to the remote alarm level, an alarm display popup window of the access equipment and a popup window release authority corresponding to the alarm display popup window are constructed in a user terminal of the power distribution unit;

Inquiring equipment alarm data corresponding to the remote alarm level;

and determining response alarm information of the access equipment according to the alarm display popup window, the popup window release authority and the equipment alarm data.

In a second aspect, the present invention provides a remote control device for a device based on a power distribution unit, the device comprising:

the equipment parameter acquisition module is used for acquiring a power distribution unit and corresponding access equipment which are constructed in the cloud in advance, and acquiring equipment parameters of the access equipment when the access equipment is accessed to the power distribution unit, wherein the equipment parameters comprise current values, temperature values, equipment quantity and power switch states;

the remote protocol configuration module is used for determining the equipment type of the access equipment according to the current value, the temperature value and the equipment number, and configuring a remote acquisition protocol of the access equipment by utilizing the equipment number;

the interference level determining module is used for identifying the remote communication level of the access equipment by utilizing the remote acquisition protocol according to the power switch state, determining the remote alarm level of the access equipment by utilizing the equipment type, measuring the current fluctuation range of the access equipment within preset time, and determining the remote interference level of the access equipment by utilizing the current fluctuation range;

And the response information construction module is used for constructing response control information of the access equipment by utilizing the remote communication grade in the power distribution unit, constructing response alarm information of the access equipment by utilizing the remote alarm grade in the power distribution unit, and constructing response interference information of the access equipment by utilizing the remote interference grade in the power distribution unit.

And the control result determining module is used for determining the equipment remote control result of the power distribution unit according to the response control information, the response alarm information and the response interference information.

In a third aspect, the present invention provides an electronic device comprising:

at least one processor; and a memory communicatively coupled to the at least one processor;

wherein the memory stores a computer program executable by the at least one processor to enable the at least one processor to perform the power distribution unit based device remote control method of any one of the first aspects above.

In a fourth aspect, the present invention provides a computer-readable storage medium storing a computer program which, when executed by a processor, implements the power distribution unit-based device remote control method according to any one of the first aspects above.

Compared with the prior art, the technical principle and beneficial effect of this scheme lie in:

the embodiment of the invention firstly carries out remote power supply safety control on the access equipment by acquiring a power distribution unit and corresponding access equipment which are constructed in advance at a cloud end, further, the embodiment of the invention adopts a communication mode of corresponding acquisition equipment data for different types of equipment by acquiring equipment parameters of the access equipment when the access equipment is accessed to the power distribution unit, is used for carefully dividing the equipment data of the access equipment, determines the equipment type of the access equipment by utilizing the current value, the temperature value and the equipment quantity, is used for dynamically distributing a current mode according to the accessed equipment type, carries out power supply distribution on the data by utilizing a follow-up intelligent high-voltage direct-current PDU (protocol) server, further, the embodiment of the invention adopts a communication mode of corresponding acquisition equipment data for different types of equipment, improves the efficiency of sending data to an intelligent high-voltage direct-current PDU server according to the equipment type and quantity of the access equipment, and further ensures the access equipment priority by utilizing the remote acquisition protocol after the remote equipment is used for the access equipment is used for carrying out the remote control of the access equipment, the embodiment of the invention further carries out the remote power supply safety control on the access equipment by utilizing the corresponding equipment type of the remote acquisition equipment, and the alarm equipment is used for sending alarm data according to the priority after the remote access equipment is used for the priority of the remote equipment, further, the embodiment of the invention is used for determining the priority of processing the access equipment by measuring the current fluctuation range of the access equipment within the preset time and is used for paving the priority of processing the access equipment by utilizing the current fluctuation range, further, the embodiment of the invention is used for identifying whether the access equipment is subjected to external interference or not by utilizing the current fluctuation range and guaranteeing the subsequent monitoring of the abnormal condition of the access equipment by utilizing the current fluctuation range, and the embodiment of the invention is used for improving the efficiency of checking the power supply information by utilizing the remote alarm grade to display the response control information of the access equipment in different modes in the power distribution unit and further, the embodiment of the invention is used for guaranteeing the safety power supply of the access equipment by utilizing the remote alarm grade to construct the response alarm information of the access equipment in the power distribution unit and guaranteeing the safety power supply of the access equipment. Therefore, the device remote control method, the device and the equipment based on the power distribution unit can divide the access equipment of the intelligent high-voltage direct-current PDU more finely, display dangerous power supply conditions possibly existing in the equipment in a hierarchical manner, and improve the efficiency of safely supplying power to the equipment.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, and it will be obvious to a person skilled in the art that other drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic flow chart of a method for remotely controlling a device based on a power distribution unit according to an embodiment of the present invention;

FIG. 2 is a flowchart illustrating one of the steps of a remote control method for a power distribution unit-based device according to the embodiment of the present invention;

FIG. 3 is a flowchart illustrating another step of the remote control method for the power distribution unit-based device of FIG. 1 according to an embodiment of the present invention;

fig. 4 is a schematic block diagram of a remote control device for a device based on a power distribution unit according to an embodiment of the present invention;

fig. 5 is a schematic diagram of an internal structure of an electronic device for implementing a device remote control method based on a power distribution unit according to an embodiment of the present invention.

Detailed Description

It should be understood that the detailed description is presented by way of example only and is not intended to limit the invention.

The embodiment of the invention provides a device remote control method based on a power distribution unit, and an execution subject of the device remote control method based on the power distribution unit comprises, but is not limited to, at least one of a server, a terminal and the like, which can be configured to execute the device remote control method provided by the embodiment of the invention. In other words, the device remote control method based on the power distribution unit may be performed by software or hardware installed in the terminal device or the server device, and the software may be a blockchain platform. The service end includes but is not limited to: a single server, a server cluster, a cloud server or a cloud server cluster, and the like. The server may be an independent server, or may be a cloud server that provides cloud services, cloud databases, cloud computing, cloud functions, cloud storage, network services, cloud communications, middleware services, domain name services, security services, content delivery networks (Content Delivery Network, CDN), and basic cloud computing services such as big data and artificial intelligence platforms.

Fig. 1 is a schematic flow chart of a method for remotely controlling a device based on a power distribution unit according to an embodiment of the invention. The remote control method of the device based on the power distribution unit depicted in fig. 1 comprises the following steps:

s1, acquiring a power distribution unit and corresponding access equipment which are constructed in the cloud in advance, and acquiring equipment parameters of the access equipment when the access equipment is accessed to the power distribution unit, wherein the equipment parameters comprise current values, temperature values, equipment quantity and power switch states.

According to the embodiment of the invention, the power distribution unit and the corresponding access equipment which are constructed in the cloud in advance are obtained, so that the power distribution unit is used for controlling the remote power supply safety of the access equipment. The power distribution unit constructed in the cloud in advance refers to a cloud server module and a user terminal module of the power distribution unit constructed in the cloud in advance, wherein the server is used for remotely controlling the access equipment, the user terminal is used for displaying remote control results to responsible personnel, the power distribution unit refers to intelligent high-voltage direct current (Power Distribution Unit) and PDU (protocol data unit), the PDU is a power distribution socket for a cabinet, the PDU is a product designed for providing power distribution for electrical equipment installed in the cabinet, and the power distribution unit has various series specifications of different functions, installation modes and different plug-in position combinations and can provide a proper rack-type power distribution solution for different power supply environments. The access equipment refers to various terminal equipment such as a machine room, the interior of a cabinet and the like, for example, a refrigerator, an air conditioner, an intelligent photo frame and the like.

Further, the embodiment of the invention is used for finely dividing the device data of the access device by collecting the device parameters of the access device when the access device is accessed to the power distribution unit. The device parameters comprise a current value, a temperature value, a device number and a power switch state, wherein the device number refers to the number of devices connected into the power distribution unit, and the power switch state comprises an on state and an off state.

In an embodiment of the present invention, referring to fig. 2, the collecting device parameters of the access device when accessing the power distribution unit includes:

s201, collecting the high and low levels and the corresponding duration time of the access equipment, and determining the power supply effect of the access equipment;

s202, configuring a parameter acquisition device of the access equipment by utilizing the power supply effect;

s203, acquiring equipment parameters of the access equipment when the power distribution unit is accessed according to the high and low levels and the corresponding duration time and the parameter acquisition device.

The high-low level includes a high level and a low level, the duration refers to a duration of the high level and a duration of the low level, the power supply effect refers to a result of receiving power supply of the device after the power is supplied to the access device, that is, the power is converted from no power to power, for example, a current value and a temperature value of the device, the parameter acquisition device refers to a device for acquiring data of the power supply effect, for example, a current sensor for acquiring a current value and a temperature sensor for acquiring a temperature value, and optionally, the acquisition of the number of devices in the device parameter can be determined by identifying the number of pins of the device when the power distribution unit is connected.

S2, determining the equipment type of the access equipment according to the current value, the temperature value and the equipment number, and configuring a remote acquisition protocol of the access equipment by utilizing the equipment number.

According to the embodiment of the invention, the equipment type of the access equipment is determined according to the current value, the temperature value and the equipment number, so that a current mode is dynamically allocated according to the accessed equipment type, and the power supply allocation of the data is carried out for the follow-up connection of the intelligent high-voltage direct-current PDU cloud server.

Wherein the device types include a high current device mode type, a medium current device mode type, and a low current device mode type, for example, the high current device mode type is: the number of the equipment is more than 10, the current value is more than 30mA/ms, and the temperature value is more than 60 ℃; the medium current device mode type is: the number of the devices ranges from 5 to 10 (unit: number), the current value is more than or equal to 10 and less than 30 (unit: mA/ms), and the temperature value is more than or equal to 30 and less than 60 (unit: DEG C); the low current device mode types are: the number of the devices ranges from 0 to 5 (unit: number), the current value is more than or equal to 0 and less than 10 (unit: mA/ms), and the temperature value is more than or equal to 0 and less than 30 (unit: DEG C).

In an embodiment of the present invention, the determining the device type of the access device according to the current value, the temperature value and the device number includes: inquiring the current value, the temperature value and the current range, the temperature range and the equipment range corresponding to the equipment number respectively; determining the device type of the access device according to the current range, the temperature range and the device range by using the following formula: electric= { "

，

，/>

"}; wherein electric indicates the device type of the access device, < >>

Representing the number of devices->

Representing the range of the device, i.e. +.>

，/>

Representing the current value,/->

Indicating the temperature range, i.e. +.>

，/>

Representing the temperature value,/->

Indicating the temperature range, i.e

。

Further, in the embodiment of the invention, the remote acquisition protocol of the access device is configured by using the number of devices, so that a corresponding communication mode for acquiring device data is adopted for different types of devices, and the efficiency of transmitting data to the intelligent high-voltage direct-current PDU cloud server is improved according to the type and the number of the accessed devices. The remote acquisition protocol is a data communication protocol for submitting power supply data of the access device to the power supply distribution unit, and comprises a wired connection protocol and a wireless connection protocol, wherein the wired connection protocol comprises a WiFi protocol and a Bluetooth protocol, and the wireless connection protocol comprises a TCP/IP protocol and an RS485 protocol.

In an embodiment of the invention, the configuring the remote acquisition protocol of the access device by using the number of devices is implemented by querying a number class of the number of devices.

Illustratively, when the number of the devices is greater than 20, a WiFi protocol (IEEE 802.11, transmission by radio waves in the 5GHz band) is selected, and a transmission frequency is set to 32 bits/ms (one signal wave contains 32 bits of information); when the number of the devices is between 10 and 20 (including 20), selecting a Bluetooth protocol (Bluetooth is adopted for 5.0), and setting the transmission frequency to be 24 bits/ms (one signal wave includes 16 bits of information); when the number of the devices is between 5 and 10, selecting a TCP/IP protocol, and setting the transmission frequency to be 16 bits/ms (one signal wave contains 16 bits of information); when the number of the devices is on the order of 0 to 5 (including 5), the RS485 protocol is selected, and the transmission frequency is set to 8 bits/ms (one signal wave includes 8 bits of information).

And S3, identifying the remote communication grade of the access equipment by using the remote acquisition protocol according to the power switch state, determining the remote alarm grade of the access equipment by using the equipment type, measuring the current fluctuation range of the access equipment within preset time, and determining the remote interference grade of the access equipment by using the current fluctuation range.

According to the embodiment of the invention, the remote communication grade of the access equipment is identified by utilizing the remote acquisition protocol according to the power switch state, so that after various data of the equipment are analyzed, the corresponding priority is given, and the subsequent remote control of the access equipment by utilizing the corresponding priority is ensured. The remote communication grade refers to the priority of the device data of the access device, and the priority comprises priority A, priority B and priority C.

In one embodiment of the present invention, referring to fig. 3, the identifying, according to the power switch status, the remote communication level of the access device using the remote acquisition protocol includes:

s301, when the power switch state accords with a preset switch state, identifying the protocol type of the remote acquisition protocol;

s302, determining the remote communication grade of the access equipment according to the protocol type.

The protocol type of the remote acquisition protocol is identified as a WiFi protocol, the protocol type of the remote acquisition protocol is identified as a bluetooth protocol, the protocol type of the remote acquisition protocol is identified as a B, and the protocol type of the remote acquisition protocol is identified as a TCP/IP protocol, the protocol type of the remote acquisition protocol is identified as a C.

Further, the embodiment of the invention determines the remote alarm level of the access equipment by utilizing the equipment type, so as to send alarm information to the power supply safety problem of the access equipment in the power supply distribution unit in time according to the acquired equipment data. The remote alarm level is to determine the priority of alarm when the power supply of the equipment is at risk in the power supply distribution unit according to the power consumption level of the equipment, and the priority includes priority A, priority B and alarm-free processing.

In one embodiment of the present invention, the determining the remote alarm level of the access device by using the device type includes: identifying a current risk level of the access device using the device type; and determining the remote alarm level of the access equipment according to the current risk level.

When the device type is a high-current device mode type, judging that the corresponding current risk level is the highest, and the priority is A; when the equipment type is a medium current equipment mode type, judging that the corresponding current risk level is higher, and the priority is B; when the equipment type is a low-current equipment mode type, judging that the corresponding current risk level is lower, and not performing alarm processing.

Further, the embodiment of the invention is used for making a cushion for determining the priority of the access equipment processing for the subsequent utilization of the current fluctuation range by measuring the current fluctuation range of the access equipment within the preset time. The current fluctuation range refers to the amplitude of the current of the access device, which is converted in the preset time.

In an embodiment of the present invention, the measuring the current fluctuation range of the access device within the preset time is implemented by using a timer and a current sensor.

Further, the embodiment of the invention determines the remote interference level of the access equipment by utilizing the current fluctuation range, so as to be used for identifying whether the access equipment is interfered by the outside or not by utilizing the current fluctuation range, and guaranteeing the subsequent monitoring of the abnormal condition of the access equipment. The remote interference level refers to a level of priority processing on the device under the condition that the device is interfered by the device determined by the change amplitude of the current of the access device, and the remote interference level comprises priority A and priority B.

Optionally, the determining the remote interference level of the access device using the current fluctuation range may be: when the current fluctuation range is greater than 40mA, the priority is a, and when the current fluctuation range is greater than 20mA and not greater than 40mA, the priority is B, for example, in normal case: the current value of 5mA passes 10s, and the value is stabilized at 5mA; abnormal conditions: the priority is B when the current value 5mA passes 10 seconds and the value rises to 30mA, and the priority is a when the current value 5mA passes 10 seconds and the value rises to 50 mA.

S4, constructing response control information of the access equipment by utilizing the remote communication grade in the power distribution unit, constructing response alarm information of the access equipment by utilizing the remote alarm grade in the power distribution unit, and constructing response interference information of the access equipment by utilizing the remote interference grade in the power distribution unit.

According to the embodiment of the invention, the response control information of the access equipment is constructed by utilizing the remote communication grade in the power distribution unit so as to be used for displaying the equipment data information of the access equipment in different modes, thereby improving the efficiency of checking the power supply information. The response control information is information for displaying the device data of the access device in the terminal PAD of the power distribution unit according to the detected power supply security level of the access device, wherein the display modes of the device data corresponding to different remote communication levels in the terminal PAD are different.

In one embodiment of the present invention, said constructing, in said power distribution unit, response control information of said access device using said telecommunication level includes: configuring a data display area of the access device in the power distribution unit according to the telecommunication level; constructing response control information of the access device in the data display area using the following format: data= { "PDU": [ ], "I": [ ], "t": [ ], "agreement": [ ]; wherein, data represents response control information of the access device, PDU represents device name and number of devices, PDU represents number of devices, I represents current value, t represents temperature, t represents time value, agreement represents remote acquisition protocol, and agreement represents name of remote acquisition protocol.

Optionally, the configuring the data display area of the access device in the power distribution unit according to the remote communication level may be: assuming that the control information is stored in a list, when the priority is A, the control information is displayed in a red area (the uppermost part of a placement list) of a terminal PAD control information list; when the priority is B, displaying an orange area (below a red area of a placement list) of the PAD control information list of the terminal; when the priority is C, displaying a blue area (below an orange area of a placement list) of the PAD control information list of the terminal; the constructing the response control information of the access device in the data display area may be:

data1 (X1) = { "PDU1": "21 refrigerators", "current": "45mA/ms", "temperature": "70 ℃", "protocol": "WiFi protocol" }// red area

Data2 (X1) = { "PDU2": "11 air conditioners", "current": "34mA/ms", "temperature": "63 ℃", "protocol": "Bluetooth protocol" }// orange zone)

Data3 (X1) = { "PDU3": "8 intelligent photo frames", "current": "25mA/ms", "temperature": "36 ℃" }// blue area

Further, the embodiment of the invention constructs the response alarm information of the access equipment by utilizing the remote alarm grade in the power distribution unit so as to be used for timely sending out alarm response and guaranteeing the safe power supply of the access equipment. The response alarm information is alarm information which is sent by the user side and used for reminding responsible personnel.

In one embodiment of the present invention, the constructing, in the power distribution unit, response alarm information of the access device using the remote alarm level includes: according to the remote alarm level, an alarm display popup window of the access equipment and a popup window release authority corresponding to the alarm display popup window are constructed in a user terminal of the power distribution unit; inquiring equipment alarm data corresponding to the remote alarm level; and determining response alarm information of the access equipment according to the alarm display popup window, the popup window release authority and the equipment alarm data.

Wherein the device alarm data refers to data required in constructing the remote alarm level, such as the device type. Illustratively, when the remote alarm level is priority a, the terminal PAD jumps out of the pop-up window to display: a primary alert (displayed at the top of the page, requiring the user to click the "ok" button to deactivate the alert); when the remote alarm level is priority B, the terminal PAD jumps out of the popup window to display: a secondary alarm (shown below the primary alarm, requiring the user to click the "ok" button to deactivate the alarm).

Further, the embodiment of the invention constructs the response interference information of the access equipment by utilizing the remote interference level in the power distribution unit so as to be used for timely sending an alarm response when the access equipment is interfered, thereby guaranteeing the safe power supply of the access equipment. The response interference information refers to information which is sent to a user side and used for reminding responsible personnel when the access equipment is interfered.

In an embodiment of the present invention, the constructing, in the power distribution unit, response interference information of the access device using the remote interference level includes: according to the remote interference level, constructing dynamic response decibels and dynamic response time of the access equipment in the user terminal of the power distribution unit; and taking the dynamic response decibel and the dynamic response time as response interference information of the access equipment.

Wherein, the user terminal refers to a terminal PAD of the power distribution unit. Illustratively, when the remote interference level is priority a, terminal PAD sounds a bell alert at a high frequency (sound increases by one db every 5 ms); and when the remote interference level is priority B, the terminal PAD alarms with a ringing frequency (sound is increased by one decibel every 10 ms).

S5, determining a remote control result of the equipment of the power distribution unit according to the response control information, the response alarm information and the response interference information.

According to the embodiment of the invention, the device remote control result of the power distribution unit is determined according to the response control information, the response alarm information and the response interference information, so that the notification efficiency of the remote monitoring result of the power supply safety of the access device is improved. The remote control result of the device is a combined result of the response control information, the response alarm information and the response interference information, which are displayed to the relevant responsible person in a terminal PAD of the power distribution unit.

It can be seen that, in the embodiment of the present invention, firstly, by obtaining a power distribution unit and a corresponding access device constructed in advance in a cloud end, so as to perform remote power supply security control on the access device by using the power distribution unit, further, in the embodiment of the present invention, by collecting device parameters of the access device when accessing the power distribution unit, so as to carefully divide the device data of the access device, in the embodiment of the present invention, by determining a device type of the access device according to the current value, the temperature value and the device number, so as to dynamically distribute a current mode according to the accessed device type, perform power supply distribution on data by using a subsequent connection intelligent high voltage direct current PDU server, further, in the embodiment of the present invention, by configuring a remote acquisition protocol of the access device by using the device number, so as to use a communication mode of corresponding acquisition device data for different types of devices, according to the type and number of the access device, in the embodiment of the present invention, by determining a device type of the access device according to the current switch state, by using the remote control protocol, sending alarm information by using the remote control device to the remote control device according to the remote access device type, in order to implement the remote power supply security control priority, and then, in the embodiment of the present invention, the remote acquisition protocol is further, by using the remote control device of the remote control device according to the type of the access device, further, the embodiment of the invention is used for determining the priority of processing the access equipment by measuring the current fluctuation range of the access equipment within the preset time and is used for paving the priority of processing the access equipment by utilizing the current fluctuation range, further, the embodiment of the invention is used for identifying whether the access equipment is subjected to external interference or not by utilizing the current fluctuation range and guaranteeing the subsequent monitoring of the abnormal condition of the access equipment by utilizing the current fluctuation range, and the embodiment of the invention is used for improving the efficiency of checking the power supply information by utilizing the remote alarm grade to display the response control information of the access equipment in different modes in the power distribution unit and further, the embodiment of the invention is used for guaranteeing the safety power supply of the access equipment by utilizing the remote alarm grade to construct the response alarm information of the access equipment in the power distribution unit and guaranteeing the safety power supply of the access equipment. Therefore, the device remote control method based on the power distribution unit can divide the access devices of the intelligent high-voltage direct-current PDU more finely, display dangerous power supply conditions possibly existing in the devices in a hierarchical manner, and improve the efficiency of safely supplying power to the devices.

As shown in fig. 4, a functional block diagram of the remote control device of the power distribution unit-based apparatus of the present invention is shown.

The remote control device 400 for a power distribution unit-based apparatus according to the present invention may be installed in an electronic apparatus. The remote control device for a device based on a power distribution unit may include a device parameter acquisition module 401, a remote protocol configuration module 402, an interference level determination module 403, a response information construction module 404, and a control result determination module 405, according to the implemented functions. The module of the invention, which may also be referred to as a unit, refers to a series of computer program segments, which are stored in the memory of the electronic device, capable of being executed by the processor of the electronic device and of performing a fixed function.

In the embodiment of the present invention, the functions of each module/unit are as follows:

the device parameter collection module 401 is configured to obtain a power distribution unit and a corresponding access device thereof, which are previously built in the cloud, and collect device parameters of the access device when the access device is connected to the power distribution unit, where the device parameters include a current value, a temperature value, the number of devices, and a power switch state.

The remote protocol configuration module 402 is configured to determine a device type of the access device according to the current value, the temperature value and the device number, and configure a remote acquisition protocol of the access device using the device number.

The interference level determining module 403 is configured to identify, according to the power switch state, a remote communication level of the access device using the remote acquisition protocol, determine a remote alarm level of the access device using the device type, measure a current fluctuation range of the access device within a preset time, and determine the remote interference level of the access device using the current fluctuation range.

The response information construction module 404 is configured to construct response control information of the access device using the remote communication level in the power distribution unit, construct response alarm information of the access device using the remote alarm level in the power distribution unit, and construct response interference information of the access device using the remote interference level in the power distribution unit.

The control result determining module 405 is configured to determine a device remote control result of the power distribution unit according to the response control information, the response alarm information, and the response interference information.

In detail, the modules in the remote control device 400 for a power distribution unit-based apparatus in the embodiment of the present invention use the same technical means as the remote control method for a power distribution unit-based apparatus described in fig. 1 to 3, and can produce the same technical effects, which are not described herein.

Fig. 5 is a schematic structural diagram of an electronic device according to the present invention for implementing a device remote control method based on a power distribution unit.

The electronic device may comprise a processor 50, a memory 51, a communication bus 52 and a communication interface 53, and may further comprise a computer program stored in the memory 51 and executable on the processor 50, such as a device remote control program based on a power distribution unit.

The processor 50 may be formed by an integrated circuit in some embodiments, for example, a single packaged integrated circuit, or may be formed by a plurality of integrated circuits packaged with the same function or different functions, including one or more central processing units (Central Processing unit, CPU), a microprocessor, a digital processing chip, a graphics processor, a combination of various control chips, and so on. The processor 50 is a Control Unit (Control Unit) of the electronic device, connects various components of the entire electronic device using various interfaces and lines, executes programs or modules stored in the memory 51 (for example, executes a device remote Control program based on a power distribution Unit, etc.), and invokes data stored in the memory 51 to perform various functions of the electronic device and process data.

The memory 51 includes at least one type of readable storage medium including flash memory, a removable hard disk, a multimedia card, a card type memory (e.g., SD or DX memory, etc.), a magnetic memory, a magnetic disk, an optical disk, etc. The memory 51 may in some embodiments be an internal storage unit of the electronic device, such as a mobile hard disk of the electronic device. The memory 51 may also be an external storage device of the electronic device in other embodiments, for example, a plug-in mobile hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card) or the like. Further, the memory 51 may also include both an internal storage unit and an external storage device of the electronic device. The memory 51 may be used not only for storing application software installed in an electronic device and various types of data, such as codes of a database-configured connection program, but also for temporarily storing data that has been output or is to be output.

The communication bus 52 may be a peripheral component interconnect standard (peripheral component interconnect, PCI) bus, or an extended industry standard architecture (extended industry standard architecture, EISA) bus, among others. The bus may be classified as an address bus, a data bus, a control bus, etc. The bus is arranged to enable a connection communication between the memory 51 and at least one processor 50 etc.

The communication interface 53 is used for communication between the electronic device 5 and other devices, including a network interface and a user interface. Optionally, the network interface may include a wired interface and/or a wireless interface (e.g., WI-FI interface, bluetooth interface, etc.), typically used to establish a communication connection between the electronic device and other electronic devices. The user interface may be a Display (Display), an input unit such as a Keyboard (Keyboard), or alternatively a standard wired interface, a wireless interface. Alternatively, in some embodiments, the display may be an LED display, a liquid crystal display, a touch-sensitive liquid crystal display, an OLED (Organic Light-Emitting Diode) touch, or the like. The display may also be referred to as a display screen or display unit, as appropriate, for displaying information processed in the electronic device and for displaying a visual user interface.

Fig. 5 shows only an electronic device with components, and it will be understood by those skilled in the art that the structure shown in fig. 5 is not limiting of the electronic device and may include fewer or more components than shown, or may combine certain components, or a different arrangement of components.

For example, although not shown, the electronic device may further include a power source (such as a battery) for supplying power to the respective components, and the power source may be logically connected to the at least one processor 50 through a power management device, so that functions of charge management, discharge management, and power consumption management are implemented through the power management device. The power supply may also include one or more of any of a direct current or alternating current power supply, recharging device, power failure detection circuit, power converter or inverter, power status indicator, etc. The electronic device may further include various sensors, bluetooth modules, wi-Fi modules, etc., which are not described herein.

It should be understood that the embodiments described are for illustrative purposes only and are not limited in scope by this configuration.

The database-configured connection program stored in the memory 51 in the electronic device is a combination of a plurality of computer programs, which, when run in the processor 50, can implement:

acquiring a power distribution unit and corresponding access equipment which are constructed in the cloud in advance, and acquiring equipment parameters of the access equipment when the access equipment is accessed to the power distribution unit, wherein the equipment parameters comprise current values, temperature values, equipment quantity and power switch states;

Determining the equipment type of the access equipment according to the current value, the temperature value and the equipment number, and configuring a remote acquisition protocol of the access equipment by utilizing the equipment number;

identifying a remote communication grade of the access equipment by utilizing the remote acquisition protocol according to the power switch state, determining a remote alarm grade of the access equipment by utilizing the equipment type, measuring a current fluctuation range of the access equipment within a preset time, and determining a remote interference grade of the access equipment by utilizing the current fluctuation range;

constructing response control information of the access device by using the remote communication grade in the power distribution unit, constructing response alarm information of the access device by using the remote alarm grade in the power distribution unit, and constructing response interference information of the access device by using the remote interference grade in the power distribution unit;

and determining a remote control result of the equipment of the power distribution unit according to the response control information, the response alarm information and the response interference information.

In particular, the specific implementation method of the processor 50 on the computer program may refer to the description of the relevant steps in the corresponding embodiment of fig. 1, which is not repeated herein.

Further, the electronic device integrated modules/units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a non-volatile computer readable storage medium. The storage medium may be volatile or nonvolatile. For example, the computer readable medium may include: any entity or device capable of carrying the computer program code, a recording medium, a U disk, a removable hard disk, a magnetic disk, an optical disk, a computer Memory, a Read-Only Memory (ROM).

The present invention also provides a storage medium storing a computer program which, when executed by a processor of an electronic device, can implement:

acquiring a power distribution unit and corresponding access equipment which are constructed in the cloud in advance, and acquiring equipment parameters of the access equipment when the access equipment is accessed to the power distribution unit, wherein the equipment parameters comprise current values, temperature values, equipment quantity and power switch states;

determining the equipment type of the access equipment according to the current value, the temperature value and the equipment number, and configuring a remote acquisition protocol of the access equipment by utilizing the equipment number;

Identifying a remote communication grade of the access equipment by utilizing the remote acquisition protocol according to the power switch state, determining a remote alarm grade of the access equipment by utilizing the equipment type, measuring a current fluctuation range of the access equipment within a preset time, and determining a remote interference grade of the access equipment by utilizing the current fluctuation range;

constructing response control information of the access device by using the remote communication grade in the power distribution unit, constructing response alarm information of the access device by using the remote alarm grade in the power distribution unit, and constructing response interference information of the access device by using the remote interference grade in the power distribution unit;

and determining a remote control result of the equipment of the power distribution unit according to the response control information, the response alarm information and the response interference information.

In the several embodiments provided in the present invention, it should be understood that the disclosed apparatus, device and method may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules is merely a logical function division, and there may be other manners of division when actually implemented.

The modules described as separate components may or may not be physically separate, and components shown as modules may or may not be physical units, may be located in one place, or may be distributed over multiple network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional module in the embodiments of the present invention may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit. The integrated units can be realized in a form of hardware or a form of hardware and a form of software functional modules.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference signs in the claims shall not be construed as limiting the claim concerned.

It should be noted that in this document, relational terms such as "first" and "second" and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing is only a specific embodiment of the invention to enable those skilled in the art to understand or practice the invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A method for remotely controlling a device based on a power distribution unit, the method comprising:

acquiring a power distribution unit and corresponding access equipment which are constructed in the cloud in advance, and acquiring equipment parameters of the access equipment when the access equipment is accessed to the power distribution unit, wherein the equipment parameters comprise current values, temperature values, equipment quantity and power switch states;

determining the equipment type of the access equipment according to the current value, the temperature value and the equipment number, and configuring a remote acquisition protocol of the access equipment by utilizing the equipment number;

identifying a remote communication grade of the access equipment by utilizing the remote acquisition protocol according to the power switch state, determining a remote alarm grade of the access equipment by utilizing the equipment type, measuring a current fluctuation range of the access equipment within a preset time, and determining a remote interference grade of the access equipment by utilizing the current fluctuation range;

constructing response control information of the access device by using the remote communication grade in the power distribution unit, constructing response alarm information of the access device by using the remote alarm grade in the power distribution unit, and constructing response interference information of the access device by using the remote interference grade in the power distribution unit;

And determining a remote control result of the equipment of the power distribution unit according to the response control information, the response alarm information and the response interference information.

2. The method of claim 1, wherein the acquiring device parameters of the access device when accessing the power distribution unit comprises:

collecting the high and low levels and the corresponding duration time of the access equipment, and determining the power supply effect of the access equipment;

configuring a parameter acquisition device of the access equipment by utilizing the power supply effect;

and acquiring equipment parameters of the access equipment when the power distribution unit is accessed according to the high and low levels and the corresponding duration time and the parameter acquisition device.

3. The method of claim 1, wherein the determining the device type of the access device based on the current value, the temperature value, and the device number comprises:

inquiring the current value, the temperature value and the current range, the temperature range and the equipment range corresponding to the equipment number respectively;

determining the device type of the access device according to the current range, the temperature range and the device range by using the following formula: electric= { "

，/>

，/>

"}; wherein electric indicates the device type of the access device, < >>

Representing the number of devices->

Representing the range of the device, i.e. +.>

，/>

Representing the current value,/->

Indicating the temperature range, i.e. +.>

，/>

Representing the temperature value,/->

Indicating the temperature range, i.e. +.>

。

4. The method of claim 1, wherein said identifying a telecommunications class of the access device using the remote acquisition protocol based on the power switch status comprises:

when the power switch state accords with a preset switch state, identifying the protocol type of the remote acquisition protocol;

and determining the remote communication grade of the access equipment according to the protocol class.

5. The method of claim 1, wherein said determining a remote alert level for said access device using said device type comprises:

identifying a current risk level of the access device using the device type;

and determining the remote alarm level of the access equipment according to the current risk level.

6. The method of claim 1, wherein said constructing, in said power distribution unit, response control information for said access device using said telecommunications class, comprises:

Configuring a data display area of the access device in the power distribution unit according to the telecommunication level;

constructing response control information of the access device in the data display area using the following format: data= { "PDU": [ ], "I": [ ], "t": [ ], "agreement": [ ]; wherein, data represents response control information of the access device, PDU represents device name and number of devices, PDU represents number of devices, I represents current value, t represents temperature, t represents time value, agreement represents remote acquisition protocol, and agreement represents name of remote acquisition protocol.

7. The method of claim 1, wherein said constructing, in said power distribution unit, response alarm information for said access device using said remote alarm level, comprises:

according to the remote alarm level, an alarm display popup window of the access equipment and a popup window release authority corresponding to the alarm display popup window are constructed in a user terminal of the power distribution unit;

Inquiring equipment alarm data corresponding to the remote alarm level;

and determining response alarm information of the access equipment according to the alarm display popup window, the popup window release authority and the equipment alarm data.

8. A device remote control apparatus based on a power distribution unit, the apparatus comprising:

the equipment parameter acquisition module is used for acquiring a power distribution unit and corresponding access equipment which are constructed in the cloud in advance, and acquiring equipment parameters of the access equipment when the access equipment is accessed to the power distribution unit, wherein the equipment parameters comprise current values, temperature values, equipment quantity and power switch states;

the remote protocol configuration module is used for determining the equipment type of the access equipment according to the current value, the temperature value and the equipment number, and configuring a remote acquisition protocol of the access equipment by utilizing the equipment number;

the interference level determining module is used for identifying the remote communication level of the access equipment by utilizing the remote acquisition protocol according to the power switch state, determining the remote alarm level of the access equipment by utilizing the equipment type, measuring the current fluctuation range of the access equipment within preset time, and determining the remote interference level of the access equipment by utilizing the current fluctuation range;

A response information construction module, configured to construct response control information of the access device using the remote communication level in the power distribution unit, construct response alarm information of the access device using the remote alarm level in the power distribution unit, and construct response interference information of the access device using the remote interference level in the power distribution unit;

and the control result determining module is used for determining the equipment remote control result of the power distribution unit according to the response control information, the response alarm information and the response interference information.

9. An electronic device, the electronic device comprising:

at least one processor; the method comprises the steps of,

a memory communicatively coupled to the at least one processor; wherein,,

the memory stores a computer program executable by the at least one processor to enable the at least one processor to perform the power distribution unit-based device remote control method according to any one of claims 1 to 7.

10. A computer-readable storage medium storing a computer program, wherein the computer program, when executed by a processor, implements the power distribution unit-based device remote control method according to any one of claims 1 to 7.

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