CN113867191A - Intelligent power control system, method and medium for terminal equipment - Google Patents

Abstract

The invention discloses an intelligent power control system, method and medium for terminal equipment, wherein the system comprises: the system comprises a power supply scheme configuration module, an uninterrupted power supply module and a pre-starting control module; the uninterrupted power supply module is connected with an upper electric control module and a lower electric control module; the power-off control module is provided with a power-off module; the power supply scheme configuration module is used for generating a power supply scheme; the power supply control module is used for acquiring the starting state of the terminal equipment and controlling the uninterruptible power supply module to execute intelligent power supply operation based on the power supply scheme and the starting state; the power-off control module is used for executing a pre-starting inquiry operation to obtain pre-starting time; the power-off control module also executes intelligent power-off operation based on the power-off module; the pre-starting control module executes pre-starting configuration operation based on the pre-starting time; the invention can flexibly adjust the optimal power supply mode according to the process condition of the terminal equipment, ensures that the output utilization rate of the power supply reaches the highest, and reduces the waste of power supply resources.

Description

Intelligent power control system, method and medium for terminal equipment

Technical Field

The invention relates to the technical field of power supply control of terminal equipment, in particular to an intelligent power supply control system, method and medium for the terminal equipment.

Background

In the prior art, the power supply scheme adopted by the self-service terminal equipment generally adopts a UPS power supply to carry out delay setting so as to automatically control the power-on and power-off of the self-service terminal equipment, the method cannot accurately control the power-on and power-off of the self-service terminal equipment, cannot intelligently adjust the power supply mode according to the running state of the self-service terminal equipment, cannot ensure the maximization of the power supply utilization rate, and has low flexibility and environmental protection.

Disclosure of Invention

The invention mainly solves the problems that the power supply flexibility and the power supply environmental protection performance of the self-service terminal equipment are low due to the fact that the power supply mode cannot be intelligently adjusted according to the running state of the self-service terminal equipment and the maximization of the power supply utilization rate cannot be guaranteed in the conventional power supply scheme of the self-service terminal equipment.

In order to solve the technical problems, the invention adopts a technical scheme that: the intelligent power control system for the terminal equipment is applied to the terminal equipment and comprises:

the system comprises a power supply scheme configuration module, an uninterrupted power supply module and a pre-starting control module;

the uninterruptible power supply module is connected with an upper electric control module and a lower electric control module; the power supply end of the uninterruptible power supply module is connected with the power supply interface of the terminal equipment; the pre-starting control module is configured with a delay program, and the delay program is used for setting delay time;

the power supply scheme configuration module is configured with a scheme template, a power level matching database and a power-on power matching database; a standby power setting program is configured in the power-on control module and used for setting standby power; a power-off module is configured in the power-off control module;

the power supply scheme configuration module is used for acquiring terminal equipment information and generating a power supply scheme based on the scheme template, the power level matching database, the power-on power matching database and the terminal equipment information;

the power-on control module is used for acquiring the starting state of the terminal equipment, and the power-on control module controls the uninterruptible power supply module to execute intelligent power supply operation based on the standby power, the power supply scheme and the starting state;

the power-off control module is used for detecting the connection condition of the terminal equipment and executing a pre-starting inquiry operation based on the connection condition to obtain pre-starting time; after the power-off control module obtains the pre-starting time, intelligent power-off operation is executed based on the power-off module;

the pre-start control module executes pre-start configuration operation based on the pre-start time and the delay time.

As an improved solution, the power supply scheme configuration module includes: the device comprises a device detection module, a power matching module and a device information integration module;

a statistical analysis program is configured in the power matching module, and the statistical analysis program is used for configuring a statistical analysis algorithm;

the equipment detection module is used for acquiring hardware information of the terminal equipment;

the power matching module is used for identifying hardware identification information in the hardware information, and calling the statistical analysis algorithm by the power matching module to count the hardware use frequency matched with the hardware identification information in a process log of the terminal equipment;

the equipment information integration module is used for identifying hardware power information in the hardware information and integrating the hardware identification information, the hardware using frequency and the hardware power information to obtain the terminal equipment information.

As an improved solution, the power supply scheme configuration module further includes: a power setting module and a scheme filling module;

a comparison module is configured in the scheme filling module;

the power setting module is used for screening out a hardware power supply level matched with the hardware use frequency from the power level matching database, and screening out power-on power matched with the hardware power supply level from the power-on power matching database;

the scheme filling module compares whether the power-on power reaches the valley power in the hardware power information through the comparison module; and if so, the scheme filling module extracts the peak power in the hardware power information and fills the hardware identification information, the power-on power and the peak power into the scheme template to obtain the power supply scheme.

As an improved solution, the power-up control module includes: the module comprises a module enabling control module and a module power supply control module;

the module enabling control module is used for starting the uninterrupted power supply module when the starting state is that the terminal equipment is started;

the module power supply control module is used for controlling the uninterrupted power supply module to execute the intelligent power supply operation according to the standby power and the power supply scheme.

As an improved scheme, a process identification module, a power output control module and an occupancy value calculation module are arranged in the module power supply control module, a threshold setting program is configured in the occupancy value calculation module, and the threshold setting program is used for setting an occupancy value threshold;

the intelligent power supply operation is executed by the mutual cooperation of the module power supply control module, the process identification module, the power output control module and the occupancy value calculation module:

the module power supply control module acquires process information of the terminal equipment through the process identification module and identifies whether a first operation process matched with the hardware identification information exists in the process information;

when the first operation process does not exist in the process information, the module power supply control module controls the uninterruptible power supply module to adjust the first power supply power of the first hardware corresponding to the hardware identification information to the standby power through the power output control module;

when the first operation process exists in the process information, the module power supply control module identifies a process resource occupation value matched with the first hardware in the process information through the process identification module; the module power supply control module compares the process resource occupation value with the occupation value threshold value through the occupation value calculation module; when the process resource occupation value is not higher than the occupation value threshold value, the module power supply control module controls the uninterruptible power supply module to adjust the first power supply power to the power-on power through the power output control module; and when the process resource occupation value is higher than the occupation value threshold value, the module power supply control module controls the uninterruptible power supply module to adjust the first power supply power to the peak power through the power output control module.

As an improvement, the power-down control module includes: the device comprises a power-off signal generation module and a pre-starting operation inquiry module;

an interface sensor is arranged in the power-off signal generation module and is connected with a host of the terminal equipment through a USB connecting line;

the power-off signal generation module is used for detecting the connection state of the interface sensor and the USB connecting line, and when the connection state is that the USB connecting line is disconnected, the power-off signal generation module sends a power-off signal to the pre-starting operation inquiry module;

the pre-starting operation inquiry module is used for judging that the connection condition is that the terminal equipment loses connection when the power-off signal is received, and the pre-starting operation inquiry module executes the pre-starting inquiry operation and the intelligent power-off operation through the cooperation with the power-off module.

As an improved scheme, an interaction module and a time calculation module are configured in the pre-starting operation inquiry module; a waiting time setting program is configured in the time calculation module and used for setting waiting time;

the pre-starting inquiry operation is executed by the mutual cooperation of the pre-starting inquiry module, the interaction module and the time calculation module:

the pre-starting operation inquiry module outputs pre-starting time setting information to the terminal equipment through the interaction module and acquires first inquiry time;

the pre-starting operation inquiry module calculates the sum of the first inquiry time and the waiting time length through the time calculation module to obtain second inquiry time;

the pre-starting operation inquiry module detects whether feedback information for the pre-starting time setting information exists in the terminal equipment or not through the interaction module within the time from the first inquiry time to the second inquiry time;

the pre-starting operation inquiry module extracts the pre-starting time in the feedback information when the feedback information exists in the terminal equipment;

when the feedback information does not exist in the terminal equipment, the pre-starting operation inquiry module accesses a starting log of the terminal equipment through the interaction module, and sets the pre-starting time based on a starting period of the terminal equipment in the starting log;

the intelligent power-off operation is executed by the mutual cooperation of the pre-starting operation inquiry module and the power-off module:

the pre-starting operation inquiry module disconnects the connection between the power supply end of the uninterrupted power supply module and the power supply interface of the terminal equipment through the power-off module; the pre-starting operation inquiry module cuts off an enabling signal of the uninterrupted power supply module through the power-off module.

As an improved scheme, a timing controller is configured in the pre-starting control module, and an uninterruptible mobile power supply is configured in the timing controller and used for supplying power to the timing controller; the pre-starting control module is in communication connection with the module power supply control module; the time schedule controller is in communication connection with the uninterruptible power supply module; the communication connection includes: bluetooth connection and wireless network connection;

the pre-starting configuration operation is executed by the mutual cooperation of the pre-starting control module, the time schedule controller and the module power supply control module:

the pre-starting control module acquires first starting time through the time sequence controller;

when the first starting time reaches the pre-starting time, the pre-starting control module issues an enabling signal to the uninterrupted power supply module through the time schedule controller;

the pre-starting control module acquires second starting time through the time schedule controller, and calculates the sum of the second starting time and the delay time length through the time schedule controller to obtain third starting time;

the pre-starting control module detects whether the starting state of the terminal equipment is the starting of the terminal equipment within the second starting time to the third starting time; if so, the pre-starting control module calls the module power supply control module to execute the intelligent power supply operation; if not, the pre-starting control module issues a shutdown signal to the uninterrupted power supply module through the time sequence controller.

The invention also provides an intelligent power control method for the terminal equipment, which is applied to the terminal equipment and comprises the following steps:

an initialization step:

setting delay time and standby power;

configuring an uninterruptible power supply module, a scheme template, a power level matching database, a power-on power matching database and a power-off module;

connecting a power supply end of the uninterruptible power supply module with a power supply interface of the terminal equipment;

a power supply scheme generation step:

acquiring terminal equipment information;

generating a power supply scheme based on the scheme template, the power level matching database, the power-on power matching database and the terminal equipment information;

an intelligent power supply step:

acquiring a starting state of the terminal equipment;

controlling the uninterruptible power supply module to execute intelligent power supply operation based on the standby power, the power supply scheme and the starting state;

pre-start inquiry and intelligent power-off steps:

detecting the connection condition of the terminal equipment;

executing a pre-starting inquiry operation based on the connection condition to obtain pre-starting time;

after the pre-starting time is obtained, executing intelligent power-off operation based on the power-off module;

pre-starting configuration:

and executing the pre-starting configuration operation based on the pre-starting time and the delay time length.

The present invention also provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the intelligent power control method for a terminal device.

The invention has the beneficial effects that:

1. the intelligent power control system for the terminal equipment can flexibly adjust the most appropriate power supply mode according to the process running condition of the self-service terminal equipment by the mutual cooperation of the power supply scheme configuration module, the uninterrupted power supply module and the pre-starting control module, ensures that the output utilization rate of a power supply reaches the highest, reduces the waste of power supply resources, has extremely high flexibility and environmental protection, makes up the defects of the prior art, and has extremely high market value and product competitiveness.

2. The intelligent power supply control method for the terminal equipment can flexibly adjust the most appropriate power supply mode according to the process running condition of the self-service terminal equipment, ensures that the output utilization rate of a power supply reaches the highest, reduces the waste of power supply resources, has extremely high flexibility and environmental protection, makes up the defects of the prior art, and has extremely high market value and product competitiveness.

3. The computer-readable storage medium can realize the cooperation of the power supply guiding scheme configuration module, the uninterrupted power supply module and the pre-starting control module, further realize the flexible adjustment of the most appropriate power supply mode according to the process running condition of the self-service terminal equipment, ensure the output utilization rate of a power supply to be the highest, reduce the waste of power supply resources, have extremely high flexibility and environmental protection, make up the defects of the prior art, have extremely high market value and product competitiveness, and effectively improve the operability of the intelligent power supply control method for the terminal equipment.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is an architecture diagram of an intelligent power control system for a terminal device according to embodiment 1 of the present invention;

fig. 2 is a flowchart of an intelligent power control method for a terminal device according to embodiment 2 of the present invention;

fig. 3 is a schematic specific flowchart of the intelligent power control method for the terminal device according to embodiment 2 of the present invention.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention easier to understand by those skilled in the art, and thus will clearly and clearly define the scope of the invention.

In the description of the present invention, it should be noted that the described embodiments of the present invention are a part of the embodiments of the present invention, and not all embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "first", "second", and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified or limited otherwise, the terms "power supply scheme configuration module", "uninterruptible power supply module", "pre-start control module", "power-up control module", "power-down control module", "delay time", "scheme template", "power level matching database", "power-up power matching database", "standby power", "power-off module", "terminal device information", "power supply scheme", "start-up state", "intelligent power supply operation", "connection situation", "pre-start inquiry operation", "pre-start time", "intelligent power-off operation", "pre-start configuration operation", "statistical analysis algorithm", "hardware information", "hardware identification information", "process log", "hardware usage frequency", "hardware power information The terms "comparison module", "hardware power supply level", "power-on power", "valley power", "peak power", "terminal device start", "occupancy threshold", "process information", "operation process", "power supply power", "process resource occupancy", "interface sensor", "USB connection line", "connection state", "power-off signal", "terminal device connection loss", "wait duration", "pre-start time setting information", "query time", "feedback information", "pre-start time", "start log", "start period", "timing controller", "uninterrupted mobile power supply", "communication connection", "start time", "power-off signal" and "enable signal" should be understood in a broad sense. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it is to be noted that: UPS (Uninterruptable Power supply) is an uninterruptible Power supply; CPU (Central Processing Unit) is a central Processing unit; id (identity document) is an identification number; USB (Universal Serial bus) is a universal Serial bus; CPLD (Complex Programmable Logic device) is a complex Programmable Logic device.

Example 1

This embodiment provides an intelligent power control system for terminal equipment, is applied to terminal equipment, as shown in fig. 1, the system includes: the system comprises a power supply scheme configuration module, an uninterrupted power supply module and a pre-starting control module; the uninterruptible power supply module is connected with an upper electric control module and a lower electric control module; the power supply end of the uninterruptible power supply module is connected with the power supply interface of the terminal equipment; the pre-starting control module is configured with a delay program, and the delay program is used for setting delay time; the power supply scheme configuration module is configured with a scheme template, a power level matching database and a power-on power matching database; a standby power setting program is configured in the power-on control module and used for setting standby power; a power-off module is configured in the power-off control module; in this embodiment, the uninterruptible power supply module is a UP S power supply module; correspondingly, the terminal equipment comprises but is not limited to an industrial control host of self-service terminal equipment in a financial institution; in this embodiment, the delay time and the specific case of the scenario template are specifically set.

In the intelligent power control system for the terminal equipment, a power supply scheme configuration module is used for acquiring terminal equipment information and generating a power supply scheme based on the scheme template, the power level matching database, the power-on power matching database and the terminal equipment information;

specifically, the power supply scheme configuration module includes: the device comprises a device detection module, a power matching module and a device information integration module; a statistical analysis program is configured in the power matching module, and the statistical analysis program is used for configuring a statistical analysis algorithm; in this embodiment, the statistical analysis algorithm is a statistical algorithm integrated according to an IMP internal statistical program; the equipment detection module is used for acquiring hardware information of the terminal equipment; in the present embodiment, the hardware information includes ID information, type information, power information, and the like of hardware in the terminal device; for example: type (2): CPU-ID 10400-power information 150w valley/230 w peak; correspondingly, the valley value is a power value which can ensure that the hardware runs at the lowest level, and the peak value is a power value which can ensure that the hardware reaches a peak processing state;

the power matching module is used for identifying hardware identification information in the hardware information, and calling the statistical analysis algorithm by the power matching module to count the hardware use frequency matched with the hardware identification information in a process log of the terminal equipment; in this embodiment, the hardware identification information is the ID information and the type information, and correspondingly, according to the different types and identifications of the hardware, the corresponding hardware usage times can be distinguished in the process log of the terminal device, and according to the usage times of all the hardware and the usage times of a single type of hardware, the usage frequency of the hardware relative to all the hardware in the terminal device can be calculated; the power supply level of the hardware can be further determined according to the use frequency, specifically the following operation is performed; correspondingly, the method for accessing the process log of the terminal equipment comprises but is not limited to network access or logic layer calling; the equipment information integration module is used for identifying hardware power information in the hardware information and integrating the hardware identification information, the hardware using frequency and the hardware power information to obtain the terminal equipment information; in this embodiment, the hardware power information is the above power information; correspondingly, the operation of information integration includes but is not limited to adding information to the same folder and compressing; a certain data base is provided for subsequent operations by the power matching module.

Specifically, the power supply scheme configuration module further includes: a power setting module and a scheme filling module;

a comparison module is arranged in the scheme filling module;

the power setting module is used for screening out a hardware power supply level matched with the hardware use frequency from the power level matching database, and screening out power-on power matched with the hardware power supply level from the power-on power matching database; in this embodiment, the power level matching database is preset with corresponding hardware power supply levels at different frequencies; for example: the hardware frequency is 60% -belongs to the interval of 50% -65%, and further belongs to the second power supply level; correspondingly, the example is only an implementation manner, and the specific power supply level should be set according to the energy consumption of the whole terminal device and the specification of the UPS power supply module; correspondingly, if the power supply grades are obtained, the corresponding power supply powers can be screened out from a power supply power matching database which is preset with a plurality of power supply grades and a plurality of power supply power user matching mapping relations; the power-on power is the power-on power which is set in the system and is balanced with the energy consumption and the performance of the hardware; the scheme filling module compares whether the power-on power reaches the valley power in the hardware power information through the comparison module; if the power supply scheme meets the requirement of hardware, the scheme filling module extracts peak power in the hardware power information and fills the hardware identification information, the power-on power and the peak power into the scheme template to obtain the power supply scheme; if not, the scheme filling module extracts valley power and peak power in the hardware power information, and fills the hardware identification information, the valley power and the peak power into the scheme template to obtain the power supply scheme; through the operation, a hardware power supply scheme matched with the type and the use condition of the hardware is set, the power supply rationality and the energy conservation and environmental protection of the whole system are further improved, and the use cost of the terminal equipment is further reduced.

In the intelligent power control system for the terminal equipment, a power-on control module is used for acquiring the starting state of the terminal equipment, and the power-on control module controls the uninterruptible power supply module to execute intelligent power supply operation based on the standby power, the power supply scheme and the starting state; in this embodiment, the standby power is set to a power supply power that can maintain the terminal device at startup and standby at the lowest performance;

specifically, the power-on control module includes: the module comprises a module enabling control module and a module power supply control module; the module enabling control module is used for starting the uninterrupted power supply module when the starting state is that the terminal equipment is started; correspondingly, the method for acquiring the starting state can be used for detecting the enabling signal condition sent by the CPLD in the terminal equipment host by the module enabling control module to acquire the starting state; the module power supply control module is used for controlling the uninterruptible power supply module to execute key operations of the invention according to the standby power and the power supply scheme: the intelligent power supply operation;

specifically, the module power supply control module is provided with a process identification module, a power output control module and an occupancy value calculation module, wherein the occupancy value calculation module is configured with a threshold setting program, and the threshold setting program is used for setting an occupancy value threshold; in this embodiment, the process identification module may be implemented by a server access program with a communication function; correspondingly, the occupation value threshold is classified and set according to the use frequency of the terminal equipment and the use frequency of hardware; the intelligent power supply operation includes: the module power supply control module acquires process information of the terminal equipment through the process identification module and identifies whether a first operation process matched with the hardware identification information exists in the process information; correspondingly, firstly, confirming the process, if the process does not exist, adjusting the terminal device to be in a standby mode, namely, when the module power supply control module does not have the first operation process in the process information, controlling the uninterrupted power supply module to adjust the first power supply power of the first hardware corresponding to the hardware identification information to be the standby power through the power output control module; correspondingly, when a process exists, the power supply power of the hardware needs to be adjusted according to the detailed condition of the process, so that the waste of resources is prevented; when the first operation process exists in the process information, the module power supply control module identifies a process resource occupation value matched with the first hardware in the process information through the process identification module; the module power supply control module compares the process resource occupation value with the occupation value threshold value through the occupation value calculation module; when the process resource occupation value is not higher than the occupation value threshold value, the module power supply control module controls the uninterruptible power supply module to adjust the first power supply power to the power-on power through the power output control module; when the process resource occupation value is higher than the occupation value threshold value, the module power supply control module controls the uninterruptible power supply module to adjust the first power supply power to the peak power through the power output control module; correspondingly, through the operation, the power supply power of the UPS power supply module can be matched with high goodness of fit according to the working condition of hardware in the terminal equipment, so that the utilization rate of power supply resources of the UPS power supply module is maximized, power supply waste and power supply defects caused by excessive power supply and insufficient power supply are prevented, and the use cost of the terminal equipment is greatly reduced; correspondingly, in this embodiment, the power output control module may be implemented by regulating and controlling the power consumption amplifying circuit.

In the intelligent power control system for the terminal equipment, a power-off control module is used for detecting the connection condition of the terminal equipment and executing a pre-starting inquiry operation based on the connection condition to obtain pre-starting time; after the power-off control module obtains the pre-starting time, intelligent power-off operation is executed based on the power-off module; correspondingly, when the UPS power supply module in the prior art is used for presetting the terminal equipment and automatically powering off, the inaccurate phenomenon exists, so that the UPS power supply module is set to be powered off according to the connection condition of the terminal equipment in the embodiment, the error rate is extremely low, the intelligent experience of the terminal equipment during use is ensured, the corresponding pre-starting operation is provided, the terminal equipment can be started in advance at a certain time for a user according to the behavior requirement of the user, the intelligence of the whole system is further improved, and the experience feeling of the user is improved;

specifically, the power-off control module includes: the device comprises a power-off signal generation module and a pre-starting operation inquiry module; an interface sensor is arranged in the power-off signal generation module and is connected with a host of the terminal equipment through a USB connecting line; the power-off signal generation module is used for detecting the connection state of the interface sensor and the USB connecting line, and when the connection state is that the USB connecting line is disconnected, the power-off signal generation module sends a power-off signal to the pre-starting operation inquiry module; correspondingly, after the pre-starting operation inquiry module analyzes the power-off signal, a related packet command is issued to the UPS power supply module according to a communication protocol between the UPS power supply module and the pre-starting operation inquiry module, and then the UPS power supply module is controlled; in the embodiment, the method is adopted for the parts related to the control of the UPS power supply module; the pre-starting operation inquiry module is used for judging that the connection condition is that the terminal equipment loses connection when receiving the power-off signal, and the pre-starting operation inquiry module executes the pre-starting inquiry operation and the intelligent power-off operation through the cooperation with the power-off module; in this embodiment, the power-off signal is only an implementation, and includes but is not limited to a digital signal, a trigger instruction, and the like; specifically, the pre-starting operation inquiry module is configured with an interaction module and a time calculation module; a waiting time setting program is configured in the time calculation module and used for setting waiting time; in the present embodiment, the waiting period includes, but is not limited to, 5 minutes; correspondingly, the waiting time can be freely configured by an operator;

the pre-boot interrogation operation comprises: the pre-starting operation inquiry module outputs pre-starting time setting information to the terminal equipment through the interaction module and acquires first inquiry time; in this embodiment, the pre-start time setting information is prompt information for inputting the start time of the next terminal device; the first inquiry time is the current time point; the pre-starting operation inquiry module calculates the sum of the first inquiry time and the waiting time length through the time calculation module to obtain second inquiry time; the pre-starting operation inquiry module detects whether feedback information for the pre-starting time setting information exists in the terminal equipment or not through the interaction module within the time from the first inquiry time to the second inquiry time; correspondingly, the waiting time length is mainly used for calculating the time period for the pre-starting operation inquiry module to wait for the feedback of the terminal equipment; correspondingly, when the terminal equipment receives the preset starting time setting information, the preset starting time setting information is output to a corresponding display interactive screen for a user or an operator to carry out specific time setting; the pre-starting operation inquiry module extracts the pre-starting time in the feedback information when the feedback information exists in the terminal equipment; correspondingly, the existence is that the user or the operator inputs the pre-starting time; the non-existence is that the user or the operator does not input the pre-starting time; in order to improve the intelligence of the system and prevent a user from forgetting to key time, when the feedback information does not exist in the terminal equipment, the pre-starting operation inquiry module accesses a starting log of the terminal equipment through the interaction module, and sets the pre-starting time based on the starting period of the terminal equipment in the starting log; correspondingly, the starting log is the starting time before the terminal equipment, and an AI intelligent analysis algorithm is also arranged in the pre-starting operation inquiry module; correspondingly, the pre-starting operation inquiry module analyzes a plurality of starting times in the starting log through an AI intelligent analysis algorithm, and a corresponding starting period can be obtained; the pre-starting operation inquiry module selects a starting period with higher starting frequency and sets corresponding pre-starting time by combining the time point of the day;

the intelligent power-off operation includes: the pre-starting operation inquiry module disconnects the connection between the power supply end of the uninterrupted power supply module and the power supply interface of the terminal equipment through the power-off module; correspondingly, the power-off module comprises but is not limited to an intelligent robot adopting a pluggable cable, so that the cable between the power supply end of the uninterrupted power supply module and the power supply interface of the terminal equipment is plugged; meanwhile, the intelligent robot can control a power supply switch of the uninterrupted power supply module, and then the pre-starting operation inquiry module breaks an enabling signal of the uninterrupted power supply module through the power-off module.

In the intelligent power control system for the terminal equipment, a pre-starting control module executes pre-starting configuration operation based on the pre-starting time and the delay time;

specifically, a timing controller is configured in the pre-starting control module, and an uninterruptible mobile power supply is configured in the timing controller and used for supplying power to the timing controller; the pre-starting control module is in communication connection with the module power supply control module; the time schedule controller is in communication connection with the uninterruptible power supply module; the communication connection includes: bluetooth connection and wireless network connection; in the embodiment, the uninterrupted mobile power supply ensures that the time schedule controller is in a standby state for outputting small power supply power; the time schedule controller is a controller which is in a standby mode for a long time, and then performs the pre-starting configuration operation in real time according to the pre-starting time, and when the time schedule controller is in the standby mode for a long time, the time schedule controller does not generate higher energy consumption and also has environmental protection;

the pre-boot configuration operation comprises: the pre-starting control module acquires first starting time through the time sequence controller; the first starting time is a time point before the pre-starting time, and the time point is not limited specifically, and correspondingly, the time point is close to the pre-starting time; when the first starting time reaches the pre-starting time, the pre-starting control module issues an enabling signal to the uninterrupted power supply module through the time schedule controller; correspondingly, when the pre-starting time is reached, firstly, the uninterrupted power supply module is started, at the moment, the pre-starting control module obtains second starting time through the time schedule controller, the second starting time is the current time point, and the sum of the second starting time and the delay time length is calculated through the time schedule controller to obtain third starting time; the second starting time and the third starting time also form a waiting time period, the delay time is also set to be 5 minutes in the embodiment, and the delay time is not limited herein and can be set according to the requirements of operators; the pre-starting control module detects whether the starting state of the terminal equipment is the starting of the terminal equipment within the second starting time to the third starting time; if so, the pre-starting control module calls the module power supply control module to execute the intelligent power supply operation; if not, the pre-starting control module issues a shutdown signal to the uninterruptible power supply module; correspondingly, the key point of the operation is that under the condition that the terminal equipment is ensured to be started, the intelligent power supply is carried out on the terminal equipment, and under the condition that the terminal equipment is not started, the situation that an operator forgets or the terminal equipment is abnormal can occur, and the power supply cannot be carried out at the moment, so that due to the design of time delay, the electric energy cannot be consumed, the intelligence is extremely high, and the pre-starting of the terminal equipment is intelligently controlled;

through the intelligent power control system for the terminal equipment described in this embodiment, through mutually supporting between power supply scheme configuration module, uninterrupted power supply module and the pre-start control module, intelligent power-up and power-down and intelligent pre-start control are carried out to the terminal equipment, the intelligence and the traversability of the terminal equipment power supply mode are greatly improved, the experience of the user is improved, the defects of the prior art are made up, and the intelligent power control system has high product competitiveness and market value.

Example 2

The embodiment provides an intelligent power control method for a terminal device, which is applied to the terminal device, and as shown in fig. 2 and fig. 3, the method includes the following steps:

s100, an initialization step:

step S100 specifically includes:

s101, setting delay time and standby power; configuring an uninterruptible power supply module, a scheme template, a power level matching database, a power-on power matching database and a power-off module; connecting a power supply end of the uninterruptible power supply module with a power supply interface of the terminal equipment;

s200, a power supply scheme generation step:

step S200 specifically includes:

s201, acquiring terminal equipment information; generating a power supply scheme based on the scheme template, the power level matching database, the power-on power matching database and the terminal equipment information;

specifically, a statistical analysis algorithm is configured; acquiring hardware information of the terminal equipment; identifying hardware identification information in the hardware information; calling the statistical analysis algorithm to count the hardware use frequency matched with the hardware identification information in the process log of the terminal equipment; identifying hardware power information in the hardware information, and integrating the hardware identification information, the hardware using frequency and the hardware power information to obtain the terminal equipment information;

specifically, a comparison module is configured; screening out a hardware power supply grade matched with the hardware use frequency from the power grade matching database, and screening out a power-on power matched with the hardware power supply grade from the power-on power matching database; comparing whether the power-on power reaches the valley power in the hardware power information through the comparison module; and if so, extracting the peak power in the hardware power information, and filling the hardware identification information, the power-on power and the peak power into the scheme template to obtain the power supply scheme.

S300, intelligent power supply:

step S300 specifically includes:

s301, acquiring a starting state of the terminal equipment; controlling the uninterruptible power supply module to execute intelligent power supply operation based on the standby power, the power supply scheme and the starting state;

specifically, when the starting state is the starting of the terminal equipment, the uninterruptible power supply module is started; controlling the uninterrupted power supply module to execute the intelligent power supply operation according to the standby power and the power supply scheme;

specifically, the intelligent power supply operation includes: configuring a process identification module, a power output control module and an occupancy value calculation module, wherein an occupancy value threshold value is set in the occupancy value calculation module; acquiring process information of the terminal equipment through the process identification module, and identifying whether a first operation process matched with the hardware identification information exists in the process information; when the first operation process does not exist in the process information, the power output control module controls the uninterruptible power supply module to adjust the first power supply power of the first hardware corresponding to the hardware identification information to the standby power; when the first operation process exists in the process information, identifying a process resource occupation value matched with the first hardware in the process information through the process identification module; comparing the process resource occupation value with the occupation value threshold value through the occupation value calculation module; when the process resource occupation value is not higher than the occupation value threshold, controlling the uninterrupted power supply module to adjust the first power supply power to the power-on power through the power output control module; and when the process resource occupation value is higher than the occupation value threshold value, controlling the uninterrupted power supply module to adjust the first power supply power to the peak power through the power output control module.

S400, pre-starting inquiry and intelligent power-off steps:

step S400 specifically includes:

s401, detecting the connection condition of the terminal equipment; executing a pre-starting inquiry operation based on the connection condition to obtain pre-starting time; after the pre-starting time is obtained, executing intelligent power-off operation based on the power-off module;

specifically, an interface sensor is configured, and the interface sensor is connected with a host of the terminal device through a USB connecting line; detecting the connection state of the interface sensor and the USB connecting line, judging that the connection condition is that the terminal equipment loses connection when the connection state is that the USB connecting line is disconnected, and executing the pre-starting inquiry operation and the intelligent power-off operation based on the power-off module;

specifically, the pre-start query operation includes: configuring an interaction module and a time calculation module; setting a waiting time length in the time calculation module; outputting preset starting time setting information to the terminal equipment through the interaction module, and acquiring first inquiry time; calculating the sum of the first query time and the waiting time length through the time calculation module to obtain second query time; detecting whether feedback information for the preset starting time setting information exists in the terminal equipment or not through the interaction module within the time from the first inquiry time to the second inquiry time; when the feedback information exists in the terminal equipment, extracting the pre-starting time in the feedback information; when the feedback information does not exist in the terminal equipment, accessing a starting log of the terminal equipment through the interaction module, and setting the pre-starting time based on the starting period of the terminal equipment in the starting log;

specifically, the intelligent power-off operation includes: disconnecting the power supply end of the uninterruptible power supply module from the power supply interface of the terminal equipment through the power-off module; and disconnecting the enabling signal of the uninterrupted power supply module through the power-off module.

S500, pre-starting configuration:

step S500 specifically includes:

s501, executing pre-starting configuration operation based on the pre-starting time and the delay time;

specifically, the pre-boot configuration operation includes: configuring a time schedule controller, configuring an uninterruptible mobile power supply in the time schedule controller, and supplying power to the time schedule controller through the uninterruptible mobile power supply; acquiring first starting time through the time schedule controller; when the first starting time reaches the pre-starting time, issuing an enabling signal to the uninterrupted power supply module through the time sequence controller; acquiring second starting time through the time schedule controller, and calculating the sum of the second starting time and the delay time length through the time schedule controller to obtain third starting time; detecting whether the starting state of the terminal equipment is started by the terminal equipment within the second starting time to the third starting time; if so, calling the module power supply control module to execute the intelligent power supply operation; if not, a shutdown signal is issued to the uninterruptible power supply module.

By the intelligent power control method for the terminal equipment, the intelligent power supply and power off and intelligent pre-starting of the terminal equipment are controlled, the intelligence and the ergodicity of a power supply mode of the terminal equipment are greatly improved, the experience of a user is improved, the defects of the prior art are overcome, and the intelligent power control method for the terminal equipment has high product competitiveness and market value.

Example 3

The present embodiments provide a computer-readable storage medium comprising:

the storage medium is used for storing computer software instructions for implementing the intelligent power control method for the terminal device according to embodiment 2, and includes a program for executing the intelligent power control method for the terminal device; specifically, the executable program may be embedded in the intelligent power control system for the terminal device described in embodiment 1, so that the intelligent power control system for the terminal device may implement the intelligent power control method for the terminal device described in embodiment 2 by executing the embedded executable program.

Furthermore, the computer-readable storage medium of the present embodiments may take any combination of one or more readable storage media, where a readable storage medium includes an electronic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any combination thereof.

Different from the prior art, the intelligent power supply control system, method and medium for the terminal equipment can flexibly adjust the most appropriate power supply mode according to the process running condition of the self-service terminal equipment through the intelligent power supply control system, ensure that the output utilization rate of a power supply reaches the highest, reduce the waste of power supply resources, provide an ingenious design idea for the intelligent power supply control system, finally greatly improve the power supply flexibility and the power supply environmental protection performance of the self-service terminal equipment, make up the defects of the prior art, and have high market value and product competitiveness.

The numbers of the embodiments disclosed in the embodiments of the present invention are merely for description, and do not represent the merits of the embodiments.

It will be understood by those skilled in the art that all or part of the steps of implementing the above embodiments may be implemented by hardware, and a program that can be implemented by the hardware and can be instructed by the program to be executed by the relevant hardware may be stored in a computer readable storage medium, where the storage medium may be a read-only memory, a magnetic or optical disk, and the like.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. An intelligent power control system for terminal equipment is applied to the terminal equipment and is characterized in that the system comprises: the system comprises a power supply scheme configuration module, an uninterrupted power supply module and a pre-starting control module;

the uninterruptible power supply module is connected with an upper electric control module and a lower electric control module; the power supply end of the uninterruptible power supply module is connected with the power supply interface of the terminal equipment; the pre-starting control module is configured with a delay program, and the delay program is used for setting delay time;

the power supply scheme configuration module is configured with a scheme template, a power level matching database and a power-on power matching database; a standby power setting program is configured in the power-on control module and used for setting standby power; a power-off module is configured in the power-off control module;

the power supply scheme configuration module is used for acquiring terminal equipment information and generating a power supply scheme based on the scheme template, the power level matching database, the power-on power matching database and the terminal equipment information;

the power-on control module is used for acquiring the starting state of the terminal equipment, and the power-on control module controls the uninterruptible power supply module to execute intelligent power supply operation based on the standby power, the power supply scheme and the starting state;

the power-off control module is used for detecting the connection condition of the terminal equipment and executing a pre-starting inquiry operation based on the connection condition to obtain pre-starting time; after the power-off control module obtains the pre-starting time, intelligent power-off operation is executed based on the power-off module;

the pre-start control module executes pre-start configuration operation based on the pre-start time and the delay time.

2. The intelligent power control system for terminal equipment according to claim 1, wherein the power supply scheme configuration module comprises: the device comprises a device detection module, a power matching module and a device information integration module;

a statistical analysis program is configured in the power matching module, and the statistical analysis program is used for configuring a statistical analysis algorithm;

the equipment detection module is used for acquiring hardware information of the terminal equipment;

the power matching module is used for identifying hardware identification information in the hardware information, and calling the statistical analysis algorithm by the power matching module to count the hardware use frequency matched with the hardware identification information in a process log of the terminal equipment;

the equipment information integration module is used for identifying hardware power information in the hardware information and integrating the hardware identification information, the hardware using frequency and the hardware power information to obtain the terminal equipment information.

3. The intelligent power control system for terminal equipment according to claim 2, wherein the power supply scheme configuration module further comprises: a power setting module and a scheme filling module;

a comparison module is configured in the scheme filling module;

the power setting module is used for screening out a hardware power supply level matched with the hardware use frequency from the power level matching database, and screening out power-on power matched with the hardware power supply level from the power-on power matching database;

the scheme filling module compares whether the power-on power reaches the valley power in the hardware power information through the comparison module; and if so, the scheme filling module extracts the peak power in the hardware power information and fills the hardware identification information, the power-on power and the peak power into the scheme template to obtain the power supply scheme.

4. The intelligent power control system for the terminal equipment according to claim 3, wherein the power-on control module comprises: the module comprises a module enabling control module and a module power supply control module;

the module enabling control module is used for starting the uninterrupted power supply module when the starting state is that the terminal equipment is started;

the module power supply control module is used for controlling the uninterrupted power supply module to execute the intelligent power supply operation according to the standby power and the power supply scheme.

5. The intelligent power control system for the terminal device according to claim 4, wherein the module power supply control module is provided with a process identification module, a power output control module and an occupancy value calculation module, and the occupancy value calculation module is configured with a threshold setting program, and the threshold setting program is used for setting an occupancy value threshold;

the intelligent power supply operation is executed by the mutual cooperation of the module power supply control module, the process identification module, the power output control module and the occupancy value calculation module:

the module power supply control module acquires process information of the terminal equipment through the process identification module and identifies whether a first operation process matched with the hardware identification information exists in the process information;

when the first operation process does not exist in the process information, the module power supply control module controls the uninterruptible power supply module to adjust the first power supply power of the first hardware corresponding to the hardware identification information to the standby power through the power output control module;

when the first operation process exists in the process information, the module power supply control module identifies a process resource occupation value matched with the first hardware in the process information through the process identification module; the module power supply control module compares the process resource occupation value with the occupation value threshold value through the occupation value calculation module; when the process resource occupation value is not higher than the occupation value threshold value, the module power supply control module controls the uninterruptible power supply module to adjust the first power supply power to the power-on power through the power output control module; and when the process resource occupation value is higher than the occupation value threshold value, the module power supply control module controls the uninterruptible power supply module to adjust the first power supply power to the peak power through the power output control module.

6. The intelligent power control system for the terminal equipment according to claim 5, wherein the power-down control module comprises: the device comprises a power-off signal generation module and a pre-starting operation inquiry module;

an interface sensor is arranged in the power-off signal generation module and is connected with a host of the terminal equipment through a USB connecting line;

the power-off signal generation module is used for detecting the connection state of the interface sensor and the USB connecting line, and when the connection state is that the USB connecting line is disconnected, the power-off signal generation module sends a power-off signal to the pre-starting operation inquiry module;

the pre-starting operation inquiry module is used for judging that the connection condition is that the terminal equipment loses connection when the power-off signal is received, and the pre-starting operation inquiry module executes the pre-starting inquiry operation and the intelligent power-off operation through the cooperation with the power-off module.

7. The intelligent power control system for the terminal equipment according to claim 6, wherein the pre-start operation inquiry module is configured with an interaction module and a time calculation module; a waiting time setting program is configured in the time calculation module and used for setting waiting time;

the pre-starting inquiry operation is executed by the mutual cooperation of the pre-starting inquiry module, the interaction module and the time calculation module:

the pre-starting operation inquiry module outputs pre-starting time setting information to the terminal equipment through the interaction module and acquires first inquiry time;

the pre-starting operation inquiry module calculates the sum of the first inquiry time and the waiting time length through the time calculation module to obtain second inquiry time;

the pre-starting operation inquiry module detects whether feedback information for the pre-starting time setting information exists in the terminal equipment or not through the interaction module within the time from the first inquiry time to the second inquiry time;

the pre-starting operation inquiry module extracts the pre-starting time in the feedback information when the feedback information exists in the terminal equipment;

when the feedback information does not exist in the terminal equipment, the pre-starting operation inquiry module accesses a starting log of the terminal equipment through the interaction module, and sets the pre-starting time based on a starting period of the terminal equipment in the starting log;

the intelligent power-off operation is executed by the mutual cooperation of the pre-starting operation inquiry module and the power-off module:

the pre-starting operation inquiry module disconnects the connection between the power supply end of the uninterrupted power supply module and the power supply interface of the terminal equipment through the power-off module; the pre-starting operation inquiry module cuts off an enabling signal of the uninterrupted power supply module through the power-off module.

8. The intelligent power control system for the terminal device according to claim 7, wherein a timing controller is configured in the pre-start control module, and an uninterruptible mobile power supply is configured in the timing controller and is used for supplying power to the timing controller; the pre-starting control module is in communication connection with the module power supply control module; the time schedule controller is in communication connection with the uninterruptible power supply module; the communication connection includes: bluetooth connection and wireless network connection;

the pre-starting configuration operation is executed by the mutual cooperation of the pre-starting control module, the time schedule controller and the module power supply control module:

the pre-starting control module acquires first starting time through the time sequence controller;

when the first starting time reaches the pre-starting time, the pre-starting control module issues an enabling signal to the uninterrupted power supply module through the time schedule controller;

the pre-starting control module acquires second starting time through the time schedule controller, and calculates the sum of the second starting time and the delay time length through the time schedule controller to obtain third starting time;

the pre-starting control module detects whether the starting state of the terminal equipment is the starting of the terminal equipment within the second starting time to the third starting time; if so, the pre-starting control module calls the module power supply control module to execute the intelligent power supply operation; if not, the pre-starting control module issues a shutdown signal to the uninterrupted power supply module through the time sequence controller.

9. An intelligent power control method for terminal equipment is applied to the terminal equipment and is characterized by comprising the following steps:

an initialization step:

setting delay time and standby power;

configuring an uninterruptible power supply module, a scheme template, a power level matching database, a power-on power matching database and a power-off module;

connecting a power supply end of the uninterruptible power supply module with a power supply interface of the terminal equipment;

a power supply scheme generation step:

acquiring terminal equipment information;

generating a power supply scheme based on the scheme template, the power level matching database, the power-on power matching database and the terminal equipment information;

an intelligent power supply step:

acquiring a starting state of the terminal equipment;

controlling the uninterruptible power supply module to execute intelligent power supply operation based on the standby power, the power supply scheme and the starting state;

pre-start inquiry and intelligent power-off steps:

detecting the connection condition of the terminal equipment;

executing a pre-starting inquiry operation based on the connection condition to obtain pre-starting time;

after the pre-starting time is obtained, executing intelligent power-off operation based on the power-off module;

pre-starting configuration:

and executing the pre-starting configuration operation based on the pre-starting time and the delay time length.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon a computer program which, when being executed by a processor, realizes the steps of the intelligent power control method for terminal devices as claimed in claim 9.

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