CN116094178A - Fault early warning control method and device for precise train head cabinet, machine room and medium - Google Patents

Abstract

The invention provides a fault early warning control method and device of a precise train head cabinet, a machine room and a medium, wherein the fault early warning control method of the precise train head cabinet comprises the following steps: controlling the precise head cabinet to normally operate; setting a precise head-row cabinet to distribute power at a first preset current value; recording the distribution current condition of the precise train head cabinet in a first preset time period; the distribution current condition of the precise column head cabinet comprises: recording the deviation times of the precise row header cabinet relative to the first preset current value when the precise row header cabinet performs power distribution by taking the first preset current value as a reference; judging whether the deviation times exceed a first preset times or not; if yes, controlling the precise head arranging cabinet to execute a first preset operation; if not, recording a deviation range value of the distribution current of the precise train head cabinet relative to a first preset current value at each time; and controlling the running state of the precise train head cabinet according to the deviation range value.

Description

Fault early warning control method and device for precise train head cabinet, machine room and medium

Technical Field

The invention relates to the technical field of power distribution machine rooms, in particular to a fault early warning control method and device of a precise train head cabinet, a machine room and a medium.

Background

Along with the development of the train head cabinet, the precise power distribution train head cabinet is an intelligent power distribution cabinet for comprehensively collecting all energy data aiming at the tail end of the energy of the data center machine room. The high-precision measurement data is provided for the terminal energy monitoring system, the electric energy quality data is reflected in real time through the display unit, and the data is uploaded to the background environment monitoring system through RS485 communication, so that the real-time monitoring and the operation quality management of the whole power distribution system are achieved. The method helps users optimize the network data center, enhances energy consumption management, and improves the running efficiency of the server rack. The system is mainly applied to important clients such as data centers of telecommunication, finance, government, IT and the like or industrial enterprises and the like, and provides services such as power distribution, distribution loop protection, metering, management, computer grounding and the like for important equipment such as a network server and the like. The column head cabinet in the related art is only provided with a pre-alarm value simply, such as a 16A switch, and the alarm value is set to be 15A, so that the on-off operation of current is realized when the load exceeds 15A, the pre-alarm operation is inaccurate, and an operator cannot well master the power distribution fluctuation condition of the precise column head cabinet.

Therefore, how to more accurately realize the fault early warning of the column header cabinet becomes a problem to be solved urgently.

Disclosure of Invention

The invention solves the problem of realizing the fault early warning of the column head cabinet more accurately.

In order to solve the above problems, the present invention provides a fault early warning control method for a precision train head cabinet, including: controlling the precise head cabinet to normally operate; setting a precise head-row cabinet to distribute power at a first preset current value; recording the distribution current condition of the precise train head cabinet in a first preset time period; the distribution current condition of the precise column head cabinet comprises: recording the deviation times of the precise row header cabinet relative to the first preset current value when the precise row header cabinet performs power distribution by taking the first preset current value as a reference; judging whether the deviation times exceed a first preset times or not; if yes, controlling the precise head arranging cabinet to execute a first preset operation; if not, recording a deviation range value of the distribution current of the precise train head cabinet relative to a first preset current value at each time; controlling the running state of the precise head cabinet according to the deviation range value; controlling the operation state of the precise train head cabinet according to the deviation range value, comprising: calculating a deviation average value of the deviation range values on the record; judging whether the deviation average value exceeds a first preset threshold value or not; if yes, controlling the precise head arranging cabinet to execute a second preset operation; if not, controlling the precise head arranging cabinet to operate in a first state; controlling the precision train head cabinet to operate in a first state, comprising: recording the maximum value among the deviation range values; judging whether the maximum value exceeds a preset deviation upper limit; if yes, controlling the precise head arranging cabinet to execute a third preset operation; if not, the precise head cabinet is controlled to normally operate.

Compared with the prior art, the scheme can achieve the following effects: through the power distribution condition of the precise train head cabinet, the operation state of the precise train head cabinet is determined by combining a plurality of judgment parameters, the large influence of errors generated by single judgment conditions on the operation of the precise train head cabinet is avoided, the normal operation of a machine room is maintained, and meanwhile, more precise judgment can be given to the early warning control of the precise train head cabinet.

In one embodiment of the invention, controlling the precision train head cabinet to perform a first predetermined operation includes: recording the deviation times in a first preset time period into an alarm information base; the precise head arranging cabinet is controlled to send first alarm information to an operator; controlling the precision train head cabinet to execute a second preset operation, comprising: recording the recorded deviation average value in a first preset time period into an alarm information base; and controlling the precise column header cabinet to send second alarm information to an operator. Controlling the precision train head cabinet to execute a third preset operation, comprising: recording the maximum value of the deviation range value in a first preset time period into an alarm information base; and controlling the precise column header cabinet to send a third alarm message to an operator.

Compared with the prior art, the effect that this scheme can reach: the alarm information base is used for storing information, so that the follow-up data retrieval is facilitated, the data matching operation is realized, and early warning is realized at a specific time point.

In one embodiment of the present invention, the fault early warning control method of the precision train head cabinet further includes: selecting a plurality of first preset time periods to execute a fault early warning control method of the precise train head cabinet; intercepting a plurality of time points in a first preset time period; each first preset time period corresponds to a control result; and recording the first preset time period and the corresponding control result into an alarm information base.

Compared with the prior art, the effect that this scheme can reach: the first preset time period on different time points in one natural day is selected for executing the fault early warning control method of the precise first cabinet in the embodiment, so that the power distribution fluctuation condition of the precise first cabinet in different time points in one natural day can be determined, and operators can be effectively arranged to watch when the machine room load in one natural day is large according to the result, and the stable operation of the machine room is facilitated.

In one embodiment of the invention, a plurality of continuous first preset time periods are selected to execute the fault early warning control method of the precise train head cabinet.

Compared with the prior art, the effect that this scheme can reach: the more preferable fault early warning monitoring result can be obtained, and the generation of test errors is reduced.

In one embodiment of the present invention, the communication mode priority of the first alarm information is greater than that of the second alarm information; the communication mode priority of the second alarm information is larger than that of the third alarm information.

Compared with the prior art, the effect that this scheme can reach: the alarm is carried out in different modes, so that proper resource allocation is completed, meanwhile, operators can know the emergency degree of an event at the first time, and the operators can conveniently complete repair and adjustment of the precise train cabinet according to the conditions.

In one embodiment of the present invention, the fault early warning control method of the precision train head cabinet further includes: the plurality of precision column header cabinets are arranged in a rectangular array mode; determining the position information of each precise column header cabinet; the position information is input into a positioning database in a coordinate mode; when the operator receives the alarm information, the position of the precise head cabinet can be rapidly positioned.

Compared with the prior art, the effect that this scheme can reach: the position of the precise column head cabinet with larger power distribution fluctuation can be accurately and rapidly determined.

In one embodiment of the present invention, the fault early warning control method of the precision train head cabinet further includes: integrating the power distribution energy consumption of the precise train head cabinets in a plurality of first time periods; predicting the energy consumption information of each electric equipment on a natural day according to the power distribution energy consumption; the selecting intervals of the first time periods are a second preset time period.

Compared with the prior art, the effect that this scheme can reach: the power distribution fluctuation condition of the precise train head cabinet at different time points in a natural day can be determined, so that the prediction of when the power consumption of each power consumption equipment in the machine room is large and when the power consumption of the power consumption equipment is small in the whole natural day can be inferred.

In one embodiment of the present invention, there is provided a control device for controlling the fault early warning control method of the precision train head cabinet according to any one of the above embodiments, the control device including: the detection module is used for detecting and acquiring the current distribution condition of the precise column header cabinet; the judging module is used for judging the current running state of the precise train head cabinet according to the current distribution condition; the control module is used for controlling the precise column header cabinet to execute corresponding operation.

Compared with the prior art, the effect that this scheme can reach: the control device in the technical scheme can realize the steps of the fault early warning control method of the precise train head cabinet in any technical scheme, so that the method has the beneficial effects of any technical scheme and is not repeated herein.

In one embodiment of the present invention, there is provided a machine room, the machine room comprising: a processor, a memory, and a program or instructions stored in the memory and executable on the processor, which when executed by the processor, implement the steps of the fault pre-warning control method for a precision train head cabinet as in any one of the embodiments above.

Compared with the prior art, the effect that this scheme can reach: the machine room in the technical scheme can realize the scheme of any technical scheme because the machine room can execute the steps of the fault early warning control method of the precise train head cabinet of any technical scheme, and the machine room in the technical scheme has the beneficial effects of any technical scheme and is not repeated here.

In one embodiment of the present invention, there is provided a readable storage medium having stored thereon a program or instructions which, when executed by a processor, implement the steps of the fault pre-warning control method of a precision train head cabinet as in any of the above embodiments.

Compared with the prior art, the effect that this scheme can reach: the readable storage medium is provided with the steps of the fault early warning control method for the precise column head cabinet according to any technical scheme of the invention, so that the method has all the beneficial effects of the method according to any technical scheme of the invention, and the detailed description is omitted.

Drawings

FIG. 1 is a flow chart of steps of a fault pre-warning control method for a precision train head cabinet in some embodiments;

FIG. 2 is a flowchart illustrating another step of a fault pre-warning control method for a precision train head cabinet according to some embodiments;

FIG. 3 is a schematic diagram of a control device;

fig. 4 is a schematic structural diagram of a machine room;

100. a control device; 101. a detection module; 102. a judging module; 103. a control module; 2. a machine room; 201. a processor; 202. a memory.

Detailed Description

So that the manner in which the above recited objects, features and advantages of the present invention can be understood in detail, a more particular description of the invention, briefly summarized above, may be had by reference to embodiments.

Embodiment one:

it should be noted that the problem solved by the invention is how to more accurately realize the fault early warning of the column head cabinet.

In order to solve the above problems, referring to fig. 1 to 2, the embodiment of the present invention provides a fault early warning control method for a precision train head cabinet, including: step S10, controlling the precise head arranging cabinet to normally operate; step S20 is carried out, wherein the precise row header cabinet is set to carry out power distribution at a first preset current value; step S30 is entered to record the distribution current condition of the precise train head cabinet in a first preset time period; wherein, the distribution current condition of accurate first cabinet of lining includes: referring to fig. 2, step S30 is followed by step S40, in which the number of deviations of the precise train head cabinet from the first preset current value is recorded based on the first preset current value; step S50, judging whether the deviation times exceeds a first preset times or not; if yes, entering step S601, and controlling the precise column header cabinet to execute a first preset operation; if not, entering step S602, and recording a deviation range value of the distribution current of each precise row header cabinet relative to a first preset current value; wherein, the running state of the precise head cabinet is controlled according to the deviation range value; specifically, the operation state of the precise train head cabinet is controlled according to the deviation range value, and the method comprises the following steps: step S70 is carried out to calculate the deviation average value of the deviation range value on the record; step S80 is then carried out to judge whether the deviation average value exceeds a first preset threshold value; if yes, the step S901 is entered to control the precise column header cabinet to execute a second preset operation; if not, the step S902 is performed to control the precise column header cabinet to operate in a first state; wherein, control accurate first cabinet of arranging and operate with first state, include: step S100 records the maximum value among the deviation range values; step S200, judging whether the maximum value exceeds a preset deviation upper limit; if yes, step S3001 is entered to control the precision train head cabinet to execute a third predetermined operation; if not, the step S3002 is performed to control the precise column header cabinet to operate normally.

Specifically, the precise train head cabinet is located at the forefront end of the machine room, and the function of the precise train head cabinet is to provide power for direct load, so that the fault early warning control method of the precise train head cabinet in the embodiment is a fault early warning processing method of the precise train head cabinet in power distribution operation, and the power distribution precision of the precise train head cabinet in the embodiment is improved.

It should be noted that, in a machine room, the precise train head cabinet normally operates to perform power distribution operation, and then may perform a power distribution operation with a fixed value output according to a service condition of a specific machine room, that is, the precise train head cabinet is set to perform power distribution with a first preset current value, where the first preset current value is a preset value, and may be specifically set by an operator according to different working conditions, and the first preset current value is set to, for example, 15A in this embodiment, then the precise train head cabinet needs to perform power distribution according to 15A of a set value in a first preset time period, where the first preset time period is also a preset value, and may be set by the operator according to an actual working condition, and in this embodiment, the first preset time period is preferably 1 hour.

That is, in the first stage, a first preset current value and a first preset time period need to be set, so that the precise train head cabinet is ensured to distribute power for 1 hour with preset 15A, wherein due to the existence of power distribution error fluctuation, the precise train head cabinet can have current value fluctuation, that is, at a certain time point, the actual output current value of the precise train head cabinet is 16A or 14A, higher than the first preset current value or lower than the first preset current value, so as to generate power distribution fluctuation, wherein each time point when the system needs to record the fluctuation occurrence is recorded as one time, the times of power distribution fluctuation of the precise train head cabinet in the first preset time period are integrated, the first preset times of the fluctuation is preset in the system, the first preset times are also preset values, and can be set automatically according to different using conditions, and if the last counted times of power distribution fluctuation exceeds ten times, that is greater than ten times of power distribution, the first preset times of the system is controlled by the first preset times, and the abnormal operation of the system is performed. And if the power distribution fluctuation is equal to ten times, the power distribution fluctuation is not exceeded, and the power distribution fluctuation belongs to a normal range.

Further, it should be noted that the instantaneous fluctuation occurring at a time point is recorded by the power distribution fluctuation, and is usually calculated in milliseconds, if the actual power distribution current value of the precise train head cabinet exceeds the protection time, it indicates that the precise train head cabinet also belongs to the power distribution fluctuation abnormality category at this time, the protection time is also a preset value in seconds, and the protection time can be set by an operator according to the actual working condition, where the protection time is set to one second in this embodiment, that is, if the duration fluctuation time of the power distribution fluctuation exceeds one second, it indicates that the power distribution fluctuation of the precise train head cabinet at this time is abnormal, and it is also necessary to control the precise train head cabinet by the system to execute the first preset operation.

Further, if the number of distribution fluctuations is within the first preset number of times, which indicates that the number of distribution fluctuations of the precision train head cabinet is within the normal range, at this time, a deviation range value of the distribution current of the precision train head cabinet with respect to the first preset current value at each time is further recorded, for example, if the first preset current value in this embodiment is 15A, at one time point, the distribution current reaches 15.5A, at this time point, the deviation range value is 0.5A, at another time point, if the distribution current is less than 15A, at this time point, the distribution current is 14.1A, at this corresponding time point, the deviation range value is 0.9A, the positive and negative deviations are both absolute values, and after the actual deviation range value of each fluctuation is obtained, a weighted average value is calculated from the deviation range value at each time, and the weighted average value is the deviation average value in this embodiment, and the weight is the duration of the fluctuation at one time point in milliseconds.

The calculated deviation average value is compared with a first preset threshold value, wherein the first preset threshold value is a preset value, and the first preset threshold value can be set by an operator according to actual conditions. The first preset threshold is preferably set to 0.8A in this embodiment, and when the deviation average value exceeds the first preset threshold, indicating that the power distribution of the precise column header cabinet is abnormal at this time, the precise column header cabinet is controlled to execute a second predetermined operation. If the deviation average value does not exceed the first preset threshold value, including the situation that the deviation average value is equal to the first preset threshold value, the power distribution of the precise train head cabinet is indicated to be in a normal state temporarily at the moment, and then the next step is carried out.

The maximum value in the deviation range value, namely the deviation maximum value, is recorded, the preset deviation upper limit is also a preset value, and can be set by an operator according to the actual working condition of the precise train head cabinet, the preset deviation upper limit in the embodiment is preferably 1.5A, if the maximum value in the deviation range value is detected and recorded to be 1.6A, the maximum value exceeds 1.5A of the deviation upper limit at the moment, the precise train head cabinet is abnormal in power distribution at the moment, the precise train head cabinet is controlled to execute a third preset operation, otherwise, the precise train head cabinet is normally in power distribution, and the precise train head cabinet is in a normal running state.

Further, in this embodiment, in the second preset operation, temperature detection is further performed on the precision train head cabinet, where in the second preset operation, an internal time period is set, the duration of the internal time period is preferably the same as that of the first preset time period in this embodiment, the same detection duration is guaranteed, further, the cabinet body temperature of the precision train head cabinet in the internal time period is detected, meanwhile, when the precision train head cabinet enters the second preset operation based on the first preset temperature, the fluctuation frequency of the cabinet body temperature relative to the first preset temperature is recorded, the cabinet body temperature exceeds the first preset temperature at a point or is lower than the first preset temperature by one time, whether the fluctuation frequency exceeds the internal frequency is judged, if the fluctuation frequency is judged to be no, the precision train head cabinet normally performs the remaining second preset operation, if the absolute value of the cabinet body temperature in the fluctuation frequency is judged to be maximum, and whether the absolute value of the cabinet body temperature exceeds a temperature threshold is judged to be maximum, if the absolute value of the cabinet body temperature in the fluctuation frequency is judged to be maximum, if the absolute value of the cabinet body temperature exceeds the first preset time, shutdown operation is performed on the precision train head cabinet, if the precision train head cabinet protection operation is judged to be performed, and if the precision train power is controlled to be low, and if the residual operation is performed is controlled.

Further, controlling the precision train head cabinet to execute a first predetermined operation includes: recording the deviation times in a first preset time period into an alarm information base; the precise head arranging cabinet is controlled to send first alarm information to an operator; controlling the precision train head cabinet to execute a second preset operation, comprising: recording the recorded deviation average value in a first preset time period into an alarm information base; and controlling the precise column header cabinet to send second alarm information to an operator. Controlling the precision train head cabinet to execute a third preset operation, comprising: recording the maximum value of the deviation range value in a first preset time period into an alarm information base; and controlling the precise column header cabinet to send a third alarm message to an operator.

It should be noted that, the alarm information base is used for storing information, and the offset times in the first preset time period are backed up, so that the follow-up data retrieval is facilitated to realize the data matching operation in the precise train head cabinet, and further, if the precise train head cabinet is in different working environments of different machine rooms, early warning can be realized at a specific time point.

The fault early warning control method of the precise train head cabinet further comprises the following steps: selecting a plurality of first preset time periods to execute a fault early warning control method of the precise train head cabinet; intercepting a plurality of time points in a first preset time period; each first preset time period corresponds to a control result; and recording the first preset time period and the corresponding control result into an alarm information base.

Further, a plurality of continuous first preset time periods are selected to execute the fault early warning control method of the precise train head cabinet. Therefore, a more preferable fault early warning monitoring result can be obtained, and the generation of test errors is reduced.

The fault early warning control method of the precise train head cabinet in the embodiment is executed by selecting the first preset time period on different time points in one natural day, so that the power distribution fluctuation condition of the precise train head cabinet on different time points in one natural day can be determined, and operators can be effectively arranged to watch when the load of a machine room in one natural day is large according to the result, and the stable operation of the machine room is facilitated.

Further, it is preferable to perform the detection at a plurality of time points such as six, twelve, eighteen points on one natural day.

It should be noted that, according to the different priorities, the priority of the communication mode of the first alarm information is greater than that of the second alarm information; the communication mode priority of the second alarm information is larger than that of the third alarm information. For example, the first alarm information is urgent alarm information, so that the first time is preferably the first time to directly inform the operator of the alarm information by playing a voice call, the second alarm information is lower than the first alarm information in priority, the second alarm information is preferably the short message to inform the operator, the third alarm information is preferably the mail to inform the operator, the operator alarms in different modes to complete proper resource configuration, and meanwhile, the operator can know the emergency degree of an event at the first time, so that the operator can conveniently complete repair and adjustment of the precise train cabinet according to the situation.

The fault early warning control method of the precise train head cabinet further comprises the following steps: the plurality of precision column header cabinets are arranged in a rectangular array mode; determining the position information of each precise column header cabinet; the position information is input into a positioning database in a coordinate mode; when the operator receives the alarm information, the position of the precise head cabinet can be rapidly positioned.

It should be noted that, each precision row head cabinet is connected with a corresponding positioning device, a coordinate axis is established, the position of each precision row head cabinet is precisely positioned, each precision row head cabinet is numbered in a coordinate mode, and the precise position of the precision row head cabinet sending out alarm information can be clearly shown in a plane mode on a mobile phone of an operator by combining mobile terminal software, such as mobile phone software.

Furthermore, the precise column header cabinet can be additionally provided with a leakage module, so that the power supply continuity of the machine room equipment is ensured.

The fault early warning control method of the precise train head cabinet further comprises the following steps: integrating the power distribution energy consumption of the precise train head cabinets in a plurality of first time periods; predicting the energy consumption information of each electric equipment on a natural day according to the power distribution energy consumption; the selecting intervals of the first time periods are a second preset time period.

The time period of the first time period is greater than the time period of a first preset time period, the first time period is a time node in a macroscopic sense, the first preset time period is a time node in a microscopic sense, for example, the first time period is selected from one hour after six points in a natural day, which is called the first time period, the first preset time period can be preset to be five minutes, and the control method in the embodiment of the first preset time period can be continuously operated twelve times in the first time period.

In combination with the content in the above embodiment, similarly, the first preset time periods at different time points in a natural day are selected to execute the fault early warning control method of the precise first-row cabinet in the embodiment, so that the power distribution fluctuation condition of the precise first-row cabinet at different time points in the natural day can be determined, the situation that the power distribution fluctuation condition of the machine room is predicted can be deduced, when the load energy consumption of each electric equipment in the machine room is larger and when the load energy consumption is smaller in a complete natural day can be deduced, and the operator can be effectively scheduled to watch when the load of the machine room in the natural day is larger according to the result, so that the stable operation of the machine room is facilitated.

The second preset time period is a preset value, and the second preset time period can be set according to different use conditions, wherein in the embodiment, the setting of the second preset time period is preferably six hours, namely detection is performed at a plurality of time points such as six points, twelve points and eighteen points in a natural day, and the second preset time period is arranged between the six points and the twelve points, so that a complete natural day is divided into three stages of morning, evening and evening, and the electricity consumption conditions of different stages in the natural day can be completely integrated, thereby being convenient for running management of different intensities in different time periods in the natural day for a machine room.

Embodiment two:

referring to fig. 3 to 4, the present embodiment provides a control device 100, where the control device 100 is used for controlling the fault early warning control method of the precision train head cabinet according to any one of the above embodiments, and the control device 100 includes: the detection module 101 is used for detecting and acquiring the current distribution condition of the precise train head cabinet; the judging module 102 is used for judging the current running state of the precise train head cabinet according to the current distribution condition; and the control module 103 is used for controlling the precise column header cabinet to execute corresponding operation.

It should be noted that, the control device 100 in the present technical solution can implement the steps of the fault early warning control method of the precise train head cabinet in any one of the technical solutions of the present invention, so that the method has the beneficial effects of any one of the technical solutions described above, and is not repeated herein.

Further, this embodiment provides a machine room 2, the machine room 2 includes: the processor 201, the memory 202, and a program or instructions stored in the memory 202 and executable on the processor 201, which when executed by the processor 201, implement the steps of the fault early warning control method of the precision train head cabinet according to any one of the above embodiments.

The machine room 2 in the present technical solution can implement the solution of any one of the above technical solutions because the machine room 2 can execute the steps of the fault early warning control method of the precise column header cabinet of any one of the above technical solutions, and the machine room 2 in the present technical solution has the beneficial effects of any one of the above technical solutions, which is not repeated herein.

Further, the present embodiment provides a readable storage medium, on which a program or an instruction is stored, which when executed by the processor 201, implements the steps of the fault early warning control method of the precision train head cabinet according to any one of the above embodiments.

It should be noted that, the steps of the fault early warning control method for implementing the precise column header cabinet according to any one of the embodiments of the present invention are located in the readable storage medium, so that the method has all the advantages of the method according to any one of the embodiments of the present invention, and will not be described herein.

The readable storage medium may be any combination of one or more readable medium, and the readable storage medium may be a readable signal medium or a readable storage medium, and the readable storage medium may include, for example, but not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any combination of the foregoing. More specific examples of the readable storage medium include: an electrical connection having one or more wires, a portable disk, a hard disk, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber, a portable compact disk read-only memory, an optical storage device, a magnetic storage device, or any suitable combination of the foregoing.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention, and the scope of the invention should be assessed accordingly to that of the appended claims.

Claims (10)

1. The fault early warning control method of the precise train head cabinet is characterized by comprising the following steps of:

controlling the precise head arranging cabinet to normally operate;

setting the precise train head cabinet to distribute power at a first preset current value;

recording the distribution current condition of the precise column header cabinet in a first preset time period;

the distribution current condition of the precision train head cabinet comprises:

recording the deviation times of the precise row header cabinet relative to the first preset current value when the precise row header cabinet performs power distribution by taking the first preset current value as a reference;

judging whether the deviation times exceed a first preset times or not;

if yes, controlling the precise column header cabinet to execute a first preset operation;

if not, recording a deviation range value of the distribution current of the precise column header cabinet relative to the first preset current value each time;

controlling the running state of the precise train head cabinet according to the deviation range value;

the controlling the operation state of the precise train head cabinet according to the deviation range value comprises the following steps:

calculating a deviation average value of the deviation range values on the record;

judging whether the deviation average value exceeds a first preset threshold value or not;

if yes, controlling the precise column header cabinet to execute a second preset operation;

if not, controlling the precise head arranging cabinet to operate in a first state;

the control of the precision train head cabinet to operate in a first state includes:

recording the maximum value among the deviation range values;

judging whether the maximum value exceeds a preset deviation upper limit or not;

if yes, controlling the precise column header cabinet to execute a third preset operation;

if not, controlling the precise train head cabinet to normally operate.

2. The fault pre-warning control method of the precision train head cabinet according to claim 1, wherein the controlling the precision train head cabinet to perform a first predetermined operation includes:

recording the deviation times in the first preset time period into an alarm information base;

controlling the precise head-arranging cabinet to send first alarm information to an operator;

the controlling the precise column header cabinet to execute a second preset operation comprises the following steps:

recording the recorded deviation average value in the first preset time period into the alarm information base;

controlling the precise head-arranging cabinet to send second alarm information to the operator;

the controlling the precise column header cabinet to execute a third predetermined operation includes:

recording the maximum value of the deviation range value in the first preset time period into the alarm information library;

and controlling the precise head-arranging cabinet to send a third alarm message to the operator.

3. The fault early warning control method of the precision train head cabinet according to claim 2, comprising:

selecting a plurality of first preset time periods to execute a fault early warning control method of the precise train head cabinet;

intercepting a plurality of time points in the first preset time period;

each first preset time period corresponds to one control result;

and inputting the first preset time period and the corresponding control result into the alarm information base.

4. The fault pre-warning control method of the precise train head cabinet according to claim 3, wherein,

and selecting a plurality of continuous first preset time periods to execute the fault early warning control method of the precise train head cabinet.

5. The fault pre-warning control method of the precise train head cabinet according to claim 2, wherein,

the communication mode priority of the first alarm information is greater than that of the second alarm information;

the communication mode priority of the second alarm information is greater than that of the third alarm information.

6. The fault early warning control method of the precision train head cabinet according to claim 2, comprising:

the plurality of precision column header cabinets are arranged in a rectangular array mode;

determining the position information of each precise column header cabinet;

the position information is input into a positioning database in a coordinate mode;

when the operator receives the alarm information, the position of the precise train head cabinet can be rapidly positioned.

7. The fault pre-warning control method of the precision train head cabinet according to claim 3, further comprising:

integrating the power distribution energy consumption of the precise train head cabinet in a plurality of first time periods;

predicting energy consumption information of each electric equipment on a natural day according to the power distribution energy consumption;

wherein, the selecting of the plurality of first time periods is separated by a second preset time period.

8. A control device for controlling the fault early warning control method of the precision train head cabinet according to any one of claims 1 to 7, the control device comprising:

the detection module is used for detecting and acquiring the current distribution condition of the precise column header cabinet;

the judging module is used for judging the current running state of the precise train head cabinet according to the current distribution condition;

and the control module is used for controlling the precise column header cabinet to execute corresponding operation.

9. A machine room, characterized in that the machine room comprises:

a processor, a memory, and a program or instructions stored on the memory and executable on the processor, which when executed by the processor, implement the steps of the fault pre-warning control method of a precision train head cabinet according to any one of claims 1 to 7.

10. A readable storage medium, wherein a program or instructions are stored on the readable storage medium, which when executed by a processor, implement the steps of the fault early warning control method of a precision train head cabinet according to any one of claims 1 to 7.

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