CN116308053A - Electric power material data association processing method - Google Patents

Abstract

The invention relates to the technical field of power systems, in particular to a power material data association processing method, which comprises the following steps of S1, integrating the stock quantity and the stock position of each power material; step S2, the main control unit monitors each electric power material and judges whether material supplementation is needed or not; and step S3, when the main control unit judges that certain electric materials in a certain warehouse need to be supplemented, the main control unit judges a supplement scheme according to the residual quantity and the distance of the materials in other warehouses. When the quantity of the electric power supplies is monitored, the invention sets the size period for monitoring the consumption of the electric power supplies, the size period corresponds to the same-ratio loop ratio data of the consumption of the electric power supplies respectively, and the consumption speed of the electric power supplies is estimated in advance by comparing with the historical data, so that the electric power supplies are reasonably supplemented, and the shortage of the electric power supplies is prevented, and the operation of electric power projects is influenced.

Description

Electric power material data association processing method

Technical Field

The invention relates to the technical field of power systems, in particular to a power material data association processing method.

Background

The power material management is an important component of enterprise material management, and refers to an enterprise operation activity which occurs in the normal operation process of a power enterprise and is used for organizing, planning, coordinating and controlling various materials needing to be ordered, transported, reserved and supplied, and is also an important component of power enterprise management.

Chinese patent publication No.: CN111563712a discloses a power material management system, comprising: the electronic tag is arranged on the surface of the material, and relevant data information of the material is stored in the electronic tag; the conveying belt is used for conveying the materials and conveying the materials with the electronic tags to a storage warehouse; at least one row of storage racks arranged in the warehouse, wherein the storage racks are arranged perpendicular to the conveying belt, a plurality of storage chambers are arranged on the storage racks, and each storage chamber is provided with a detection sensor; the top of each row of storage racks is also provided with a mechanical arm which moves along the direction of the storage rack; the mechanical arm is controlled by a storage rack controller, and the storage rack controller is also connected with the detection sensor; the storage rack controllers are connected to the master controller, and the master controller is connected with a memory and a man-machine interaction module.

The current power material supervision system only supervises the material category, the position and the like, and is insufficient in power material consumption and supplement supervision.

Disclosure of Invention

Therefore, the invention provides a power material data association processing method which is used for solving the problem that the current power material supervision system in the prior art is insufficient in supervision on power material consumption and supplement.

In order to achieve the above object, the present invention provides a power material data association processing method, comprising,

step S1, integrating the stock quantity and the stock position of each electric power material;

step S2, the main control unit monitors each electric power material and judges whether material supplementation is needed or not;

step S3, when the main control unit judges that a certain electric material in a certain warehouse needs to be supplemented, the main control unit judges a supplement scheme according to the residual quantity and the distance of the material in other warehouses;

the main control unit is internally provided with a large material consumption monitoring period and a small material consumption monitoring period, and when monitoring certain electric power materials, the main control unit is provided with a material residual quantity monitoring value, wherein the material residual quantity monitoring value is determined by the amount of the electric power material consumption in the last small material consumption monitoring period and the same history period as the large material consumption monitoring period.

Further, the main control unit can monitor the electric power material reserve condition of a plurality of warehouses simultaneously, and when the main control unit monitored the electric power material reserve condition of a plurality of warehouses simultaneously, the main control unit numbered the warehouse of monitoring, is provided with the material surplus monitoring value to this kind of electric power material in the main control unit to any one of the warehouse of monitoring, and when the material stock surplus of monitoring changed, the main control unit compares surplus and material surplus monitoring value for judge whether need to supply the material of monitoring.

Further, for the monitoring value of the material remaining amount of a certain electric material in any warehouse, the main control unit determines whether to adjust the value of the monitoring value according to the consumption of the electric material consumed by the warehouse in the last small period of material consumption monitoring.

Further, the electric power materials are classified according to types and numbered, and An electric power material type matrix A0 and A0 (A1, A2, an.) are arranged in the main control unit, wherein A1 is a first type electric power material, A2 is a second type electric power material, an is An n type electric power material, and n is a positive integer;

the main control unit is internally provided with a material residual quantity monitoring value matrix B0, B0 (B1, B2, and Bn), wherein B1 is a first type of electric material residual quantity monitoring value, B2 is a second type of electric material residual quantity monitoring value, and Bn is an nth type of electric material residual quantity monitoring value;

the main control unit can detect the electric power material reserve conditions of a plurality of warehouses simultaneously;

the master control unit numbers the monitored warehouses, respectively a first warehouse, a second warehouse, an m-th warehouse, m being a positive integer,

for the i-th type electric power material residual quantity monitoring value Bi, the values set by different warehouses are different and change along with the period, and are influenced by the historical synchronous consumption data and the similar historical data to change, and the i-th type electric power material residual quantity monitoring value of the j-th warehouse is Bji.

Further, in the process of monitoring the electric power supplies of the jth warehouse by the main control unit, j=1, 2, m. when the stock remaining amount of the i-th type power supply Ai existing in the j-th warehouse is changed, the method comprises the steps that a main control unit obtains the stock remaining quantity Cji of the ith electric power material in a jth warehouse, and compares the stock remaining quantity Cji with an i electric power material remaining quantity monitoring value Bji, i=1, 2;

when Cji is larger than Bji, the main control unit judges that the ith type of electric power materials do not need to be supplemented;

when Cji is less than or equal to Bji, the main control unit judges that the ith type of electric power materials need to be supplemented.

Further, a large material consumption monitoring period T and a small material consumption monitoring period T are arranged in the main control unit, a timing unit is arranged in the main control unit, when one small material consumption monitoring period T passes, the main control unit counts the ith electric power material consumption value Dji in the jth warehouse in the small period, the main control unit is internally provided with the ith electric power material consumption evaluation value Dpi, the main control unit compares the ith electric power material consumption value Dji with the ith electric power material consumption evaluation value Dpi,

when Dji is less than or equal to Dpi, the main control unit does not adjust the value of the i-th type electric power material residual quantity monitoring value;

when Dji is more than Dpi, the main control unit adjusts the value of the i-th type electric power material residual quantity monitoring value.

Further, when the value of the i-th type electric power material remaining amount monitoring value is adjusted, bji=bi+e× (Dji-Dpi), where bi is a base value of the i-th type electric power material remaining amount monitoring value, and E is a calculated adjustment parameter of the i-th type electric power material remaining amount monitoring value.

When the value of the i-th type electric power material remaining quantity monitoring value is not adjusted, the value of the i-th type electric power material remaining quantity monitoring value is the same as the value of the last material consumption monitoring small period, and when the last small period bji=b does not exist.

Further, for the basic value bi of the monitored value of the residual quantity of the electric power material, the main control unit counts the i-th type of electric power material consumption value Fi in a large period T of monitoring the consumption of the electric power material, a first preset consumption evaluation value F1, a second preset consumption evaluation value F2, the basic value bi1 of the first preset residual quantity monitored value, the basic value bi2 of the second preset residual quantity monitored value, the basic value bi3 of the third preset residual quantity monitored value, F1 is smaller than F2, bi1 is smaller than bi3, the main control unit compares Fi with the first preset consumption evaluation value F1 and the second preset consumption evaluation value F2,

when Fi is less than or equal to F1, the main control unit selects the value of a basic value bi1 of a first preset residual quantity monitoring value as the value of the basic value bi of the electric power material residual quantity monitoring value;

when F1 is smaller than Fi and smaller than F2, the main control unit selects the value of a basic value bi2 of the second preset residual quantity monitoring value as the value of the basic value bi of the electric power material residual quantity monitoring value;

when Fi > F2, the main control unit selects the value of the base value bi3 of the third preset remaining amount monitoring value as the value of the base value bi of the electric power material remaining amount monitoring value.

Further, the main control unit is internally provided with a calculated adjustment parameter value E1 of a first preset electric power material residual quantity monitoring value, a calculated adjustment parameter value E2 of a second preset electric power material residual quantity monitoring value, a calculated adjustment parameter value E3 of a third preset electric power material residual quantity monitoring value, a first electric power material consumption value Dz1, a second electric power material consumption value Dz2, and the main control unit determines the value of the calculated adjustment parameter E of the electric power material residual quantity monitoring value according to the value of Dji-Dpi,

when Dji-Dpi is less than or equal to Dz1, the main control unit selects a calculated regulating parameter value E1 of a first preset electric power material residual quantity monitoring value as a calculated regulating parameter E of the electric power material residual quantity monitoring value;

when Dz1 is smaller than Dji-Dpi and smaller than or equal to Dz2, the main control unit selects a calculated regulating parameter value E2 of a second preset electric power material residual quantity monitoring value as a calculated regulating parameter E of the electric power material residual quantity monitoring value;

when Dji-Dpi is larger than Dz2, the main control unit selects a calculated regulating parameter value E3 of a third preset electric power material residual quantity monitoring value as a calculated regulating parameter E of the electric power material residual quantity monitoring value.

Further, when the main control unit determines that the ith type of electric power material needs to be supplemented, the main control unit screens the quantity of the ith type of electric power material in other warehouses, for the kth warehouse, k=1, 2..m, the main control unit compares the inventory remaining quantity Cki of the ith type of electric power material in the kth warehouse with a P times of monitoring value Bki of the ith type of electric power material remaining quantity,

when Cki is more than or equal to PBki, the main control unit judges that the inventory remaining amount of the ith type of electric power materials in the kth warehouse meets the allocation requirement;

when Cki < PBki, the main control unit judges that the stock remaining amount of the ith type of electric power materials in the kth warehouse does not meet the allocation requirement.

The main control unit judges the i-th type electric power material remaining amount in all the monitored warehouses to be the same as the k-th warehouse;

when the warehouse with the inventory remaining quantity of the ith electric power material meeting the allocation requirement does not exist, the main control unit judges that the ith electric power material needs to be purchased to supplement the ith electric power material in the jth warehouse;

when the inventory remaining quantity of the ith electric power material is stored in a warehouse meeting the allocation requirement, the main control unit judges the replenishment mode of the ith electric power material in the jth warehouse according to the conveying distance;

when the inventory remaining amount of the ith type of electric power materials in one warehouse meets the allocation requirement, the main control unit judges that the warehouse is a transportation alternative warehouse;

when the inventory remaining quantity of the ith electric power material in the plurality of warehouses meets the allocation requirement, the main control unit selects a warehouse closest to the transportation distance of the jth warehouse as a transportation alternative warehouse;

the main control unit obtains the transportation distance Lq between the transportation alternative warehouse and the jth warehouse, the main control unit is provided with a transportation distance evaluation value Lz, the main control unit compares the transportation distance Lq with the transportation distance evaluation value Lz,

when Lq is less than or equal to Lz, the main control unit judges that the supplementing mode of the ith electric power material in the jth warehouse is transferring and allocating from the transportation alternative warehouse;

when Lq is larger than Lz, the main control unit judges that the supplementing mode of the ith electric power material in the jth warehouse is to purchase the electric power material outwards;

the value of the transportation distance evaluation value Lz is determined according to the value of Dji-Dpi, and Lz increases as the result of Dji-Dpi increases.

Compared with the prior art, the method has the beneficial effects that when the quantity of the electric power supplies is monitored, the size period of the supply consumption monitoring is set, the size period corresponds to the same-ratio data of the supply consumption respectively, the supply consumption speed is estimated in advance by comparing with the historical data, the supply is reasonably supplemented, and the shortage of the supply reserve of the electric power supplies is prevented, so that the operation of the electric power project is prevented from being influenced.

Further, the same data association system can detect the quantity of each electric power material in a plurality of warehouses at the same time, so that the rationality of material supplement is guaranteed to a certain extent, the scheduling of later-stage electric power materials is facilitated, and the accuracy of monitoring results is improved.

Further, when the electric power material evaluation is performed, the electric power material residual quantity monitoring value is set, and the data evaluation is performed intuitively, so that the evaluation result is more intuitive and accurate. When the electric power project is carried out, the electric power supplies are called by adopting the nearby principle, so that the monitoring values set by different positions of the warehouse are different, the rationality of data setting is increased, and the dispatching and the supplement of the electric power supplies in the later period are convenient.

Further, the small cycle of monitoring the consumption of the electric power materials is set, the monitoring value of the next cycle is adjusted through the consumption of the previous cycle, the electric power project is centralized in real time, when the consumption of one small cycle is increased, the consumption of the next few cycles is likely to be increased, therefore, the monitoring value of the residual quantity of the electric power materials is adjusted, the monitoring accuracy is guaranteed, and meanwhile, the electric power material reserve is guaranteed to be sufficient when the electric power project is carried out.

Further, when the consumption of the last small period is used for adjusting the monitoring value of a certain electric power material in the next small period, the consumption of the electric power material in the last large period is counted, the larger the consumption is, the larger the adjusted value is, and the more the consumption of the certain electric power material is in the one large period, so that the monitoring value of the electric power material is enlarged when the electric power project is carried out.

Further, when the consumption of the previous small period is used for adjusting a certain electric power material monitoring value of the next small period, the difference between the residual quantity and the monitoring value is calculated, the larger the difference is, the larger the risk of insufficient material is indicated, and the numerical value of the adjusting parameter is increased at the moment, so that the sufficiency of electric power materials is ensured.

Further, when the electric power supplies of a certain warehouse need to be supplemented, the residual amount and the distance of the supplies of other warehouses are counted, the supply mode is comprehensively judged through the residual amount and the distance, the resources are reasonably utilized, and excessive purchasing of the certain supplies is prevented.

Drawings

FIG. 1 is a flowchart of a method for associating and processing electric power material data in an embodiment.

Detailed Description

In order that the objects and advantages of the invention will become more apparent, the invention will be further described with reference to the following examples; it should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that, in the description of the present invention, terms such as "upper," "lower," "left," "right," "inner," "outer," and the like indicate directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to the specific circumstances.

Fig. 1 is a flowchart of a power material data association processing method in an embodiment.

The invention discloses a method for associating and processing electric power material data, which comprises the following steps,

step S1, integrating the stock quantity and the stock position of each electric power material;

step S2, the main control unit monitors each electric power material and judges whether material supplementation is needed or not;

step S3, when the main control unit judges that a certain electric material in a certain warehouse needs to be supplemented, the main control unit judges a supplement scheme according to the residual quantity and the distance of the material in other warehouses;

the main control unit is internally provided with a large material consumption monitoring period and a small material consumption monitoring period, and when monitoring certain electric power materials, the main control unit is provided with a material residual quantity monitoring value, wherein the material residual quantity monitoring value is determined by the amount of the electric power material consumption in the last small material consumption monitoring period and the same history period as the large material consumption monitoring period.

When the quantity of the electric power supplies is monitored, the size period of the supply consumption monitoring is set, the size period corresponds to the same-ratio annular ratio data of the supply consumption respectively, the supply consumption speed is estimated in advance through comparison with the historical data, the supply is reasonably supplemented, the shortage of the supply of the electric power supplies is prevented, and the operation of the electric power project is influenced.

Classifying and numbering electric power supplies according to types, wherein a main control unit is internally provided with An electric power supply type matrix A0, A0 (A1, A2, an.) wherein A1 is a first type electric power supply, A2 is a second type electric power supply, an is An nth type electric power supply, and n is a positive integer;

the main control unit is internally provided with a material residual quantity monitoring value matrix B0, B0 (B1, B2, and Bn), wherein B1 is a first type of electric material residual quantity monitoring value, B2 is a second type of electric material residual quantity monitoring value, and Bn is an nth type of electric material residual quantity monitoring value;

the main control unit can detect the electric power material reserve conditions of a plurality of warehouses simultaneously;

the master control unit numbers the monitored warehouses, respectively a first warehouse, a second warehouse, an m-th warehouse, m being a positive integer,

the same data association system can detect the quantity of all electric power supplies of a plurality of warehouses simultaneously, ensures the rationality of supply supplement to a certain extent, facilitates the scheduling of electric power supplies in later period, and increases the accuracy of monitoring results.

For the i-th type electric power material residual quantity monitoring value Bi, the values set by different warehouses are different and change along with the period, and are influenced by the historical synchronous consumption data and the similar historical data to change, and the i-th type electric power material residual quantity monitoring value of the j-th warehouse is Bji.

In the process of monitoring the electric power supplies of the jth warehouse by the main control unit, j=1, 2..m, when the stock remaining amount of the i-th electric power supplies Ai in the jth warehouse is changed, the method comprises the steps that a main control unit obtains the stock remaining quantity Cji of the ith electric power material in a jth warehouse, and compares the stock remaining quantity Cji with an i electric power material remaining quantity monitoring value Bji, i=1, 2;

when Cji is larger than Bji, the main control unit judges that the ith type of electric power materials do not need to be supplemented;

when Cji is less than or equal to Bji, the main control unit judges that the ith type of electric power materials need to be supplemented.

When the electric power material evaluation is performed, the electric power material residual quantity monitoring value is set, and the data evaluation is performed intuitively, so that the evaluation result is more intuitive and accurate. When the electric power project is carried out, the electric power supplies are called by adopting the nearby principle, so that the monitoring values set by different positions of the warehouse are different, the rationality of data setting is increased, and the dispatching and the supplement of the electric power supplies in the later period are convenient.

The main control unit is internally provided with a large material consumption monitoring period T and a small material consumption monitoring period T, the main control unit is internally provided with a timing unit, when one small material consumption monitoring period T passes, the main control unit counts the ith electric power material consumption value Dji in the jth warehouse in the small period, the main control unit is internally provided with an ith electric power material consumption evaluation value Dpi, the main control unit compares the ith electric power material consumption value Dji with the ith electric power material consumption evaluation value Dpi,

when Dji is less than or equal to Dpi, the main control unit does not adjust the value of the i-th type electric power material residual quantity monitoring value;

when Dji is more than Dpi, the main control unit adjusts the value of the i-th type electric power material residual quantity monitoring value.

The monitoring value of the next period is adjusted through the consumption of the previous period, the power project is concentrated in real time, and when the consumption of one small period is increased, the consumption of a plurality of adjacent later periods is increased, so that the monitoring value of the residual quantity of the power material is adjusted, the monitoring accuracy is guaranteed, and meanwhile, the sufficiency of the power material reserve is guaranteed when the power project is carried out.

When the value of the i-th type electric power material residual quantity monitoring value is adjusted, bji=bi+E× (Dji-Dpi), wherein bi is a basic value of the i-th type electric power material residual quantity monitoring value, and E is a calculation adjustment parameter of the i-th type electric power material residual quantity monitoring value.

When the value of the i-th type electric power material remaining quantity monitoring value is not adjusted, the value of the i-th type electric power material remaining quantity monitoring value is the same as the value of the last material consumption monitoring small period, and when the last small period bji=b does not exist.

For the basic value bi of the electric power material residual quantity monitoring value, the main control unit counts the i-th electric power material consumption value Fi in the previous material consumption monitoring large period T, a first preset consumption evaluation value F1, a second preset consumption evaluation value F2, the basic value bi1 of the first preset residual quantity monitoring value, the basic value bi2 of the second preset residual quantity monitoring value, the basic value bi3 of the third preset residual quantity monitoring value, F1 is smaller than F2, bi1 is smaller than bi3, the main control unit compares Fi with the first preset consumption evaluation value F1 and the second preset consumption evaluation value F2,

when Fi is less than or equal to F1, the main control unit selects the value of a basic value bi1 of a first preset residual quantity monitoring value as the value of the basic value bi of the electric power material residual quantity monitoring value;

when F1 is smaller than Fi and smaller than F2, the main control unit selects the value of a basic value bi2 of the second preset residual quantity monitoring value as the value of the basic value bi of the electric power material residual quantity monitoring value;

when Fi > F2, the main control unit selects the value of the base value bi3 of the third preset remaining amount monitoring value as the value of the base value bi of the electric power material remaining amount monitoring value.

When the consumption of the last small period is used for adjusting a certain electric power material monitoring value of the next small period, the consumption of the last large period of the electric power material is counted, the larger the consumption is, the larger the adjusted value is, and the more certain electric power material is consumed in the large period, so that the material consumption is large when an electric power project is carried out, and the material monitoring value is enlarged.

The main control unit is internally provided with a calculated regulating parameter value E1 of a first preset electric power material residual quantity monitoring value, a calculated regulating parameter value E2 of a second preset electric power material residual quantity monitoring value, a calculated regulating parameter value E3 of a third preset electric power material residual quantity monitoring value, E1 is less than E2 and less than E3, a first electric power material consumption value Dz1 and a second electric power material consumption value Dz2, the main control unit determines the value of the calculated regulating parameter E of the electric power material residual quantity monitoring value according to the value of Dji-Dpi,

when Dji-Dpi is less than or equal to Dz1, the main control unit selects a calculated regulating parameter value E1 of a first preset electric power material residual quantity monitoring value as a calculated regulating parameter E of the electric power material residual quantity monitoring value;

when Dz1 is smaller than Dji-Dpi and smaller than or equal to Dz2, the main control unit selects a calculated regulating parameter value E2 of a second preset electric power material residual quantity monitoring value as a calculated regulating parameter E of the electric power material residual quantity monitoring value;

when Dji-Dpi is larger than Dz2, the main control unit selects a calculated regulating parameter value E3 of a third preset electric power material residual quantity monitoring value as a calculated regulating parameter E of the electric power material residual quantity monitoring value.

When the consumption of the last small period is used for adjusting a certain electric power material monitoring value of the next small period, the difference between the residual quantity and the monitoring value is calculated, the larger the difference is, the larger the risk of insufficient material is, and the value of the adjusting parameter is increased at the moment, so that the sufficiency of electric power materials is ensured.

When the main control unit judges that the ith electric power material needs to be supplemented, the main control unit screens the quantity of the ith electric power material of other warehouses, and for the kth warehouse, k=1, 2, m, the main control unit compares the inventory remaining quantity Cki of the ith electric power material in the kth warehouse with the P times of the monitoring value Bki of the ith electric power material remaining quantity,

when Cki is more than or equal to PBki, the main control unit judges that the inventory remaining amount of the ith type of electric power materials in the kth warehouse meets the allocation requirement;

when Cki < PBki, the main control unit judges that the stock remaining amount of the ith type of electric power materials in the kth warehouse does not meet the allocation requirement.

And the main control unit judges the i-th type electric power material remaining amount in all the monitored warehouses to be the same as the k-th warehouse.

When the warehouse with the inventory remaining quantity of the ith electric power material meeting the allocation requirement does not exist, the main control unit judges that the ith electric power material needs to be purchased to supplement the ith electric power material in the jth warehouse;

when the stock remaining quantity of the ith electric power material is stored in the warehouse meeting the allocation requirement, the main control unit judges the replenishment mode of the ith electric power material in the jth warehouse according to the conveying distance.

When the inventory remaining amount of the ith type of electric power materials in one warehouse meets the allocation requirement, the main control unit judges that the warehouse is a transportation alternative warehouse;

when the inventory remaining quantity of the ith electric power material in the plurality of warehouses meets the allocation requirement, the main control unit selects a warehouse closest to the transportation distance of the jth warehouse as a transportation alternative warehouse;

the main control unit obtains the transportation distance Lq between the transportation alternative warehouse and the jth warehouse, the main control unit is provided with a transportation distance evaluation value Lz, the main control unit compares the transportation distance Lq with the transportation distance evaluation value Lz,

when Lq is less than or equal to Lz, the main control unit judges that the supplementing mode of the ith electric power material in the jth warehouse is transferring and allocating from the transportation alternative warehouse;

when Lq is larger than Lz, the main control unit judges that the supplementing mode of the ith electric power material in the jth warehouse is to purchase the electric power material externally.

The value of the transportation distance evaluation value Lz is determined according to the value of Dji-Dpi, and Lz increases as the result of Dji-Dpi increases.

When the electric power supplies of a certain warehouse need to be supplemented, the residual amount and the distance of the supplies of other warehouses are counted, the supply mode of the supplies is comprehensively judged through the residual amount and the distance, the resources are reasonably utilized, and the excessive buying of the certain supplies is prevented.

Thus far, the technical solution of the present invention has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present invention is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present invention, and such modifications and substitutions will be within the scope of the present invention.

Claims (10)

1. A method for associating and processing electric power material data is characterized by comprising the following steps of,

step S1, integrating the stock quantity and the stock position of each electric power material;

step S2, the main control unit monitors each electric power material and judges whether material supplementation is needed or not;

step S3, when the main control unit judges that a certain electric material in a certain warehouse needs to be supplemented, the main control unit judges a supplement scheme according to the residual quantity and the distance of the material in other warehouses;

the main control unit is internally provided with a large material consumption monitoring period and a small material consumption monitoring period, and when monitoring certain electric power materials, the main control unit is provided with a material residual quantity monitoring value, wherein the material residual quantity monitoring value is determined by the amount of the electric power material consumption in the last small material consumption monitoring period and the same history period as the large material consumption monitoring period.

2. The method according to claim 1, wherein the master control unit is capable of monitoring the power supply reserve conditions of a plurality of warehouses simultaneously, and when the master control unit monitors the power supply reserve conditions of a plurality of warehouses simultaneously, the master control unit numbers the monitored warehouses, and for any power supply in any monitored warehouse, a supply remaining monitoring value for the power supply is provided in the master control unit, and when the monitored supply remaining changes, the master control unit compares the remaining with the supply remaining monitoring value to determine whether the monitored supply needs to be replenished.

3. The method according to claim 2, wherein for a monitored value of a remaining amount of a certain electric power material in any warehouse, the main control unit determines whether to adjust the value of the monitored value according to the consumption of the electric power material consumed in the warehouse in a small period of monitoring the previous consumption of the electric power material.

4. The electric power material data association processing method according to claim 3, wherein electric power materials are classified and numbered according to types, and electric power material type matrixes A0, A0 (A1, A2, an.) are arranged in the main control unit, wherein A1 is a first type of electric power material, A2 is a second type of electric power material, an is An n type of electric power material, and n is a positive integer;

the main control unit is internally provided with a material residual quantity monitoring value matrix B0, B0 (B1, B2, and Bn), wherein B1 is a first type of electric material residual quantity monitoring value, B2 is a second type of electric material residual quantity monitoring value, and Bn is an nth type of electric material residual quantity monitoring value;

the main control unit can detect the electric power material reserve conditions of a plurality of warehouses simultaneously;

the master control unit numbers the monitored warehouses, respectively a first warehouse, a second warehouse, an m-th warehouse, m being a positive integer,

for the i-th type electric power material residual quantity monitoring value Bi, the values set by different warehouses are different and change along with the period, and are influenced by the historical synchronous consumption data and the similar historical data to change, and the i-th type electric power material residual quantity monitoring value of the j-th warehouse is Bji.

5. The method according to claim 4, wherein j=1, 2, m, when the stock remaining amount of the i-th type power supply Ai in the j-th warehouse is changed in the process of monitoring the power supply of the j-th warehouse by the main control unit, the method comprises the steps that a main control unit obtains the stock remaining quantity Cji of the ith electric power material in a jth warehouse, and compares the stock remaining quantity Cji with an i electric power material remaining quantity monitoring value Bji, i=1, 2;

when Cji is larger than Bji, the main control unit judges that the ith type of electric power materials do not need to be supplemented;

when Cji is less than or equal to Bji, the main control unit judges that the ith type of electric power materials need to be supplemented.

6. The method of claim 5, wherein the main control unit has a large material consumption monitoring period T and a small material consumption monitoring period T, the main control unit has a timer unit, when a small material consumption monitoring period T passes, the main control unit counts the i-th type power material consumption value Dji in the j-th warehouse in the small period, the main control unit has the i-th type power material consumption evaluation value Dpi, and compares the i-th type power material consumption value Dji with the i-th type power material consumption evaluation value Dpi,

when Dji is less than or equal to Dpi, the main control unit does not adjust the value of the i-th type electric power material residual quantity monitoring value;

when Dji is more than Dpi, the main control unit adjusts the value of the i-th type electric power material residual quantity monitoring value.

7. The electric power supply data association processing method according to claim 6, wherein, when the value of the i-th type electric power supply remaining amount monitor value is adjusted, bji=bi+e× (Dji-Dpi), where bi is a base value of the i-th type electric power supply remaining amount monitor value, and E is a calculation adjustment parameter of the i-th type electric power supply remaining amount monitor value;

when the value of the i-th type electric power material remaining quantity monitoring value is not adjusted, the value of the i-th type electric power material remaining quantity monitoring value is the same as the value of the last material consumption monitoring small period, and when the last small period bji=b does not exist.

8. The method according to claim 7, wherein for the basic value bi of the monitored value of the residual amount of the electric power material, the main control unit counts the i-th type of the consumed value Fi of the electric power material in a large period T of monitoring the consumption amount of the electric power material, the main control unit is internally provided with a first preset consumption evaluation value F1, a second preset consumption evaluation value F2, the basic value bi1 of the first preset residual amount monitored value, the basic value bi2 of the second preset residual amount monitored value, the basic value bi3 of the third preset residual amount monitored value, F1 < F2, bi1 < bi2 < bi3, compares Fi with the first preset consumption evaluation value F1 and the second preset consumption evaluation value F2,

when Fi is less than or equal to F1, the main control unit selects the value of a basic value bi1 of a first preset residual quantity monitoring value as the value of the basic value bi of the electric power material residual quantity monitoring value;

when F1 is smaller than Fi and smaller than F2, the main control unit selects the value of a basic value bi2 of the second preset residual quantity monitoring value as the value of the basic value bi of the electric power material residual quantity monitoring value;

when Fi > F2, the main control unit selects the value of the base value bi3 of the third preset remaining amount monitoring value as the value of the base value bi of the electric power material remaining amount monitoring value.

9. The method according to claim 8, wherein the main control unit is provided with a calculated adjustment parameter value E1 of a first preset power material remaining amount monitor value, a calculated adjustment parameter value E2 of a second preset power material remaining amount monitor value, a calculated adjustment parameter value E3 of a third preset power material remaining amount monitor value, a first power material consumption value Dz1, a second power material consumption value Dz2, and a main control unit determines a value of a calculated adjustment parameter E of a power material remaining amount monitor value according to the value of Dji-Dpi,

when Dji-Dpi is less than or equal to Dz1, the main control unit selects a calculated regulating parameter value E1 of a first preset electric power material residual quantity monitoring value as a calculated regulating parameter E of the electric power material residual quantity monitoring value;

when Dz1 is smaller than Dji-Dpi and smaller than or equal to Dz2, the main control unit selects a calculated regulating parameter value E2 of a second preset electric power material residual quantity monitoring value as a calculated regulating parameter E of the electric power material residual quantity monitoring value;

when Dji-Dpi is larger than Dz2, the main control unit selects a calculated regulating parameter value E3 of a third preset electric power material residual quantity monitoring value as a calculated regulating parameter E of the electric power material residual quantity monitoring value.

10. The method according to claim 9, wherein when the main control unit determines that the i-th type of electric power material needs to be replenished, the main control unit screens the amount of the i-th type of electric power material in the other warehouse, and for the k-th warehouse, k=1, 2..m, the main control unit compares the inventory remaining amount Cki of the i-th type of electric power material in the k-th warehouse with the P-times i-th type of electric power material remaining amount monitoring value Bki,

when Cki is more than or equal to PBki, the main control unit judges that the inventory remaining amount of the ith type of electric power materials in the kth warehouse meets the allocation requirement;

when Cki < PBki, the main control unit judges that the stock remaining amount of the ith type of electric power materials in the kth warehouse does not meet the allocation requirement.

The main control unit judges the i-th type electric power material remaining amount in all the monitored warehouses to be the same as the k-th warehouse;

when the warehouse with the inventory remaining quantity of the ith electric power material meeting the allocation requirement does not exist, the main control unit judges that the ith electric power material needs to be purchased to supplement the ith electric power material in the jth warehouse;

when the inventory remaining quantity of the ith electric power material is stored in a warehouse meeting the allocation requirement, the main control unit judges the replenishment mode of the ith electric power material in the jth warehouse according to the conveying distance;

when the inventory remaining amount of the ith type of electric power materials in one warehouse meets the allocation requirement, the main control unit judges that the warehouse is a transportation alternative warehouse;

when the inventory remaining quantity of the ith electric power material in the plurality of warehouses meets the allocation requirement, the main control unit selects a warehouse closest to the transportation distance of the jth warehouse as a transportation alternative warehouse;

the main control unit obtains the transportation distance Lq between the transportation alternative warehouse and the jth warehouse, the main control unit is provided with a transportation distance evaluation value Lz, the main control unit compares the transportation distance Lq with the transportation distance evaluation value Lz,

when Lq is less than or equal to Lz, the main control unit judges that the supplementing mode of the ith electric power material in the jth warehouse is transferring and allocating from the transportation alternative warehouse;

when Lq is larger than Lz, the main control unit judges that the supplementing mode of the ith electric power material in the jth warehouse is to purchase the electric power material outwards;

the value of the transportation distance evaluation value Lz is determined according to the value of Dji-Dpi, and Lz increases as the result of Dji-Dpi increases.

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