CN109165889A - A kind of data model and method for building up of the material information in section - Google Patents

Abstract

The present invention relates to a kind of material information data processing methods, specifically for the data model and method for building up of a kind of material information in section, the present invention includes the data model table of the material information in section, time zone is arranged in the column of the data model table, producing region, area and deposit area out, the time zone sets A, B column, producing region sets A, B, C column, area sets A out, B column, it deposits area and sets A, B column, each component in the parent part An in the bom of material A n and its component packet Nnn is respectively set in the row of the data model table, the present invention provides the data model and method for building up of a kind of material information in section, its can calculate the material A n in section parent part and its component into, it produces, out, the balance deposited.

Description

A kind of data model and method for building up of the material information in section

Technical field

The present invention relates to a kind of material information data processing methods, specifically for a kind of data model of the material information in section And method for building up.

Background technique

Material is product, finished product, semi-finished product, component, part, material, the raw material in each resource section in market circulation General name, material carry out that section is produced into, section, section goes out, section is deposited according to instruction in the different resource section in market, and material In these resource sections into, produce, go out, the information deposited is referred to as material information；Section can classify are as follows: market, warehouse, fortune Defeated tool, manufacturing works, workshop, workshop section, process and its supply chain.

The BOM of material A n (A is material code, and the natural number of n 1,2 ... m, m is the order of the BOM of material A n) includes mother Part An and its component packet Nn, such as the component packet Nm of component packet N2 ... the parent part Am of component the packet N1, parent part A2 of parent part A1；N-th order The rank BOM of material A n include parent part An and its rank component packet Nnn, such as rank component packet N11 of the 1st rank parent part A1, such as the 2nd rank are female The rank component packet N22 of part A2, such as the rank component packet Nmm of m rank parent part Am；Each component in parent part An and its rank component packet Nnn Quantitative relation is rank BOM ratio.Material A n information in section, which includes section, produces (such as assembling, fractionation), section into, section Out, section is deposited.

The existing material information management to section mainly has: selling ERP software, warehouse with soft into ERP is deposited out in market Part, factory and its supply chain manufacture type ERP software etc..The core of ERP software is the material requirement plan of MRP, the basis of MRP Data are the BOM data and quantity in stock of master demand schedule MSP, material.

Existing MRP be according to the parent part in kind of material A n, component in kind section into, is produced from section, section is deposited, section goes out The data model and carry out operation that information is set up, however this only letter only in accordance with the parent part in kind of material A n in section Ceasing set up data model really can not completely conclude the information of material A n in expression section.Such as it is existing Manufacture type ERP can not just be calculated in enterprise section always material A n into, produce, go out, the balance deposited, such as produce the enterprise of mobile phone Industry, parent part mobile phone only go out not into each component (components, material i.e. in mobile phone in the component packet of parent part mobile phone B OM Part) only into it is go out.Therefore the underlying algorithm model of existing various ERP is only capable of calculating the material in the warehouse in enterprise section Into and out of, deposit balance, and each components, material in section in the component packet of parent part mobile phone and parent part mobile phone B OM can not be calculated Component in enterprise section into, produce, go out, deposit balance.

Summary of the invention

It is an object of the invention to: the data model and method for building up of a kind of material information in section are provided, can be counted Calculate the material A n in section parent part and its component into, produce, go out, the balance deposited.

The present invention is achieved through the following technical solutions: a kind of data model of the material information in section, it is characterised in that: packet The data model table of the material information in section is included, the column setting time zone of the data model table, goes out area and deposits area producing region；It is described Time zone sets A, B column, and producing region sets A, B, C column, and area sets A, B column out, deposits area and sets A, B column；The row of the data model table is respectively set Each component in parent part An and its component packet Nnn in the bom of material A n；

A, data of the material A n in the time zone are stored: it is in kind into the quantity of parent part An be stored in time zone pair The A column unit lattice answered；Simultaneously according to material object into the quantity of parent part An calculate the corresponding quantity of each component in its component packet Nn It is stored in the corresponding B column unit lattice of each component in time zone；Material object into the quantity of component be stored in the corresponding A column unit lattice in time zone；

B, data of the material A n in the producing region are stored: the quantity of the parent part An production of n-th order is stored in production The corresponding A column unit lattice in area；Each component in its rank component packet Nnn is calculated according to the quantity of the parent part An of n-th order production simultaneously Corresponding quantity be stored in the corresponding B column unit lattice of each component in producing region；The quantity meter produced simultaneously according to the parent part An of n-th order The demand neck material quantity for calculating each component in its rank component packet Nnn is stored in the corresponding C column unit lattice of each component in producing region；

C, the material A n is in the data storage for going out area: the quantity for the parent part An that material object goes out is stored in out area pair The A column unit lattice answered；The quantity of the parent part An gone out simultaneously according to material object calculates the corresponding quantity of each component in its component packet Nn It is stored in out the corresponding B column unit lattice in area；The quantity that component in kind goes out is stored in out the corresponding A column unit lattice in area；

D, the material A n is in the data calculation formula for depositing area:

An deposits the A column=time zone producing region the A+ producing region A- C- in section and goes out area A；

An deposits the B column=time zone producing region B+ B- in section and goes out area B；

Each component deposits the A column=time zone producing region A- C- in section and goes out area A；

Each component deposits the B column=time zone producing region B+ B- in section and goes out area B.

Further, a, it is described according to material object into the quantity of parent part An to calculate each component in its component packet Nn corresponding The calculation formula of quantity is arranged in the corresponding B column unit lattice of each component in time zone；

B, the quantity according to the parent part An of n-th order production calculates the corresponding of each component in its rank component packet Nnn The calculation formula of quantity is arranged in the corresponding B column unit lattice of each component in producing region；It is described according to the parent part An of the n-th rank production The calculation formula that quantity calculates the demand neck material quantity of each component in its rank component packet Nnn is arranged in the corresponding C of each component in producing region Column unit lattice；

C, the quantity of the parent part An gone out according to material object calculates the meter of the corresponding quantity of each component in its component packet Nn Formula is calculated to be arranged in the corresponding B column unit lattice of each component in area out.

True, the complete conclusion description of the material information in section is when the flowing of the parent part in kind of material A n, in parent part Component packet in each component while flowed with parent part；The flowing of parent part in kind is dominant, is apparent condition in kind, Each component is recessive with parent part while flowing in the component packet being hidden in parent part, is objective reality.

The present invention is realized by another technical solution: a kind of method for building up of the data model of the material information in section, It is characterized in that: including the following steps:

Step 1: creation data model table in the list setting time zone of the data model table, producing region, goes out area and deposits area, A, B column are set in time zone, producing region sets A, B, C column, and area sets A, B column out, deposits area and sets A, B column；In the row item point of the data model table Not She Zhi material An parent part and its component packet in each component；

Step 2: data write-in:

A, the parent part in kind of material A n into quantity be written in the corresponding A column unit lattice in time zone；Simultaneously according to material A n's Parent part in kind into quantity calculate the corresponding quantity of each component in its component packet and be written in the corresponding B column unit lattice in time zone；It is real Object component into quantity be written in the corresponding A column unit lattice in time zone；

B, the quantity of the parent part in kind production of n-th order material A n is written in the corresponding A column unit lattice in producing region；Simultaneously according to the It is each that the corresponding quantity that the quantity of the parent part in kind production of n rank material A n calculates each component in its rank component packet is written in producing region The corresponding B column unit lattice of component；It is calculated in its rank component packet according to the quantity of the parent part in kind of n-th order material A n production simultaneously The demand neck material quantity of each component is written in the corresponding C column unit lattice of each component in producing region；

C, the quantity that the parent part in kind of material A n goes out is written in out the corresponding A column unit lattice in area；Simultaneously according to material A n's The quantity that parent part in kind goes out calculates the corresponding quantity of each component in its component packet and is written in out the corresponding B column unit lattice in area；It is real The quantity that object component goes out is written in out the corresponding A column unit lattice in area；

Step 3: the data for depositing area are obtained:

An deposits the A column=time zone producing region the A+ producing region A- C- in section and goes out area A；

An deposits the B column=time zone producing region B+ B- in section and goes out area B；

Each component deposits the A column=time zone producing region A- C- in section and goes out area A；

Each component deposits the B column=time zone producing region B+ B- in section and goes out area B.

Than before for technology, the invention has the benefit that the component packet of the BOM of material A n, n-th order object in this programme Expect the rank component packet of the rank BOM of An with parent part An section is produced into, section, section goes out, section is deposited, and material information according to this The data model and algorithm of the material information of building are concluded, is applied to existing ERP, section can be calculated in enterprise section Into, produce, go out, the balance deposited, be the ERP of bottom according to this data model and algorithm, have flat into, the number that produces, go out, deposit Weigh function, can substitute existing sale ERP, into, sell, deposit ERP, manufacture type ERP, it is all to realize that an ERP software is suitable for The material information management in enterprise section, this is to the efficiency for improving enterprise information management, information resources interaction between enterprise, altogether It enjoys, AI is used and is of great significance.

Specific embodiment

It elaborates below to the present invention:

Embodiment 1:

This model and application is discussed in detail by taking the data model of material A n (m=3) and its application as an example in the present embodiment；

A, data model table:

A1, data model table time zone B column algorithm:

A2, data model producing region B, C column algorithm:

A3, data model go out area B column algorithm:

A4, data model deposit area A, B column algorithm:

B, practical application:

Bom rank ratio value: e11=1, e12=2, e13=2, e21=2, e22=1, e23=2, e31=1, e32=2；

B1, inventory take inventory: the time zone A1:k1=10, A2:k4=20, A3:k7=60 A column storage, B number of columns calculate and It is stored, and the calculating of area A, B column is deposited:

B2, current buying 10=90,11=200,20=340,21=200,30=300, the time zone A columns of 31=600 Amount storage, deposits the calculating of area A, B column:

The storage of the producing region A column of B3, current production: A3:p3=290, A2:p2=170, A1:p1=90, B columns meter It calculates and its storage, C number of columns is calculated and its stored, deposit the calculating of area A, B column:

B4, it is current go out: A1:q1=100, A2:q3=10, A3:q7=10,11=20,21=30, go out area A column deposit It puts, B number of columns calculates and its storage, deposit the calculating of area A, B column:

Embodiment 2:

The present embodiment is a kind of method for building up of the data model of the material information in section, is included the following steps:

Step 1: creation data model table in the list setting time zone of the data model table, producing region, goes out area and deposits area, A, B column are set in time zone, producing region sets A, B, C column, and area sets A, B column out, deposits area and sets A, B column；In the row item point of the data model table Not She Zhi material An parent part and its component packet in each component；

Step 2: data write-in:

A, the parent part in kind of material A n into quantity be written in the corresponding A column unit lattice in time zone；Simultaneously according to material A n's Parent part in kind into quantity calculate the corresponding quantity of each component in its component packet and be written in the corresponding B column unit lattice in time zone；It is real Object component into quantity be written in the corresponding A column unit lattice in time zone；

B, the quantity of the parent part in kind production of n-th order material A n is written in the corresponding A column unit lattice in producing region；Simultaneously according to the It is each that the corresponding quantity that the quantity of the parent part in kind production of n rank material A n calculates each component in its rank component packet is written in producing region The corresponding B column unit lattice of component；It is calculated in its rank component packet according to the quantity of the parent part in kind of n-th order material A n production simultaneously The demand neck material quantity of each component is written in the corresponding C column unit lattice of each component in producing region；

C, the quantity that the parent part in kind of material A n goes out is written in out the corresponding A column unit lattice in area；Simultaneously according to material A n's The quantity that parent part in kind goes out calculates the corresponding quantity of each component in its component packet and is written in out the corresponding B column unit lattice in area；It is real The quantity that object component goes out is written in out the corresponding A column unit lattice in area；

Step 3: the data for depositing area are obtained:

An deposits the A column=time zone producing region the A+ producing region A- C- in section and goes out area A；

An deposits the B column=time zone producing region B+ B- in section and goes out area B；

Each component deposits the A column=time zone producing region A- C- in section and goes out area A；

Each component deposits the B column=time zone producing region B+ B- in section and goes out area B.

Although the present invention is illustrated and illustrated to the present invention using specific embodiment and its alternative, but it should reason Solution, can be implemented without departing from the variations and modifications in scope of the invention.It is therefore understood that in addition to by with Outside the limitation of attached claim and its condition of equivalent, the present invention is not limited by in all senses.

Claims (3)

1. a kind of data model of the material information in section, it is characterised in that: the data model table of the material information including section, The column setting time zone of the data model table, goes out area and deposits area producing region；The time zone sets A, B column, and producing region sets A, B, C column, out area If A, B is arranged, deposits area and set A, B column；Parent part An and its component packet in the bom of material A n is respectively set in the row of the data model table Each component in Nnn；

A, data of the material A n in the time zone are stored: it is in kind into the quantity of parent part An to be stored in time zone corresponding A column unit lattice；Simultaneously according to material object into the quantity of parent part An calculate the corresponding quantity of each component in its component packet Nn and store The corresponding B column unit lattice of each component in time zone；Material object into the quantity of component be stored in the corresponding A column unit lattice in time zone；

B, data of the material A n in the producing region are stored: the quantity of the parent part An production of n-th order is stored in producing region pair The A column unit lattice answered；Pair of each component in its rank component packet Nnn is calculated according to the quantity of the parent part An of n-th order production simultaneously The quantity answered is stored in the corresponding B column unit lattice of each component in producing region；It is calculated simultaneously according to the quantity of the parent part An of n-th order production The demand neck material quantity of each component is stored in the corresponding C column unit lattice of each component in producing region in its rank component packet Nnn；

C, the material A n is in the data storage for going out area: it is corresponding that the quantity for the parent part An that material object goes out is stored in out area A column unit lattice；The quantity of the parent part An gone out simultaneously according to material object calculates the corresponding quantity of each component in its component packet Nn and stores In the corresponding B column unit lattice in area out；The quantity that component in kind goes out is stored in out the corresponding A column unit lattice in area；

D, the material A n is in the data calculation formula for depositing area:

An deposits the A column=time zone producing region the A+ producing region A- C- in section and goes out area A；

An deposits the B column=time zone producing region B+ B- in section and goes out area B；

Each component deposits the A column=time zone producing region A- C- in section and goes out area A；

Each component deposits the B column=time zone producing region B+ B- in section and goes out area B.

2. a kind of data model of the material information in section according to claim 1, it is characterised in that:

A, it is described according to material object into parent part An quantity calculate the corresponding quantity of each component in its component packet Nn calculating it is public Formula is arranged in the corresponding B column unit lattice of each component in time zone；

B, the quantity according to the parent part An of n-th order production calculates the corresponding quantity of each component in its rank component packet Nnn Calculation formula be arranged in the corresponding B column unit lattice of each component in producing region；The quantity meter produced according to the parent part An of n-th order The calculation formula for calculating the demand neck material quantity of each component in its rank component packet Nnn is arranged in the corresponding C column unit of each component in producing region Lattice；

C, the quantity of the parent part An gone out according to material object calculate the corresponding quantity of each component in its component packet Nn calculating it is public Formula is arranged in the corresponding B column unit lattice of each component in area out.

3. a kind of method for building up of the data model of the material information in section, characterized by the following steps:

Step 1: creation data model table in the list setting time zone of the data model table, producing region, goes out area and deposits area, into Area sets A, B column, and producing region sets A, B, C column, and area sets A, B column out, deposits area and sets A, B column；It is set respectively in the row item of the data model table Each component in the parent part of glove material An and its component packet；

Step 2: data write-in:

A, the parent part in kind of material A n into quantity be written in the corresponding A column unit lattice in time zone；Simultaneously according to the material object of material A n Parent part into quantity calculate the corresponding quantity of each component in its component packet and be written in the corresponding B column unit lattice in time zone；Son in kind Part into quantity be written in the corresponding A column unit lattice in time zone；

B, the quantity of the parent part in kind production of n-th order material A n is written in the corresponding A column unit lattice in producing region；Simultaneously according to n-th order The corresponding quantity that the quantity of the parent part in kind production of material A n calculates each component in its rank component packet is written in each son in producing region The corresponding B column unit lattice of part；It is calculated simultaneously according to the quantity of the parent part in kind of n-th order material A n production each in its rank component packet The demand neck material quantity of component is written in the corresponding C column unit lattice of each component in producing region；

C, the quantity that the parent part in kind of material A n goes out is written in out the corresponding A column unit lattice in area；Simultaneously according to the material object of material A n The quantity that parent part goes out calculates the corresponding quantity of each component in its component packet and is written in out the corresponding B column unit lattice in area；Son in kind The quantity that part goes out is written in out the corresponding A column unit lattice in area；

Step 3: the data for depositing area are obtained:

An deposits the A column=time zone producing region the A+ producing region A- C- in section and goes out area A；

An deposits the B column=time zone producing region B+ B- in section and goes out area B；

Each component deposits the A column=time zone producing region A- C- in section and goes out area A；

Each component deposits the B column=time zone producing region B+ B- in section and goes out area B.