CN109034697A - A kind of warehouse logistics intelligent management system - Google Patents

Abstract

The present invention discloses a kind of warehouse logistics intelligent management system, module, transportation route analysis module, storage parameter detection module, management server and display module are obtained including memory allocation module, goods information, management server obtains module, transportation route analysis module, storage parameter detection module and display module with memory allocation module, goods information respectively and connect, and transportation route analysis module obtains module with goods information and connect；Management server obtains module, transportation route analysis module, storage parameter detection module by goods information and counts each cargo integrated management coefficient in warehouse logistics management process.Management system provided by the invention improves the regularity and storage efficiency of cargo storage, and convenient for storing and searching cargo, which has the characteristics that intelligence is high, improve the management level of warehouse logistics, and improve the efficiency of management to warehouse logistics.

Description

A kind of warehouse logistics intelligent management system

Technical field

The invention belongs to warehouse logistics technical fields, are related to a kind of warehouse logistics intelligent management system.

Background technique

Currently, warehouse logistics, are exactly using self-built or lease storehouse, place, storage, handling, matches delivery at keeping Object.Traditional storage definition is provided from the angle of material stock, modern " storage " be not traditional " warehouse ", " storehouse management ", but the storage under economic globalization and Supply Chain Coordination Management background, are the storages in modern logistics systems.

Cargo need to be stored to storage space in storage link, but be usually people in existing storage process by cargo Work stores cargo destined to corresponding storage section, greatly wastes artificial time and efforts, and efficient, easily makes At the confusion of cargo storage location, cargo is searched to the later period and causes very big influence, meanwhile, cargo in warehouse logistics is from storage To corresponding memory space and during storage, can not the management degree in real time to cargo detect, and then go out stock Object causes cargo to be damaged because storage temperature, humidity etc. are undesirable, and there are management effect differences and intelligent management degree The problem of difference, reduces the satisfaction of client and the prestige problem of manufacturer.

Summary of the invention

The purpose of the present invention is to provide a kind of warehouse logistics intelligent management system, the process of existing warehouse logistics management In, exist during cargo reasonably can not being delivered to preset memory space and cargo storage, it can not be comprehensive to cargo It closes storage and managenent degree to be counted, causes the efficiency of cargo storage management and the problem of intelligent characteristic difference.

The purpose of the present invention can be achieved through the following technical solutions:

A kind of warehouse logistics intelligent management system, including memory allocation module, goods information obtain module, transport road Diameter analysis module, storage parameter detection module, management server and display module, management server respectively with memory allocation Module, goods information obtain module, transportation route analysis module, storage parameter detection module and connect with display module, transport road Diameter analysis module obtains module with goods information and connect；

It is single to be divided into several storage for dividing to the memory space of warehouse logistics for memory allocation module Member, different storing sub-units are used to store the cargo of different brands, are exported apart from warehouse logistics by close according to each storing sub-units To remote distance, each storing sub-units are numbered, are followed successively by 1,2 ..., x ..., t, count sale of goods under various brands Total quantity, and be numbered from more to less according to the various brands total quantity that markets the goods, be followed successively by 1,2 ..., x ..., t, respectively Brand is stored into storing sub-units identical with the brand reference numeral, and each storing sub-units are divided into several storage sub-districts Between, difference storage subinterval corresponds to different storing highlies, and storage subinterval is successively compiled from low to high according to storage height Number, respectively 1,2 ..., f ..., r, and the different storage subintervals under same storing sub-units are for placing under same brand Different types of merchandize, being placed sequentially in number from more to less according to sale of goods total quantity various types of under same brand is 1, In the storage subinterval of 2 ..., f ..., r；

It includes several goods information acquiring units that goods information, which obtains module, and each goods information acquiring unit is separately mounted to Above cargo transport path, the goods information acquiring unit is used to be read out the RFID tag on goods packaging box, with The basic parameter information of cargo is obtained, and the cargo basic parameter information that will acquire is sent to management server, meanwhile, it will acquire Cargo basic parameter information in cargo transport path number and the corresponding identification of goods information acquiring unit encode and be sent to Transportation route analysis module；

It is corresponding that transportation route analysis module is used to receive each goods information acquiring unit that goods information acquisition module is sent Identification coding and the goods information acquiring unit obtain cargo in the transmission path cargo transport path number, extract goods The corresponding identification of object information acquisition unit encodes path number corresponding with the identification coding stored in transportation route database, And the identification of extraction is encoded into cargo in the transmission path obtained in corresponding path number and goods information acquiring unit Cargo transport path number compares, if the corresponding path number of identification coding is identical as cargo transport path number, table Transportation route used by bright cargo transport is correct, and feeds back transportation route correct information and cargo transport path is numbered to pipe Server is managed, if identification encodes corresponding path number and cargo transport path number is not identical, shows that cargo transport is adopted Transportation route mistake, and feed back transportation route error message, the corresponding path number of goods information acquiring unit and goods Object transport path is numbered to management server.

The transportation route analysis module includes transportation route database and transportation route analytical unit, transportation route data The identification that library is used to store different goods information acquiring units encodes corresponding path number information, and each goods information obtains single The identification coding of member has and only one corresponding path number；

Transportation route analytical unit is used to receive each goods information acquiring unit pair that each goods information acquiring unit is sent The identification coding answered and the goods information acquiring unit obtain the cargo transport path number of cargo in the transmission path, and will Received identification coding is compared with identification coding in transportation route database, is obtained the identification and is encoded corresponding path volume Number, and the path number and cargo transport path number are compared, to determine conveying that cargo uses during transportation Whether path is correct.

Storage parameter detection module includes several groups storage parameter detecting unit, and several groups store parameter detecting unit difference Be mounted in each storage subinterval in each storing sub-units, respectively stored for real-time detection temperature in subinterval, humidity with And pressure suffered by each storage subinterval bottom support plate, and will test temperature, humidity and pressure information and temperature, humidity Number corresponding with pressure information is sent to management server, each group store the corresponding number of parameter detecting unit with it is detected Each corresponding Position Number in subinterval that stores is consistent, i.e., temperature detection sub-unit, Humidity Detection in storage parameter detecting unit Subelement and the corresponding number of pressure detecting subelement Position Number corresponding with each storage subinterval detected are identical, example Number order is that the number of storage parameter detecting unit in f-th of storage subinterval in the storing sub-units of x is xf, storage ginseng Number detection units in temperature detection sub-unit, Humidity Detection subelement and pressure detecting subelement it is corresponding number be respectively wxf, Sxf and yxf；

Management server is used to receive the memory space of each storing sub-units of memory allocation module transmission, meanwhile, The whether correct information of transportation route for receiving transportation route analysis module feedback, if transportation route mistake, management server Transportation route error message, the corresponding path number of goods information acquiring unit and cargo transport path is sent to number to display Terminal is simultaneously shown, if transportation route is correct, management server sends transportation route correct information and cargo conveying path Diameter is numbered to display terminal and is shown, is carried out in time to the transportation route of the cargo of transportation route mistake convenient for administrative staff Adjustment, guarantees that cargo is stored to specified storing sub-units；

Management server receives the basic parameter information that goods information obtains module shipment, and discharging of goods is basic Cargo date of manufacture, cargo shelf-life and goods warehousing in parameter information store the date, according to cargo date of manufacture, cargo Shelf-life and goods warehousing storage date count the failure storage coefficient M of each cargo_xf；

Management server receives and respectively stores each storage that parameter detecting unit is sent in real time in storage parameter detection module Temperature, humidity and pressure information and temperature detection subelement, Humidity Detection subelement and pressure detecting subelement in section Corresponding number, and by received temperature, humidity and pressure, section is divided according to set time, is divided into temperature data collection Conjunction, humidity data set and pressure data set；

Management server is warm by the mean temperature storage corresponding with type of merchandize in the period each in temperature data set Degree range compares, and obtains temperature difference comparison set, by the normal temperature of temperature difference and setting in temperature difference comparison set Numerical value compares, and obtains temperature difference and compares value set；By the mean temperature and cargo kind in the period each in humidity data set The corresponding storage humidity range of class compares, and obtains psychrometric difference comparison set, and psychrometric difference is compared the psychrometric difference in set It is compared with the standard humidity numerical value of setting, obtains psychrometric difference and compare value set；It will be in the period each in pressure data set The pressure limit that average pressure is born with storage subinterval bottom support plate compares, and obtains pressure difference comparison set；

Whether management server is by set cargo transport path in correct, failure storage coefficient, temperature, humidity and pressure Power counts cargo integrated management coefficient each in warehouse logistics management process, the comprehensive storage and managenent coefficient of the cargo

K_xfIndicate the corresponding comprehensive storage and managenent system of cargo in f-th of storage subinterval of the storing sub-units that number is x Number, u indicate the storage and managenent factor, and 2.152, λ is taken whether to be expressed as cargo transport path correct, when transport path is correct, 2.5 are taken, when transport path is incorrect, takes -1, M_xfIndicate goods in f-th of storage subinterval of the storing sub-units that number is x Coefficient is stored in the failure of object, and f-th of storage subinterval is within first of period in the storing sub-units that w ' xfl expression number is x Average temperature value and the temperature gap between the corresponding storage temperature range of type of merchandize stored in the storage subinterval, w " Xfl indicates to number temperature gap and standard temperature of f-th of storage subinterval within first of period in the storing sub-units for being x F-th of storage subinterval is within first of period in the storing sub-units that the ratio of degree value, gw " xfl expression number are x Specific gravity corresponding to the ratio of temperature gap and normal temperature numerical value, s ' xf are indicated to number in the storing sub-units for being x and be deposited for f-th Humidity differences of the subinterval between the medial humidity value in first of period and storage humidity range are stored up, s " xfl indicates that number is The ratio of humidity differences and standard humidity numerical value of f-th of storage subinterval within first of period in the storing sub-units of x, Gs " xf indicates to number humidity differences and standard of f-th of storage subinterval within first of period in the storing sub-units for being x Specific gravity shared by the ratio of humidity, y ' xfl indicate to number f-th of storage subinterval bottom branch in the storing sub-units for being x The pressure of fagging average pressure value suffered within first of period and the born pressure limit of storage subinterval bottom support plate The comprehensive storage and managenent coefficient of the cargo of acquisition is sent to display terminal by power difference, management server；

Whether management server shipment transport path correct, goods information acquiring unit for receiving for display terminal Corresponding path number, cargo transport path number and the comprehensive storage and managenent coefficient of cargo are simultaneously shown.

Further, the cargo basic parameter information include type of merchandize, cargo brand, measurement of cargo, cargo height, Cargo width, cargo storage condition, cargo date of manufacture, cargo shelf-life, goods warehousing storage date, cargo transport path are compiled Number, the cargo storage condition includes the humidity range of the temperature range of cargo storage, cargo storage.

Further, the quantity of various types of sale and various types of corresponding measurement of cargo under different brands are counted, is formed With types of brand magnitude-set A_x(a_x1,a_x2,...,a_xf,...,a_xR), a_xF indicates to number f-th of cargo kind in the brand for being x The quantity of class sale, the calculation formula of memory space needed for storing various brands cargo areV_x Indicate brand memory space needed for xth storing sub-units that number is x, a_xF indicates to number in the brand for being x f-th The quantity of type of merchandize sale, v_xThe volume of f-th of type of merchandize, ρ are expressed as space storage in the brand that f expression number is x Coefficient is influenced, takes 0.35.

Further, the goods information acquiring unit is equipped with identification coding, and goods information acquiring unit is used for each goods Object information acquisition unit is identified and is distinguished, and the corresponding identification coding of different goods information acquiring units is different.

Further, the storage parameter detecting unit includes temperature detection subelement, Humidity Detection subelement, pressure Detection sub-unit, processor and communications subelement, the temperature detection subelement, Humidity Detection subelement are separately mounted to Each storage subinterval center position, temperature detection subelement are temperature sensor, in real-time detection storage subinterval Temperature, and the temperature information that will test is sent to processor, and Humidity Detection subelement is humidity sensor, is used for real-time detection The humidity in subinterval being stored, and the humidity information that will test is sent to processor, pressure detecting subelement is pressure sensor, It is mounted in storage subinterval bottom support plate, the pressure value all for real-time detection storage subinterval bottom support plate, and The pressure value that will test is sent to processor；

What processor was used to send on received temperature detection subelement, Humidity Detection subelement and pressure detecting subelement Temperature, humidity and pressure value and temperature detection subelement, Humidity Detection subelement and the corresponding number of pressure detecting subelement It is sent to communications subelement；

Communications subelement receives temperature, humidity and the pressure value that processor is sent and temperature detection subelement, wet Degree detection sub-unit and the corresponding number of pressure detecting subelement are sent to management server.

Further, the cargo failure storage coefficientλ is expressed as depositing Impact factor is put, takes 1.298.

Further, the temperature data collection is combined into Wxf (wxf1, wxf2 ..., wxfl ..., wxfz), z divide when Between segment number, wxfl indicates f-th of average temperature of the storage subinterval within first of period in storing sub-units that number is x Angle value, if the mean temperature in first of period that cargo stores subinterval at f-th is greater than the corresponding storage of the type of merchandize Maximum temperature value in temperature range, then w ' xfl takes the mean temperature to be asked with the maximum temperature value in storage temperature range Difference, if the mean temperature in first of period that cargo stores subinterval at f-th is less than the corresponding storage temperature of the type of merchandize The lowest temperature angle value in range is spent, then w ' xfl takes the lowest temperature angle value in the mean temperature and storage temperature range to carry out asking poor And take absolute value, if cargo is when storing the mean temperature in subinterval within the scope of storage temperature, w ' xfl takes 0；

By by the period each in temperature data set mean temperature and the storage subinterval in the cargo kind that stores The corresponding storage temperature range of class compares, and obtains temperature difference comparison set W ' xf (w ' xf1, w ' xf2 ..., w ' Xfl ..., w ' xfz), w ' xfl indicate number be x storing sub-units in f-th of storage subinterval within first of period Temperature gap between average temperature value storage temperature range corresponding with the type of merchandize stored in the storage subinterval, and will obtain The normal temperature numerical value of the temperature difference and setting in temperature difference comparison set obtained compares, and is compared and is gathered with temperature difference In temperature difference and the ratio relation between normal temperature numerical value, obtain temperature difference than value set W " xf (w " xf1, w " xf2 ..., W " xfl ..., w " xfz), w " xfl indicate number be x storing sub-units in f-th of storage subinterval within first of period Temperature gap and normal temperature numerical value ratio, the corresponding weight proportion of different temperatures difference ratio is different, respectively gw " xf1, Gw " xf2 ..., gw " xfl ..., gw " xfz, and gw " xf1+gw " xf2+...+gw " xfl+...+gw " xfz=1.

Further, the humidity data collection is combined into Sxf (sxf1, sxf2 ..., sxfl ..., sxfz), and sxfl is indicated Number is medial humidity value of f-th of storage subinterval within first of period in the storing sub-units of x, if cargo is at f-th Store the most high humidity that the medial humidity in first of period in subinterval is greater than in the corresponding storage temperature range of the type of merchandize Angle value, then s ' xfl takes the medial humidity and the highest humidity value stored in humidity range to carry out asking poor, if cargo is deposited at f-th Store up the minimum humidity that the medial humidity in first of period in subinterval is less than in the corresponding storage temperature range of the type of merchandize Value, then s ' xfl takes the medial humidity to carry out seeking difference with the minimum humidity value stored in humidity range and takes absolute value, if cargo exists The medial humidity in subinterval is stored when storing in humidity range, then s ' xfl takes 0；

By by the period each in humidity data set medial humidity and the storage subinterval in the cargo kind that stores The corresponding storage humidity range of class compares, and obtains psychrometric difference comparison set S ' xf (s ' xf1, s ' xf2 ..., s ' Xfl ..., s ' xfz), s ' xfl indicate number be x storing sub-units in f-th of storage subinterval within first of period Medial humidity value and storage humidity range between humidity differences, and by the psychrometric difference of acquisition be combined in psychrometric difference and setting Standard humidity numerical value compare, with determine psychrometric difference comparison set in psychrometric difference and standard humidity numerical value between ratio close System obtains psychrometric difference than value set S " xf (s " xf1, s " xf2 ..., s " xfl ..., s " xfz), s " xfl indicates that number is x's The ratio of humidity differences and standard humidity numerical value of f-th of storage subinterval within first of period, different in storing sub-units The corresponding weight proportion of psychrometric difference ratio is different, respectively gs " xf1, gs " xf2 ..., gs " xfl ..., gs " xfz, and gs " Xf1+gs " xf2+...+gs " xfl+...+gs " xfz=1.

Further, the pressure data collection is combined into Yxf (yxf1, yxf2 ..., yxfl ..., yxfz), and yxfl is indicated Number is the average pressure that f-th of storage subinterval bottom support plate is suffered within first of period in the storing sub-units of x Value, by average pressure suffered by the storage subinterval bottom support plate in the period each in pressure data set and storage subinterval The corresponding receiving pressure limit of bottom support plate carries out, wherein the pressure limit phase that each storage subinterval bottom support plate is born Together, pressure difference comparison set Y ' xf (y ' xf1, y ' xf2 ..., y ' xfl ..., y ' xfz) is obtained, y ' xfl indicates that number is x's F-th of storage subinterval bottom support plate average pressure value and the storage suffered within first of period in storing sub-units The pressure difference value of the born pressure limit of subinterval bottom support plate, if mean pressure suffered by the storage subinterval bottom support plate Power is greater than the maximal pressure force value born in pressure limit, then y ' xfl takes the average pressure and bears the maximal pressure in pressure limit Force value carries out asking poor, if average pressure suffered by storage subinterval bottom support plate is less than or equal to bear the highest in pressure limit Pressure value, then y ' xfl takes 0.

Beneficial effects of the present invention:

1, the present invention is divided by memory space of the memory allocation module to warehouse logistics, and by different brands Cargo store to different storing sub-units, and to the memory space of storing sub-units further according in same brand Type of merchandize is divided, and the regularity and cleaning of cargo storage are improved, convenient for being stored and being searched to cargo；

2, the present invention can analyze each cargo by transportation route analysis module and store to the transportation route of each storing sub-units Whether number corresponding with the goods information acquiring unit on each cargo transport path is identical, to determine the transportation route of the cargo It is whether correct, guarantee that cargo is delivered to corresponding storage location by correct transportation route, improves the rule of cargo storage Property；

3, the present invention passes through management server and incorporating cargo information cargo module, transportation route analysis module and storage ginseng Number detection modules can determine whether cargo basic parameter information, transportation route correct and storage temperature, humidity and pressure information Influence to the comprehensive storage and managenent of cargo, and then the comprehensive storage and managenent factor v of cargo is obtained, to determine material handling degree Satisfaction, which has the characteristics that intelligent high, improves the management level of warehouse logistics, while improving to storage The efficiency of management of logistics, during reducing labor management, existing error rate is high and time and efforts wastes more problems.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, will be described below to embodiment required Attached drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for ability For the those of ordinary skill of domain, without creative efforts, it can also be obtained according to these attached drawings other attached Figure.

Fig. 1 is a kind of schematic diagram of warehouse logistics intelligent management system in the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts all other Embodiment shall fall within the protection scope of the present invention.

Refering to Figure 1, a kind of warehouse logistics intelligent management system, including memory allocation module, goods information Obtain module, transportation route analysis module, storage parameter detection module, management server and display module, management server point Module, transportation route analysis module, storage parameter detection module and display are not obtained with memory allocation module, goods information Module connection, transportation route analysis module obtain module with goods information and connect；

Cargo carries out quality-monitoring before packing, to the cargo that need to be packed, once cargo mass is met the requirements, then to the goods Object is packed, and RFID tag is posted on packing case, and the basic parameter information of cargo, the goods are stored in RFID tag The basic parameter information of object includes type of merchandize, cargo brand, measurement of cargo, cargo height, cargo width, cargo storage item Part, cargo date of manufacture, cargo shelf-life, goods warehousing storage date, cargo transport path number etc., the cargo stores item Part includes the temperature range of cargo storage, humidity range of cargo storage etc.；

It is single to be divided into several storage for dividing to the memory space of warehouse logistics for memory allocation module Member, different storing sub-units are used to store the cargo of different brands, i.e., same storing sub-units are for storing under same brand Cargo exports distance from the near to the remote apart from warehouse logistics according to each storing sub-units, each storing sub-units is numbered, according to Secondary is 1,2 ..., x ..., t, while counting the total quantity of sale of goods under various brands, and market the goods by more according to various brands To being numbered less, be followed successively by 1,2 ..., x ..., t, wherein the total quantity of the kinds of goods brand stored in warehouse logistics with deposit The total quantity for storing up subelement is equal, meanwhile, count the quantity of various types of sale and various types of corresponding cargo under different brands Volume is ranked up the quantity of goods that the type of merchandize under same brand is sold according to each type of merchandize from more to less, is formed With types of brand magnitude-set A_x(a_x1,a_x2,...,a_xf,...,a_xR), a_xF indicates to number f-th of cargo kind in the brand for being x The quantity of class sale, according to the quantity of sale of goods various types of under same brand and the corresponding measurement of cargo of various types of cargo, Memory space needed for statistics storage various brands cargoMemory allocation module will be deposited respectively Memory space needed for storage subelement is sent to management server, wherein V_xIndicate that the brand that number is x stores son list in xth Memory space needed for member, a_xF indicates to number the quantity of f-th of type of merchandize sale in the brand for being x, v_xF indicates that number is The volume of f-th of type of merchandize in the brand of x, ρ, which is expressed as space storage, influences coefficient, takes 0.35, wherein each storing sub-units Several storage subintervals are divided into, difference storage subinterval corresponds to different storing highlies, and storage subinterval is according to storage height It is successively numbered from low to high, respectively 1,2 ..., f ..., r, and the different storage subintervals under same storing sub-units For placing the different types of merchandize under same brand, according to sale of goods total quantity various types of under same brand from more to less according to It is secondary be placed on number be 1,2 ..., the storage subinterval of f ..., r in, i.e., sales volume is most in all kinds of same brand High type of merchandize is stored in the storage subinterval that number is 1.

It includes several goods information acquiring units that goods information, which obtains module, and each goods information acquiring unit is separately mounted to Above cargo transport path, the goods information acquiring unit above cargo transport path is equipped with identification coding, identification coding It is different for each goods information acquiring unit to be identified and distinguished to be arranged in goods information acquiring unit in advance The corresponding identification coding of goods information acquiring unit is different, wherein cargo transport path is according to the corresponding number of storing sub-units Sequence is numbered, that is, the corresponding transportation route number of cargo for being delivered to x-th of storing sub-units is x；

The goods information acquiring unit is for being read out the RFID tag on goods packaging box, to obtain cargo Basic parameter information, and the cargo basic parameter information that will acquire is sent to management server, meanwhile, the cargo that will acquire is basic Cargo transport path number and the corresponding identification coding of goods information acquiring unit are sent to transportation route point in parameter information Analyse module；

It is corresponding that transportation route analysis module is used to receive each goods information acquiring unit that goods information acquisition module is sent Identification coding and the goods information acquiring unit obtain cargo in the transmission path cargo transport path number, extract goods The corresponding identification of object information acquisition unit encodes path number corresponding with the identification coding stored in transportation route database, And the identification of extraction is encoded into cargo in the transmission path obtained in corresponding path number and goods information acquiring unit Cargo transport path number compares, if the corresponding path number of identification coding is identical as cargo transport path number, table Transportation route used by bright cargo transport is correct, and feeds back transportation route correct information and cargo transport path is numbered to pipe Server is managed, if identification encodes corresponding path number and cargo transport path number is not identical, shows that cargo transport is adopted Transportation route mistake, and feed back transportation route error message, the corresponding path number of goods information acquiring unit and goods Object transport path is numbered to management server.

The transportation route analysis module includes transportation route database and transportation route analytical unit, transportation route data The identification that library is used to store different goods information acquiring units encodes corresponding path number information, and each goods information obtains single The identification coding of member has and only one corresponding path number；

Transportation route analytical unit is used to receive each goods information acquiring unit pair that each goods information acquiring unit is sent The identification coding answered and the goods information acquiring unit obtain the cargo transport path number of cargo in the transmission path, and will Received identification coding is compared with identification coding in transportation route database, is obtained the identification and is encoded corresponding path volume Number, and the path number and cargo transport path number are compared, to determine conveying that cargo uses during transportation Whether path is correct.

Storage parameter detection module includes several groups storage parameter detecting unit, and several groups store parameter detecting unit difference Be mounted in each storage subinterval in each storing sub-units, respectively stored for real-time detection temperature in subinterval, humidity with And pressure suffered by each storage subinterval bottom support plate, and will test temperature, humidity and pressure information and temperature, humidity Number corresponding with pressure information is sent to management server, each group store the corresponding number of parameter detecting unit with it is detected Each corresponding Position Number in subinterval that stores is consistent, i.e., temperature detection sub-unit, Humidity Detection in storage parameter detecting unit Subelement and the corresponding number of pressure detecting subelement Position Number corresponding with each storage subinterval detected are identical, example Number order is that the number of storage parameter detecting unit in f-th of storage subinterval in the storing sub-units of x is xf, storage ginseng Number detection units in temperature detection sub-unit, Humidity Detection subelement and pressure detecting subelement it is corresponding number be respectively wxf, Sxf and yxf；

Storage parameter detecting unit includes temperature detection subelement, Humidity Detection subelement, pressure detecting subelement, place Reason device and communications subelement, the temperature detection subelement, Humidity Detection subelement are separately mounted to each storage sub-district Between center position, temperature detection subelement be temperature sensor, for real-time detection storage subinterval in temperature, and will inspection The temperature information of survey is sent to processor, and Humidity Detection subelement is humidity sensor, in real-time detection storage subinterval Humidity, and the humidity information that will test is sent to processor, and pressure detecting subelement is pressure sensor, is mounted on storage In the bottom support plate of section, the pressure value all for real-time detection storage subinterval bottom support plate, and the pressure that will test Value is sent to processor；

What processor was used to send on received temperature detection subelement, Humidity Detection subelement and pressure detecting subelement Temperature, humidity and pressure value and temperature detection subelement, Humidity Detection subelement and the corresponding number of pressure detecting subelement It is sent to communications subelement；

Communications subelement receives temperature, humidity and the pressure value that processor is sent and temperature detection subelement, wet Degree detection sub-unit and the corresponding number of pressure detecting subelement are sent to management server；

Management server is used to receive the memory space of each storing sub-units of memory allocation module transmission, meanwhile, The whether correct information of transportation route for receiving transportation route analysis module feedback, if transportation route mistake, management server Transportation route error message, the corresponding path number of goods information acquiring unit and cargo transport path is sent to number to display Terminal is simultaneously shown, if transportation route is correct, management server sends transportation route correct information and cargo conveying path Diameter is numbered to display terminal and is shown, is carried out in time to the transportation route of the cargo of transportation route mistake convenient for administrative staff Adjustment, guarantees that cargo is stored to specified storing sub-units.

Management server receives the basic parameter information that goods information obtains module shipment, and discharging of goods is basic Cargo date of manufacture, cargo shelf-life and goods warehousing in parameter information store the date, according to cargo date of manufacture, cargo Shelf-life and goods warehousing storage date count the failure storage coefficient of each cargo λ is expressed as storage impact factor, takes 1.298, cargo is shorter apart from shelf-life durations, then failing, it is bigger to store coefficient；

Management server receives and respectively stores each storage that parameter detecting unit is sent in real time in storage parameter detection module Temperature, humidity and pressure information and temperature detection subelement, Humidity Detection subelement and pressure detecting subelement in section Corresponding number, and by received temperature, humidity and pressure, section is divided according to set time, is divided into temperature data collection Conjunction, humidity data set and pressure data set；

Wherein, temperature data collection is combined into Wxf (wxf1, wxf2 ..., wxfl ..., wxfz), the time hop counts that z is divided Amount, wxfl indicate to number average temperature value of f-th of storage subinterval within first of period in the storing sub-units for being x, if The mean temperature in first of period that cargo stores subinterval at f-th is greater than the corresponding storage temperature model of the type of merchandize Maximum temperature value in enclosing, then w ' xfl takes the maximum temperature value in the mean temperature and storage temperature range to carry out asking poor, if goods The mean temperature in first of period that object stores subinterval at f-th is less than the corresponding storage temperature range of the type of merchandize In lowest temperature angle value, then w ' xfl takes the lowest temperature angle value in the mean temperature and storage temperature range to carry out seeking difference and takes absolutely To value, if cargo is when storing the mean temperature in subinterval within the scope of storage temperature, w ' xfl takes 0, by by temperature number According in the period each in set mean temperature and the storage subinterval in the corresponding storage temperature range of the type of merchandize that stores It compares, obtains temperature difference comparison set W ' xf (w ' xf1, w ' xf2 ..., w ' xfl ..., w ' xfz), w ' xfl indicates to compile Number for x storing sub-units in f-th storage subinterval in first of period average temperature value and the storage subinterval in Temperature gap between the corresponding storage temperature range of the type of merchandize of storage, and the temperature difference of acquisition is compared into the temperature in set Difference and the normal temperature numerical value of setting compare, between the temperature difference in temperature difference comparison set and normal temperature numerical value Ratio relation, obtain temperature difference than value set W " xf (w " xf1, w " xf2 ..., w " xfl ..., w " xfz), w " xfl is indicated Number is temperature gap and normal temperature numerical value of f-th of storage subinterval within first of period in the storing sub-units of x Ratio, the corresponding weight proportion of different temperatures difference ratio is different, respectively gw " xf1, gw " xf2 ..., gw " xfl ..., gw " Xfz, and gw " xf1+gw " xf2+...+gw " xfl+...+gw " xfz=1；

Humidity data collection is combined into Sxf (sxf1, sxf2 ..., sxfl ..., sxfz), and sxfl indicates the storage that number is x Medial humidity value of f-th of storage subinterval within first of period in subelement, if cargo stores subinterval at f-th Medial humidity in first of period is greater than the highest humidity value in the corresponding storage temperature range of the type of merchandize, then s ' xfl The medial humidity and the highest humidity value stored in humidity range is taken to carry out asking poor, if cargo stores the l in subinterval at f-th Medial humidity in a period is less than the minimum humidity value in the corresponding storage temperature range of the type of merchandize, then s ' xfl takes The medial humidity is carried out seeking difference and be taken absolute value with the minimum humidity value in storage humidity range, if cargo is in storage subinterval Medial humidity when storing in humidity range, then s ' xfl takes 0, by by being averaged in the period each in humidity data set Humidity storage humidity range corresponding with the type of merchandize stored in the storage subinterval compares, and obtains psychrometric difference comparison collection It closes S ' xf (s ' xf1, s ' xf2 ..., s ' xfl ..., s ' xfz), s ' xfl is indicated to number in the storing sub-units for being x and be deposited for f-th Humidity differences of the subinterval between the medial humidity value in first of period and storage humidity range are stored up, and by the humidity of acquisition Difference be combined in psychrometric difference and the standard humidity numerical value of setting compare, to determine the humidity in psychrometric difference comparison set Ratio relation between difference and standard humidity numerical value obtains psychrometric difference than value set S " xf (s " xf1, s " xf2 ..., s " Xfl ..., s " xfz), s " xfl indicate number be x storing sub-units in f-th of storage subinterval within first of period The ratio of humidity differences and standard humidity numerical value, the corresponding weight proportion of different humidity difference ratio is different, respectively gs " xf1, Gs " xf2 ..., gs " xfl ..., gs " xfz, and gs " xf1+gs " xf2+...+gs " xfl+...+gs " xfz=1；

Pressure data collection is combined into Yxf (yxf1, yxf2 ..., yxfl ..., yxfz), and yxfl indicates the storage that number is x F-th of storage subinterval bottom support plate average pressure value suffered within first of period in subelement, by pressure data collection Average pressure suffered by storage subinterval bottom support plate in conjunction in each period is corresponding with storage subinterval bottom support plate Receiving pressure limit carry out, wherein the pressure limit that each storage subinterval bottom support plate is born is identical, obtains pressure difference pair Than set Y ' xf (y ' xf1, y ' xf2 ..., y ' xfl ..., y ' xfz), y ' xfl indicates to number f in the storing sub-units for being x A storage subinterval bottom support plate average pressure value and the storage subinterval bottom support plate suffered within first of period The pressure difference value of born pressure limit, if average pressure suffered by the storage subinterval bottom support plate, which is greater than, bears pressure model Maximal pressure force value in enclosing, then y ' xfl takes the average pressure and the maximal pressure force value born in pressure limit to carry out asking poor, if depositing It stores up average pressure suffered by the bottom support plate of subinterval to be less than or equal to bear the maximal pressure force value in pressure limit, then y ' xfl takes 0；

Whether management server is by set cargo transport path in correct, failure storage coefficient, temperature, humidity and pressure Power counts cargo integrated management coefficient each in warehouse logistics management process, the comprehensive storage and managenent coefficient of the cargo

K_xfIndicate the corresponding comprehensive storage and managenent system of cargo in f-th of storage subinterval of the storing sub-units that number is x Number, u indicate the storage and managenent factor, and 2.152, λ is taken whether to be expressed as cargo transport path correct, when transport path is correct, 2.5 are taken, when transport path is incorrect, takes -1, M_xfIndicate goods in f-th of storage subinterval of the storing sub-units that number is x Coefficient is stored in the failure of object, and f-th of storage subinterval is within first of period in the storing sub-units that w ' xfl expression number is x Average temperature value and the temperature gap between the corresponding storage temperature range of type of merchandize stored in the storage subinterval, w " Xfl indicates to number temperature gap and standard temperature of f-th of storage subinterval within first of period in the storing sub-units for being x F-th of storage subinterval is within first of period in the storing sub-units that the ratio of degree value, gw " xfl expression number are x Specific gravity corresponding to the ratio of temperature gap and normal temperature numerical value, s ' xf are indicated to number in the storing sub-units for being x and be deposited for f-th Humidity differences of the subinterval between the medial humidity value in first of period and storage humidity range are stored up, s " xfl indicates that number is The ratio of humidity differences and standard humidity numerical value of f-th of storage subinterval within first of period in the storing sub-units of x, Gs " xf indicates to number humidity differences and standard of f-th of storage subinterval within first of period in the storing sub-units for being x Specific gravity shared by the ratio of humidity, y ' xfl indicate to number f-th of storage subinterval bottom branch in the storing sub-units for being x The pressure of fagging average pressure value suffered within first of period and the born pressure limit of storage subinterval bottom support plate The comprehensive storage and managenent coefficient of the cargo of acquisition is sent to display terminal, the comprehensive storage and managenent of cargo by power difference, management server Coefficient is bigger, then shows more satisfied to the degree of material handling in warehouse logistics.

Whether management server shipment transport path correct, goods information acquiring unit for receiving for display terminal Corresponding path number, cargo transport path number and the comprehensive storage and managenent coefficient of cargo are simultaneously shown, convenient for storage pipe Whether the transport path that reason personnel intuitively understand cargo transport path needs exception, once transport path is abnormal, then prompts Administrative staff carry out transport path and are adjusted, meanwhile, cargo is well understood convenient for administrative staff and was managed in warehouse logistics The comprehensive storage and managenent coefficient of cargo in journey.

The above content is just an example and description of the concept of the present invention, affiliated those skilled in the art It makes various modifications or additions to the described embodiments or is substituted in a similar manner, without departing from invention Design or beyond the scope defined by this claim, be within the scope of protection of the invention.

Claims (9)

1. a kind of warehouse logistics intelligent management system, it is characterised in that: obtain mould including memory allocation module, goods information Block, transportation route analysis module, storage parameter detection module, management server and display module, management server respectively with deposit Store up space distribution module, goods information obtains module, transportation route analysis module, storage parameter detection module and display module connect It connects, transportation route analysis module obtains module with goods information and connect；

Memory allocation module is divided into several storing sub-units, no for dividing to the memory space of warehouse logistics It is used to store the cargo of different brands with storing sub-units, is exported from the near to the remote according to each storing sub-units apart from warehouse logistics Each storing sub-units are numbered in distance, are followed successively by 1,2 ..., x ..., t, count the sum of sale of goods under various brands Amount, and being numbered from more to less according to the various brands total quantity that markets the goods, be followed successively by 1,2 ..., x ..., t, various brands deposit In the Chu Zhiyu identical storing sub-units of brand reference numeral, each storing sub-units are divided into several storage subintervals, no Different storing highlies is corresponded to storage subinterval, storage subinterval is successively numbered from low to high according to storage height, point Not Wei 1,2 ..., f ..., r, and the different storage subintervals under same storing sub-units are for placing under same brand not Same type of merchandize, according to sale of goods total quantity various types of under same brand be placed sequentially in from more to less number be 1,2 ..., F ..., in the storage subinterval of r；

It includes several goods information acquiring units that goods information, which obtains module, and each goods information acquiring unit is separately mounted to cargo Above transportation route, the goods information acquiring unit is for being read out the RFID tag on goods packaging box, to obtain The basic parameter information of cargo, and the cargo basic parameter information that will acquire is sent to management server, meanwhile, the goods that will acquire Cargo transport path number and the corresponding identification coding of goods information acquiring unit are sent to transport in object basic parameter information Path analysis module；

Transportation route analysis module is used to receive goods information and obtains the corresponding knowledge of each goods information acquiring unit that module is sent Not Bian Ma and the goods information acquiring unit obtain cargo in the transmission path cargo transport path number, discharging of goods letter It ceases the corresponding identification of acquiring unit and encodes path number corresponding with the identification coding stored in transportation route database, and will The identification of extraction encodes the cargo of cargo in the transmission path obtained in corresponding path number and goods information acquiring unit Transport path number compares, if the corresponding path number of identification coding is identical as cargo transport path number, shows goods Transportation route used by object transports is correct, and feeds back transportation route correct information and cargo transport path is numbered to management and taken Business device, if identification encodes corresponding path number and cargo transport path number is not identical, used by showing cargo transport Transportation route mistake, and it is defeated to feed back transportation route error message, the corresponding path number of goods information acquiring unit and cargo Send path number to management server.

The transportation route analysis module includes transportation route database and transportation route analytical unit, and transportation route database is used Corresponding path number information is encoded in the identification for storing different goods information acquiring units, each goods information acquiring unit Identification coding has and only one corresponding path number；

Transportation route analytical unit is used to receive each goods information acquiring unit that each goods information acquiring unit is sent corresponding Identification coding and the goods information acquiring unit obtain the cargo transport path number of cargo in the transmission path, and will receive Identification coding compared with identification coding in transportation route database, obtain the identification and encode corresponding path number, and The path number and cargo transport path number are compared, are with the transport path for determining that cargo uses during transportation It is no correct；

Storage parameter detection module includes several groups storage parameter detecting unit, and several groups storage parameter detecting unit is installed respectively In each storage subinterval in each storing sub-units, temperature in subinterval, humidity and each are respectively stored for real-time detection Store pressure suffered by the bottom support plate of subinterval, and temperature, humidity and pressure information and temperature, humidity and the pressure that will test The corresponding number of force information is sent to management server, and the corresponding number of each group storage parameter detecting unit is respectively deposited with detected It is consistent to store up the corresponding Position Number in subinterval, i.e., temperature detection sub-unit, Humidity Detection are single in storage parameter detecting unit Member and the corresponding number of pressure detecting subelement Position Number corresponding with each storage subinterval detected are identical, and example is numbered Sequence is that the number of storage parameter detecting unit in f-th of storage subinterval in the storing sub-units of x is xf, storage parameter inspection Surveying temperature detection sub-unit in unit, Humidity Detection subelement and the corresponding number of pressure detecting subelement is respectively wxf, sxf And yxf；

Management server is used to receive the memory space of each storing sub-units of memory allocation module transmission, meanwhile, it receives The whether correct information of transportation route of transportation route analysis module feedback, if transportation route mistake, management server is sent Transportation route error message, the corresponding path number of goods information acquiring unit and cargo transport path are numbered to display terminal And shown, if transportation route is correct, management server sends transportation route correct information and cargo transport path is compiled It number to display terminal and is shown, the transportation route of the cargo of transportation route mistake is adjusted in time convenient for administrative staff It is whole, guarantee that cargo is stored to specified storing sub-units；

Management server receives the basic parameter information that goods information obtains module shipment, and discharging of goods basic parameter Cargo date of manufacture, cargo shelf-life and goods warehousing in information store the date, are guaranteed the quality according to cargo date of manufacture, cargo Phase and goods warehousing storage date count the failure storage coefficient M of each cargo_xf；

Management server receives in storage parameter detection module and respectively stores each storage subinterval that parameter detecting unit is sent in real time Interior temperature, humidity and pressure information and temperature detection subelement, Humidity Detection subelement and pressure detecting subelement are corresponding Number, and section divides according to set time by received temperature, humidity and pressure, is divided into temperature data set, wet Spend data acquisition system and pressure data set；

Management server is by the mean temperature storage temperature model corresponding with type of merchandize in the period each in temperature data set It encloses and compares, obtain temperature difference comparison set, by the normal temperature numerical value of temperature difference and setting in temperature difference comparison set It compares, obtains temperature difference and compare value set；By the mean temperature and type of merchandize pair in the period each in humidity data set The storage humidity range answered compares, and obtains psychrometric difference comparison set, and psychrometric difference is compared the psychrometric difference in gathering and set Fixed standard humidity numerical value compares, and obtains psychrometric difference and compares value set；By being averaged in the period each in pressure data set The pressure limit that pressure is born with storage subinterval bottom support plate compares, and obtains pressure difference comparison set；

Management server by set cargo transport path whether in correct, failure storage coefficient, temperature, humidity and pressure, it is right Each cargo integrated management coefficient is counted in warehouse logistics management process, the comprehensive storage and managenent coefficient of the cargo

K_xfIndicate the corresponding comprehensive storage and managenent coefficient of cargo in f-th of storage subinterval of the storing sub-units that number is x, u It indicates the storage and managenent factor, takes 2.152, λ whether to be expressed as cargo transport path correct, when transport path is correct, take 2.5, when transport path is incorrect, take -1, M_xfIndicate cargo in f-th of storage subinterval of the storing sub-units that number is x Failure store coefficient, w ' xfl indicate number be x storing sub-units in f-th of storage subinterval within first of period Temperature gap between average temperature value storage temperature range corresponding with the type of merchandize stored in the storage subinterval, w " xfl Indicate to number temperature gap and normal temperature number of f-th of storage subinterval within first of period in the storing sub-units for being x The ratio of value, gw " xfl indicate to number temperature of f-th of storage subinterval within first of period in the storing sub-units for being x Specific gravity corresponding to the ratio of difference and normal temperature numerical value, s ' xf indicate to number f-th of storage in the storing sub-units for being x Humidity differences of the section between the medial humidity value in first of period and storage humidity range, s " xfl indicate that number is x's The ratio of humidity differences and standard humidity numerical value of f-th of storage subinterval within first of period, gs " in storing sub-units Xf indicates to number humidity differences and standard humidity of f-th of storage subinterval within first of period in the storing sub-units for being x Specific gravity shared by the ratio of numerical value, y ' xfl indicate to number f-th of storage subinterval bottom support plate in the storing sub-units for being x The pressure difference of suffered average pressure value and the born pressure limit of storage subinterval bottom support plate within first of period The comprehensive storage and managenent coefficient of the cargo of acquisition is sent to display terminal by value, management server；

Whether management server shipment transport path is correct, goods information acquiring unit is corresponding for receiving for display terminal Path number, cargo transport path number and the comprehensive storage and managenent coefficient of cargo and shown.

2. a kind of warehouse logistics intelligent management system according to claim 1, it is characterised in that: the cargo basic parameter Information includes type of merchandize, cargo brand, measurement of cargo, cargo height, cargo width, cargo storage condition, cargo production date Phase, cargo shelf-life, goods warehousing storage date, cargo transport path number, the cargo storage condition include cargo storage Temperature range, cargo storage humidity range.

3. a kind of warehouse logistics intelligent management system according to claim 1, it is characterised in that: each under statistics different brands The quantity of type sale and various types of corresponding measurement of cargo, form with types of brand magnitude-set A_x(a_x1,a_x2,..., a_xf,...,a_xR), a_xF indicates to number the quantity of f-th of type of merchandize sale in the brand for being x, stores needed for various brands cargo The calculation formula of memory space beV_xIndicate to number the brand for being x in xth storing sub-units Needed for memory space, a_xF indicates to number the quantity of f-th of type of merchandize sale in the brand for being x, v_xF indicates that number is x Brand in f-th of type of merchandize volume, ρ be expressed as space storage influence coefficient, take 0.35.

4. a kind of warehouse logistics intelligent management system according to claim 1, it is characterised in that: the goods information obtains Unit is equipped with identification coding, and goods information acquiring unit is different for each goods information acquiring unit to be identified and distinguished The corresponding identification coding of goods information acquiring unit is different.

5. a kind of warehouse logistics intelligent management system according to claim 1, it is characterised in that: the storage parameter detecting Unit includes that temperature detection subelement, Humidity Detection subelement, pressure detecting subelement, processor and communications are single Member, the temperature detection subelement, Humidity Detection subelement are separately mounted to each storage subinterval center position, temperature inspection Survey subelement is temperature sensor, and for the temperature in real-time detection storage subinterval, and the temperature information that will test is sent to Processor, Humidity Detection subelement are humidity sensor, for the humidity in real-time detection storage subinterval, and be will test wet Degree information is sent to processor, and pressure detecting subelement is pressure sensor, is mounted in storage subinterval bottom support plate, uses In all pressure values of real-time detection storage subinterval bottom support plate, and the pressure value that will test is sent to processor；

Processor is used for the temperature for sending received temperature detection subelement, Humidity Detection subelement and pressure detecting subelement Degree, humidity and pressure value and temperature detection subelement, Humidity Detection subelement and the corresponding number hair of pressure detecting subelement It send to communications subelement；

Communications subelement receives temperature, humidity and the pressure value that processor is sent and temperature detection subelement, humidity inspection It surveys subelement and the corresponding number of pressure detecting subelement is sent to management server.

6. a kind of warehouse logistics intelligent management system according to claim 1, it is characterised in that: the cargo failure storage Coefficientλ is expressed as storage impact factor, takes 1.298.

7. a kind of warehouse logistics intelligent management system according to claim 1, it is characterised in that: the temperature data set For the period quantity that Wxf (wxf1, wxf2 ..., wxfl ..., wxfz), z are divided, wxfl indicates storage that number is x Average temperature value of f-th of storage subinterval within first of period in unit, if cargo stores the l in subinterval at f-th Mean temperature in a period is greater than the maximum temperature value in the corresponding storage temperature range of the type of merchandize, then w ' xfl takes Maximum temperature value in the mean temperature and storage temperature range carries out asking poor, if cargo stores first of subinterval at f-th Mean temperature in period is less than the lowest temperature angle value in the corresponding storage temperature range of the type of merchandize, then w ' xfl takes this Mean temperature is carried out seeking difference and be taken absolute value with the lowest temperature angle value in storage temperature range, if cargo is in storage subinterval When mean temperature is within the scope of storage temperature, then w ' xfl takes 0；

By by the period each in temperature data set mean temperature and the storage subinterval in the type of merchandize pair that stores The storage temperature range answered compares, and obtains temperature difference comparison set W ' xf (w ' xf1, w ' xf2 ..., w ' xfl ..., w ' Xfz), w ' xfl indicates to number average temperature value of f-th of storage subinterval within first of period in the storing sub-units for being x Temperature gap between storage temperature range corresponding with the type of merchandize stored in the storage subinterval, and by the temperature difference of acquisition The normal temperature numerical value of temperature difference and setting in comparison set compares, with the temperature difference in temperature difference comparison set With the ratio relation between normal temperature numerical value, obtain temperature difference than value set W " xf (w " xf1, w " xf2 ..., w " xfl ..., W " xfz), w " xfl indicates to number temperature gap of f-th of storage subinterval within first of period in the storing sub-units for being x With the ratio of normal temperature numerical value, the corresponding weight proportion of different temperatures difference ratio is different, respectively gw " xf1, gw " Xf2 ..., gw " xfl ..., gw " xfz, and gw " xf1+gw " xf2+...+gw " xfl+...+gw " xfz=1.

8. a kind of warehouse logistics intelligent management system according to claim 1, it is characterised in that: the humidity data set It indicates to number f-th of storage sub-district in the storing sub-units for being x for Sxf (sxf1, sxf2 ..., sxfl ..., sxfz), sxfl Between medial humidity value within first of period, if average wet in first of period that cargo stores subinterval at f-th Degree is greater than the highest humidity value in the corresponding storage temperature range of the type of merchandize, then s ' xfl takes the medial humidity and storage wet Highest humidity value in degree range carries out asking poor, if the medial humidity in first of period that cargo stores subinterval at f-th Minimum humidity value in storage temperature range corresponding less than the type of merchandize, then s ' xfl takes the medial humidity and storage humidity Minimum humidity value in range is carried out seeking difference and be taken absolute value, if medial humidity of the cargo in storage subinterval is in storage humidity When in range, then s ' xfl takes 0；

By by the period each in humidity data set medial humidity and the storage subinterval in the type of merchandize pair that stores The storage humidity range answered compares, and obtains psychrometric difference comparison set S ' xf (s ' xf1, s ' xf2 ..., s ' xfl ..., s ' Xfz), s ' xfl indicates to number medial humidity value of f-th of storage subinterval within first of period in the storing sub-units for being x With storage humidity range between humidity differences, and by the psychrometric difference of acquisition be combined in psychrometric difference and setting standard humidity Numerical value compares, and to determine the ratio relation between the psychrometric difference and standard humidity numerical value in psychrometric difference comparison set, obtains wet Degree difference is than value set S " xf (s " xf1, s " xf2 ..., s " xfl ..., s " xfz), s " xfl indicates that storage that number is x is single The ratio of humidity differences and standard humidity numerical value of f-th of storage subinterval within first of period, different humidity difference ratio in member It is different to be worth corresponding weight proportion, respectively gs " xf1, gs " xf2 ..., gs " xfl ..., gs " xfz, and gs " xf1+gs " Xf2+...+gs " xfl+...+gs " xfz=1.

9. a kind of warehouse logistics intelligent management system according to claim 1, it is characterised in that: the pressure data set It indicates to number f-th of storage sub-district in the storing sub-units for being x for Yxf (yxf1, yxf2 ..., yxfl ..., yxfz), yxfl Between bottom support plate average pressure value suffered within first of period, by the storage in the period each in pressure data set The receiving pressure limit corresponding with storage subinterval bottom support plate of average pressure suffered by the bottom support plate of subinterval carries out, In, each pressure limit for storing subinterval bottom support plate receiving is identical, obtains pressure difference comparison set Y ' xf (y ' xf1, y ' Xf2 ..., y ' xfl ..., y ' xfz), y ' xfl indicates to number f-th of storage subinterval bottom branch in the storing sub-units for being x The pressure of fagging average pressure value suffered within first of period and the born pressure limit of storage subinterval bottom support plate Power difference, if average pressure suffered by the storage subinterval bottom support plate is greater than the maximal pressure force value born in pressure limit, Then y ' xfl takes the average pressure and the maximal pressure force value born in pressure limit to carry out asking poor, if the support of storage subinterval bottom Average pressure suffered by plate is less than or equal to bear the maximal pressure force value in pressure limit, then y ' xfl takes 0.