CN114852574A - Warehouse goods logistics in-out recording system based on block chain - Google Patents

Abstract

The invention relates to the technical field of warehouse management, in particular to a warehouse goods logistics in-out recording system based on a block chain. The warehouse entry and exit monitoring system comprises a cargo entry and exit monitoring unit, wherein the output end of the cargo entry and exit monitoring unit is connected with a warehouse entry date identification unit, the output end of the warehouse entry date identification unit is connected with a cargo type classification unit, and the output end of the cargo type classification unit is connected with an area chain storage unit. According to the invention, the goods in and out monitoring unit monitors the goods information entering and exiting the warehouse and transmits the monitoring information to the entering date identifying unit, the entering date identifying unit identifies the goods expiration date and transmits the identifying information to the goods type classifying unit, the goods type classifying unit classifies different goods according to the goods expiration date, and meanwhile, the classifying information is transmitted to the area chain storage unit for information storage, so that later-stage management personnel can timely process the goods close to the expiration date, and the goods expiration rate is reduced.

Description

Warehouse goods logistics in-out recording system based on block chain

Technical Field

The invention relates to the technical field of warehouse management, in particular to a warehouse goods logistics in-out recording system based on a block chain.

Background

Warehouse management is an important component of enterprise management, in the production and operation activities of enterprises, the inventory management must ensure the requirements of production rooms on raw materials and parts, directly influence purchasing and marketing activities, flow capital for checking the activities of the enterprises, accelerate capital turnover, reduce the capital for pressing the warehouse to a greater extent on the premise of guaranteeing supply, and directly drive the operational benefits of the enterprises, so that the enterprises can not use the former management mode for inventory management, actively ask for changes, find new management ideas, for example, complete 'good management' and 'good management' through a warehouse management system, and realize intelligent and fine operation of the warehouse.

In the process of storing the goods, the goods stored in the warehouse are different, the expiration time of each goods is different, the stored positions and the stored environments are different, most of the existing warehouse management cannot store different goods in a classified manner, the positions where different goods are stacked are not classified clearly, some goods with shorter expiration time are stacked inside the warehouse, the goods cannot be taken out in the first time, the goods are taken out in a complicated manner, the goods are easily out of date, and a great amount of loss is caused to warehouse management personnel.

Disclosure of Invention

The invention aims to provide a warehouse goods outflow and warehousing recording system based on a block chain, so as to solve the problems in the background technology.

In order to realize the purpose, the warehouse cargo outflow warehousing recording system based on the block chain comprises a cargo in-out monitoring unit, wherein the cargo in-out monitoring unit is used for monitoring cargoes entering and exiting a warehouse, the output end of the cargo in-out monitoring unit is connected with a warehousing date identification unit, the warehousing date identification unit is used for identifying the production date and the expiration date of the cargoes, the output end of the warehousing date identification unit is connected with a cargo type classification unit, the output end of the cargo type classification unit is connected with a block chain storage unit, the output end of the cargo in-out monitoring unit is further connected with a warehouse-out date identification unit, and the warehouse-out date identification unit is used for identifying and recording the warehouse-out date of the cargoes.

As a further improvement of the technical scheme, the cargo type classification unit comprises an expiration date classification unit, the output end of the expiration date classification unit is connected with an environmental factor classification module, and the environmental factor classification module is used for further classifying the cargos stored in different environments.

As a further improvement of the technical scheme, the output end of the cargo type classification unit is connected with a cargo emergency processing unit, and the cargo emergency processing unit is used for emergency shipment processing of cargos.

As a further improvement of the technical scheme, the cargo emergency processing unit comprises a cargo storage date timing module, the cargo storage date timing module is used for recording the total warehousing time of the cargo, the output end of the cargo storage date timing module is connected with a cargo expiration time comparison module, the cargo expiration time comparison module is used for comparing the longest storage time of the cargo with the total warehousing time of the cargo, and the output end of the cargo expiration time comparison module is connected with a cargo expiration approaching processing module.

As a further improvement of the technical scheme, the input end of the goods storage date timing module is connected with the input end of the warehousing date identification unit, and the output end of the goods expiration approach processing module is connected with the output end of the warehousing date identification unit.

As a further improvement of the technical solution, the input end of the block chain storage unit is connected with the output end of the cargo emergency processing unit.

As a further improvement of the technical solution, an input end of the delivery date identification unit is connected with an output end of the delivery date identification unit, and an output end of the delivery date identification unit is connected with an input end of the block chain storage unit.

As a further improvement of the technical scheme, the delivery date identification unit comprises a warehouse entry time comparison module, and the output end of the warehouse entry time comparison module is connected with a residual time simulation module.

As a further improvement of the technical scheme, the output end of the residual time simulation module is connected with a time level identification module, and the time level identification module is used for identifying the level of the expiration time of different actual goods at normal temperature.

As a further improvement of the technical solution, the time level identification module adopts a time selection algorithm, which is as follows:

U ₀ ＝{a ₁ 、a ₂ 、a ₃ 、a ₄ …a _n }；

CompareA＝{a ₁ 、a ₂ 、a ₃ 、a ₄ …a _n }；

wherein U is ₀ The maximum storage time of all the delivered goods exposed to the normal temperature in the same time is set, a is the maximum storage time of each delivered goods exposed to the normal temperature, CompareA is a comparison set used for comparing the maximum storage time of each delivered goods exposed to the normal temperature, A ₁ The storage time is the shortest at room temperature.

Compared with the prior art, the invention has the beneficial effects that:

1. in this warehouse goods commodity circulation warehouse entry and exit record system based on block chain, goods monitoring unit monitors the goods information of business turn over warehouse, and transmit monitoring information to warehouse entry date recognition unit, warehouse entry date recognition unit discerns the goods expiry date, and transmit identification information to goods type classification unit, goods type classification unit classifies different goods according to the goods expiry date, carry out information storage with classified information transmission to regional chain storage unit simultaneously, in order to supply later stage managers in time to handle the goods of nearly expiry date, reduce the goods overdue rate.

2. In this warehouse goods commodity circulation warehouse entry and exit record system based on block chain, after classifying out the similar goods of expiry date through expiry date classification module, with information transmission to environmental factor classification module, environmental factor classification module carries out the environmental factor to the similar different goods of expiry date and judges, carries out secondary classification with categorised back goods according to different storage environment, avoids the environmental impact to accelerate goods expiration time, leads to the goods to damage.

3. In this warehouse goods commodity circulation warehouse entry record system based on block chain, promptly handle the goods that will expire soon through the urgent processing unit of goods, avoid the goods to damage and influence the loss of warehouse managers.

4. In this warehouse goods commodity circulation warehouse entry and exit record system based on block chain, the urgent processing unit of goods carries out information storage with goods processing information transmission to block chain memory cell, when the same goods is stored to the later stage, can predict in advance according to the goods storage information of previous storage, need not to carry out secondary discernment, improves goods warehouse entry and exit efficiency.

Drawings

FIG. 1 is a schematic overall flow chart of example 1 of the present invention;

fig. 2 is a schematic flow chart of a cargo type classification unit according to embodiment 1 of the present invention;

fig. 3 is a schematic flow chart of a cargo emergency processing unit according to embodiment 1 of the present invention;

fig. 4 is a schematic flow chart of the shipment date identification unit according to embodiment 1 of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example 1

Referring to fig. 1-4, a warehouse cargo outflow and warehousing recording system based on a block chain is provided, and includes a cargo access monitoring unit, the cargo access monitoring unit is used for monitoring cargoes entering and exiting a warehouse, an input end of the cargo access monitoring unit is connected with an input date identification unit, the input date identification unit is used for identifying production dates and expiration dates of the cargoes, an output end of the input date identification unit is connected with a cargo type classification unit, an output end of the cargo type classification unit is connected with a block chain storage unit, an output end of the cargo access monitoring unit is also connected with an output date identification unit, and the output date identification unit is used for identifying and recording dates of the cargoes out of the warehouse.

When the system is used, the goods in and out monitoring unit monitors goods entering a warehouse, records the quantity and appearance information of the goods, transmits the information to the entering date identification unit, the entering date identification unit identifies the production date and the expiration date of the goods and transmits the identification information to the goods type classification unit, the goods type classification unit classifies different goods according to the production date and the expiration date information after receiving the production date and the expiration date information of the goods, stores the goods with close expiration dates to the same area, such as a position close to the warehouse exit, so as to process the goods at the later period in time, transmits the classification information to the block chain storage unit, stores the classification information through the block chain storage unit, and provides information inquiry for later-period warehouse personnel, the goods in and out monitoring unit monitors the goods out of the warehouse, transmits the information of the goods out of the warehouse to the data identification unit of the goods out of the warehouse, and identifies the information of the goods out of the warehouse through the data identification unit of the goods out of the warehouse.

In addition, the goods type classification unit comprises an expiration date classification unit, the output end of the expiration date classification unit is connected with an environment factor classification module, and the environment factor classification module is used for further classifying goods stored in different environments. When the goods shelf is used specifically, because the storage environments of different goods are different, for different goods with similar time expiration, the needed environmental factors of the goods are different, after the goods with similar expiration dates are classified by the expiration date classification module, the information is transmitted to the environmental factor classification module, the environmental factor classification module judges the environmental factors of the different goods with similar expiration dates, the classified goods are secondarily classified according to different storage environments, the goods expiration time is shortened due to the influence of the environment, and the goods are damaged.

Further, the output end of the cargo type classification unit is connected with a cargo emergency processing unit, and the cargo emergency processing unit is used for emergency shipment processing of cargos. Because the goods are in the storage process, for some goods which cannot be sold for a long time, the goods are easy to approach the expiration time along with the accumulation of time, if the goods are not processed in time, a large amount of goods are expired, the loss of warehouse management personnel is seriously influenced, the goods which are about to expire are processed in time through the goods emergency processing unit, and the loss of the warehouse management personnel is avoided being influenced by the damage of the goods.

Still further, the cargo emergency processing unit comprises a cargo storage date timing module, the cargo storage date timing module is used for recording the total time for putting the cargo into the warehouse, the output end of the cargo storage date timing module is connected with a cargo expiration time comparison module, the cargo expiration time comparison module is used for comparing the longest storage time of the cargo with the total time for putting the cargo into the warehouse, and the output end of the cargo expiration time comparison module is connected with a cargo expiration approaching processing module. When the warehouse management system is used specifically, the total warehousing time of the goods is recorded by the goods storing date timing module, the total warehousing time information of the goods is transmitted to the goods overdue time comparison module, the longest storage time of the goods is identified by the goods overdue time comparison module, the total warehousing time of the goods is compared with the total warehousing time of the goods, the comparison information is transmitted to the goods overdue closing processing module, the goods closing on the goods overdue date are identified, and warehouse management personnel are reminded to timely process the goods.

Specifically, the input end of the goods storage date timing module is connected with the input end of the warehousing date identification unit, and the output end of the goods expiration approach processing module is connected with the output end of the warehousing date identification unit. In the specific use process, the goods storage date timing module receives the goods warehousing date and the goods expiration date which are identified by the warehousing date identification unit, when the goods expiration approaches the processing module to process the goods, the warehousing time of the goods approaching the expiration is recorded by the warehousing date identification unit, and the expiration time identification is carried out on the goods, so that transport personnel are reminded to complete the delivery of the goods within the expiration time, the goods expiration is avoided in the delivery process, and the goods are greatly lost.

In addition, the input end of the block chain storage unit is connected with the output end of the cargo emergency processing unit. During the specific use, the goods emergency processing unit transmits the goods processing information to the block chain storage unit for information storage, and when the same goods are stored in the later stage, the goods processing information can be predicted in advance according to the goods storage information stored previously without secondary identification, so that the goods warehousing and warehousing efficiency is improved.

Furthermore, the input end of the delivery date identification unit is connected with the output end of the warehousing date identification unit, and the output end of the delivery date identification unit is connected with the input end of the block chain storage unit. After the delivery time of the delivered goods is identified by the delivery date identification unit, the delivery time or the delivery time of the goods is combined with the maximum storage time, the goods are identified and processed, the goods which are close to the expiration time are identified, transportation personnel are reminded of timely transporting, the goods which are longer in the expiration time can be delivered according to the delivery time required by customers, flexible delivery of different goods is achieved, and the delivery efficiency is improved.

Still further, the delivery date identification unit comprises a warehouse entry time comparison module, and the output end of the warehouse entry time comparison module is connected with a remaining time simulation module. When specifically using, the time of going into the warehouse compares the module and is used for comparing the time of going into the warehouse to the time of going out of the warehouse of this shipment goods, and with contrast information transmission to remaining time analog module, because the goods is in the warehouse in the storage process, in order to guarantee the goods and store the effect, can store according to the optimum temperature of goods, after the goods goes out of the warehouse, expose under the normal atmospheric temperature state, storage time will greatly reduced, simulate through remaining time analog module and go out the save time under this goods normal atmospheric temperature state after going out of the warehouse, in order to provide the actual transit time of transport personnel.

In addition, the output end of the residual time simulation module is connected with a time level identification module, and the time level identification module is used for identifying the level of the overdue time of different actual goods at normal temperature. During specific use, because the warehouse needs the goods of multiple difference of delivering from godown simultaneously, to the goods that close on overdue under some normal atmospheric temperature states, need in time transport, so carry out the rank sign through time rank identification module to the expiration time under the different goods normal atmospheric temperature states of reality, carry out the rank division to different goods to the transportation personnel formulates the transportation plan according to the rank division, improve conveying efficiency, further reduce and cause the loss in the freight transportation process.

In addition, the time level identification module adopts a time selection algorithm, and the algorithm is as follows:

U ₀ ＝{a ₁ 、a ₂ 、a ₃ 、a ₄ …a _n }；

CompareA＝{a ₁ 、a ₂ 、a ₃ 、a ₄ …a _n }；

wherein U is ₀ The maximum storage time of all the delivered goods exposed to the normal temperature in the same time is set, a is the maximum storage time of each delivered goods exposed to the normal temperature, CompareA is a comparison set for the comparisonComparing the maximum storage time of each shipment exposed to normal temperature, A ₁ The storage time is the shortest at room temperature.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. Warehouse goods thing outflow warehousing record system based on block chain, including goods discrepancy monitoring unit, its characterized in that: the warehouse entry and exit monitoring unit is used for monitoring cargoes entering and exiting a warehouse, the output end of the warehouse entry and exit monitoring unit is connected with a warehouse entry date identification unit, the warehouse entry date identification unit is used for identifying the production date and the expiration date of the cargoes, the output end of the warehouse entry date identification unit is connected with a cargo type classification unit, the output end of the cargo type classification unit is connected with a block chain storage unit, the output end of the warehouse entry and exit monitoring unit is further connected with a warehouse exit date identification unit, and the warehouse exit date identification unit is used for identifying and recording the warehouse exit date of the cargoes.

2. The blockchain based warehouse cargo stream entry and exit logging system of claim 1, wherein: the goods type classification unit comprises an expiration date classification unit, the output end of the expiration date classification module is connected with an environment factor classification module, and the environment factor classification module is used for further classifying goods stored in different environments.

3. The blockchain based warehouse cargo stream entry and exit logging system of claim 2, wherein: the output end of the cargo type classification unit is connected with a cargo emergency processing unit, and the cargo emergency processing unit is used for emergency shipment processing of cargos.

4. The blockchain based warehouse cargo stream entry and exit logging system of claim 3, wherein: the goods emergency processing unit comprises a goods storage date timing module, the goods storage date timing module is used for recording the total time of goods entering a warehouse, the output end of the goods storage date timing module is connected with a goods expiration time comparison module, the goods expiration time comparison module is used for comparing the longest storage time of the goods with the total time of goods entering the warehouse, and the output end of the goods expiration time comparison module is connected with a goods expiration closing processing module.

5. The blockchain based warehouse cargo stream entry and exit logging system of claim 4, wherein: the input end of the goods storage date timing module is connected with the input end of the warehousing date identification unit, and the output end of the goods expiration approach processing module is connected with the output end of the warehousing date identification unit.

6. The blockchain based warehouse cargo stream entry and exit logging system of claim 4, wherein: the input end of the block chain storage unit is connected with the output end of the cargo emergency processing unit.

7. The blockchain based warehouse cargo stream entry and exit logging system of claim 1, wherein: the input end of the delivery date identification unit is connected with the output end of the warehousing date identification unit, and the output end of the delivery date identification unit is connected with the input end of the block chain storage unit.

8. The blockchain based warehouse cargo stream entry and exit logging system of claim 7, wherein: the warehouse-out date identification unit comprises a warehouse-in time comparison module, and the output end of the warehouse-in time comparison module is connected with a residual time simulation module.

9. The blockchain based warehouse cargo stream entry and exit logging system of claim 8, wherein: the output end of the residual time simulation module is connected with a time level identification module, and the time level identification module is used for identifying the level of the overdue time of different actual goods at normal temperature.

10. The block chain based warehouse cargo logistics in and out of warehouse logging system of claim 9, wherein: the time level identification module adopts a time selection algorithm, and the algorithm is as follows:

U ₀ ＝{a ₁ 、a ₂ 、a ₃ 、a ₄ …a _n }；

CompareA＝{a ₁ 、a ₂ 、a ₃ 、a ₄ …a _n }；

wherein U is ₀ The maximum storage time of all the delivered goods exposed to the normal temperature in the same time is set, a is the maximum storage time of each delivered goods exposed to the normal temperature, CompareA is a comparison set used for comparing the maximum storage time of each delivered goods exposed to the normal temperature, A ₁ The storage time is the shortest at room temperature.

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