CN111160837A - Real-time progress management system and method for die assembly - Google Patents

Abstract

The invention provides a system and a method for managing the real-time progress of die assembly, which comprises a supplier client, a purchasing party client and a cloud server; the buyer client includes: the system comprises an assembly project mold demand acquisition unit, a supplier selection and mold supply quantity distribution and uploading unit, an assembly project progress recording and uploading unit and a supplier mold supply progress query unit. The vendor client includes: the device comprises a purchase information query unit, a mold yield acquisition unit, a purchasing party assembly project progress acquisition unit and a mold distribution and uploading unit. The invention facilitates the buyer to reasonably distribute the die requirements to different die suppliers and the suppliers to reasonably distribute the types and the quantities of the produced dies to the buyer through the information interaction between the buyer and the suppliers. The system and the method of the invention integrally arrange suppliers and purchasing parties, prevent the progress delay of the whole processing project and bring obvious economic benefits.

Description

Real-time progress management system and method for die assembly

Technical Field

The invention relates to the field of mold production and assembly application, in particular to a system and a method for managing the real-time progress of mold assembly.

Background

In industrial production, different equipment parts are prepared by using methods such as injection molding, blow molding, extrusion, die casting or forging forming, smelting, stamping and the like, different dies are needed, a single common small automobile is taken as an example, a single automobile type has nearly 2000 pairs of dies, the 2000 pairs of dies are provided by a plurality of automobile accessory suppliers, and in actual production, the production and processing of the dies need the cooperation processing of the plurality of suppliers, so that the dies are provided for the purchasing side of the dies. Due to different parts and different production periods, a plurality of manufacturers with different geographic positions can generate mismatching of the production and processing schedules of the parts, and the project schedule of the purchasing party is integrally delayed due to the fact that the individual parts are delayed; when a plurality of purchasing parties have the requirement of the same mold, the production sequence organization is disordered, so that the mold output efficiency of the supplier is low, and the improvement is urgently needed.

Disclosure of Invention

In order to solve the problems, the invention provides a system and a method for managing the real-time progress of die assembly. The invention facilitates the buyer to reasonably distribute the die requirements to different die suppliers and the suppliers to reasonably distribute the types and the quantities of the produced dies to the buyer through the information interaction between the buyer and the suppliers. The system and the method of the invention integrally arrange suppliers and purchasing parties, prevent the progress delay of the whole processing project and bring obvious economic benefits.

In order to realize the technical purpose, the technical scheme of the invention is as follows: a real-time progress management system for die assembly comprises a supplier client, a buyer client and a cloud server;

the buyer client includes:

an assembly item mold requirement obtaining unit for obtaining a mold type and a mold quantity list required by an assembly item initiated by a purchasing party,

the supplier selection and mould supply distribution and uploading unit is used for distributing suppliers and supply of each supplier according to the mould type and the mould quantity list acquired by the assembly project mould requirement acquisition unit and uploading the suppliers and the supply of each supplier to the cloud server;

the assembly project progress recording and uploading unit is used for acquiring a mold use record and uploading the used mold type, the mold quantity, the mold type and the mold quantity proportion acquired by the assembly project mold demand acquisition unit to the cloud server;

and the supplier mold supply progress inquiry unit is used for acquiring the mold supply quantity uploaded by the following mold distribution and uploading unit from the cloud server.

The vendor client includes:

a purchase information inquiry unit used for inquiring the supply quantity information corresponding to the supplier and uploaded by the supplier selection of the client side supplier of the purchasing party and the distribution and uploading unit of the mould supply quantity from the cloud server,

the mould output acquisition unit is used for acquiring the mould output in real time;

a buyer assembly project progress acquisition unit used for inquiring the used mould types and the mould quantity uploaded by the assembly project progress recording and uploading unit from the cloud server, wherein the mould types and the mould quantity proportion are acquired by the assembly project mould demand acquisition unit,

and the mold distribution and uploading unit is used for preferentially distributing a certain mold supply amount to the purchasing party lacking the mold according to the proportion acquired by the purchasing party assembly project progress acquisition unit.

Further, the client of the purchasing party also comprises a supplier scoring unit which is used for scoring according to the supply speed of the supplier; the supplier selection and mold supply quantity distribution and uploading unit automatically selects the supplier with high grade according to the grade of the supplier grading unit.

Further, the assembly item mold demand obtaining unit further comprises a coding module, the coding module is used for coding each mold and generating a coding list, the coding list is uploaded to the cloud server, the supplier client reads the coding list from the cloud server, and each mold is coded according to the coding list;

the assembly project progress recording and uploading unit comprises: and the first scanning unit is used for scanning codes on the moulds provided by a supplier and counting the types and the number of the used moulds.

Further, the mold yield acquisition unit comprises a second scanning unit, and the second scanning unit is used for scanning codes on the produced molds and further acquiring the mold yield in real time.

A real-time progress management method for die assembly utilizes the real-time progress management system for die assembly, and comprises a method for distributing die requirements by a supplier and a method for distributing die supply by a buyer;

the method for the purchasing party to distribute the die supply comprises the following steps:

s1: an assembly item mold requirement obtaining step, which is used for obtaining a mold type and a mold quantity list required by an assembly item initiated by a purchasing party,

s2: a supplier selection, mould supply distribution and uploading step, which is used for distributing suppliers and supply of each supplier according to the mould type and mould quantity list acquired in the assembly project mould requirement acquisition step and uploading to a cloud server;

s3: an assembly project progress recording and uploading step, which is used for acquiring a mold use record and uploading the proportion of the type of the used mold, the number of the molds in the mold requirement acquisition step of the assembly project to a cloud server;

s4: and a supplier mold supply progress inquiry step of acquiring the mold supply amount uploaded at T4 described below from the server.

The method for the supplier to distribute the mold demand comprises the following steps:

t1: a purchase information query step for querying the cloud server for the supply amount information corresponding to the supplier and uploaded in the purchasing client side supplier selection and mold supply amount distribution and uploading step,

t2: a mold yield acquisition step for acquiring the mold yield in real time;

t3: a buyer assembly project progress acquisition step for inquiring the assembly project progress record and the used mould type and the mould quantity uploaded in the uploading step from the cloud server, wherein the mould type and the mould quantity proportion are acquired by the assembly project mould requirement acquisition step,

t4: and a mold distribution and uploading step, which is used for preferentially distributing a certain mold supply amount to the purchasing party lacking the mold according to the proportion acquired in the purchasing party assembly project progress acquisition step.

Further, the client of the purchasing party also comprises a supplier scoring step, which is used for scoring according to the supply speed of the supplier; the supplier selection and mold supply distribution and upload steps automatically prefer a high-scoring supplier based on the scoring of the supplier scoring step.

Further, the assembly project mold requirement obtaining step further comprises a coding module, wherein the coding module is used for coding each mold and generating a coding list, the coding list is uploaded to the cloud server, and the supplier client reads the coding list from the cloud server and codes each mold according to the coding list;

the assembly project progress recording and uploading step comprises the following steps: the first scanning step is used for scanning codes on the moulds provided by suppliers and counting the types of the used moulds and the number of the used moulds.

Further, the mold yield acquisition step comprises a second scanning step for scanning the codes on the molds which have been produced, and further acquiring the mold yield in real time.

The invention has the beneficial effects that:

1) the purchasing party of the invention can select a plurality of suppliers to supply the products, and the suppliers can also distribute the molds produced by the suppliers to different purchasing parties.

2) According to the purchasing side supply distribution system, the supply progress of a provider is automatically inquired, the mold requirement information is sent to the provider in combination with the production progress of the provider, and meanwhile, when the mold supply provided by the provider does not meet the assembly project requirement, the purchasing side is automatically reminded to reselect the provider and the distributed supply quantity of the provider, so that the information synchronization and the overall management are achieved, and the delay of the overall processing project progress caused by the mold provider is prevented.

3) The supplier of the invention can automatically distribute the types and the quantity of the produced moulds to the purchasing party according to the assembly project progress of the purchasing party, reasonably finish the supply task and prevent the progress delay of the overall processing project of the purchasing party.

In conclusion, the invention facilitates the buyer to reasonably distribute the mold requirements to different mold suppliers and the suppliers to reasonably distribute the types and the quantities of the produced molds to the buyer through the information interaction between the buyer and the suppliers. The system and the method of the invention integrally arrange suppliers and purchasing parties, prevent the progress delay of the whole processing project and bring obvious economic benefits.

Drawings

FIG. 1 is a block schematic diagram of a vendor client of the present invention;

FIG. 2 is a block schematic diagram of a buyer client of the present invention;

FIG. 3 is a flow chart of a method for a supplier to distribute mold requirements in accordance with the present invention;

fig. 4 is a flow chart of a method for a buyer to distribute mold supplies according to the present invention.

Detailed Description

The technical solution of the present invention will be clearly and completely described below.

A real-time progress management system for die assembly comprises a supplier client, a buyer client and a cloud server; the server is used as data transfer of the supplier client and the buyer client.

As shown in fig. 2, the purchasing side client includes:

the assembling item mold requirement obtaining unit is used for obtaining a mold type and a mold quantity list required by an assembling item initiated by a purchasing party, preferably, the purchasing party client can also input and finish the assembling item, and the using sequence of the corresponding molds is selected.

The supplier selection and mould supply distribution and uploading unit is used for distributing suppliers and supply of each supplier according to the mould type and the mould quantity list acquired by the assembly project mould requirement acquisition unit and uploading the suppliers and the supply of each supplier to the cloud server; it should be noted that there may be a plurality of purchasing party clients and a plurality of supplier clients, and many-to-many communication is formed between the purchasing party client and the supplier client through the server, or the purchasing party may select a plurality of suppliers to supply goods, and the suppliers may allocate the molds produced by the suppliers to different purchasing parties.

The assembly project progress recording and uploading unit is used for acquiring a mold use record and uploading the used mold type, the mold quantity, the mold type and the mold quantity proportion acquired by the assembly project mold demand acquisition unit to the cloud server; of course, the order of using the molds can be followed, and the required types and number of the molds can be remained.

And the supplier mold supply progress inquiry unit is used for acquiring the mold supply quantity uploaded by the following mold distribution and uploading unit from the cloud server and warehousing the mold supply quantity. Preferably, when the mold supply provided by the supplier does not meet the requirement of the assembly project, the purchasing party is automatically reminded to reselect the supplier and the allocated supply amount.

According to the purchasing side supply distribution system, the supply progress of a provider is automatically inquired, the mold requirement information is sent to the provider in combination with the production progress of the provider, and meanwhile, when the mold supply provided by the provider does not meet the assembly project requirement, the purchasing side is automatically reminded to reselect the provider and the distributed supply quantity of the provider, so that the information synchronization and the overall management are achieved, and the delay of the overall processing project progress caused by the mold provider is prevented.

As shown in fig. 1, the vendor client includes:

the purchase information query unit is used for querying the supply amount information corresponding to the supplier and uploaded by the supplier selection and mould supply amount distribution and uploading unit of the client side of the buyer to the cloud server, namely, the supplier can automatically acquire the demand information of the buyer and further arrange the production work of the mould.

The mould output acquisition unit is used for acquiring the mould output in real time;

a buyer assembly project progress acquisition unit used for inquiring the used mould types and the mould quantity uploaded by the assembly project progress recording and uploading unit from the cloud server, wherein the mould types and the mould quantity proportion are acquired by the assembly project mould demand acquisition unit,

and the mold distribution and uploading unit is used for preferentially distributing a certain mold supply amount to the purchasing party lacking the mold according to the proportion acquired by the purchasing party assembly project progress acquisition unit. In other words, the supplier can automatically allocate the types and the quantity of the produced moulds to the purchasing party according to the assembly project progress of the purchasing party, so that the supply task is reasonably completed, and the progress delay of the overall processing project of the purchasing party is prevented.

Further, the client of the purchasing party also comprises a supplier scoring unit which is used for scoring according to the supply speed of the supplier; the supplier selection and mould supply quantity distribution and uploading unit automatically selects the supplier with high grade according to the grade of the supplier grading unit, thereby further optimizing the distribution system.

Further, the assembly item mold demand obtaining unit further comprises a coding module, the coding module is used for coding each mold and generating a coding list, the coding list is uploaded to the cloud server, the supplier client reads the coding list from the cloud server, and each mold is coded according to the coding list;

the assembly project progress recording and uploading unit comprises: and the first scanning unit is used for scanning codes on the moulds provided by a supplier and counting the types and the number of the used moulds. The code is used as a communication language between a buyer and a supplier, thereby facilitating the statistics of warehousing and ex-warehouse of the mould of the buyer and the statistics of production of the mould of the supplier.

Further, the mold yield acquisition unit comprises a second scanning unit, and the second scanning unit is used for scanning codes on the produced molds and further acquiring the mold yield in real time.

A real-time progress management method for die assembly utilizes the real-time progress management system for die assembly, and comprises a method for distributing die requirements by a supplier and a method for distributing die supply by a buyer;

that is to say, the supplier of the invention can automatically acquire the requirement information of the purchasing party and further arrange the production work of the mould.

As shown in fig. 4, the method for allocating mold supplies by a purchasing party includes:

s1: an assembly item mold requirement obtaining step, which is used for obtaining a mold type and a mold quantity list required by an assembly item initiated by a purchasing party,

s2: a supplier selection, mould supply distribution and uploading step, which is used for distributing suppliers and supply of each supplier according to the mould type and mould quantity list acquired in the assembly project mould requirement acquisition step and uploading to a cloud server;

s3: an assembly project progress recording and uploading step, which is used for acquiring a mold use record and uploading the proportion of the type of the used mold, the number of the molds in the mold requirement acquisition step of the assembly project to a cloud server;

s4: and a supplier mold supply progress inquiry step of acquiring the mold supply amount uploaded at T4 described below from the server.

As shown in fig. 3, the method for the supplier to distribute the mold demand includes:

t1: a purchase information query step for querying the cloud server for the supply amount information corresponding to the supplier and uploaded in the purchasing client side supplier selection and mold supply amount distribution and uploading step,

t2: a mold yield acquisition step for acquiring the mold yield in real time;

t3: a buyer assembly project progress acquisition step for inquiring the assembly project progress record and the used mould type and the mould quantity uploaded in the uploading step from the cloud server, wherein the mould type and the mould quantity proportion are acquired by the assembly project mould requirement acquisition step,

t4: and a mold distribution and uploading step, which is used for preferentially distributing a certain mold supply amount to the purchasing party lacking the mold according to the proportion acquired in the purchasing party assembly project progress acquisition step.

Further, the client of the purchasing party also comprises a supplier scoring step, which is used for scoring according to the supply speed of the supplier; the supplier selection and mold supply distribution and upload steps automatically prefer a high-scoring supplier based on the scoring of the supplier scoring step.

Further, the assembly project mold requirement obtaining step further comprises a coding module, wherein the coding module is used for coding each mold and generating a coding list, the coding list is uploaded to the cloud server, and the supplier client reads the coding list from the cloud server and codes each mold according to the coding list;

the assembly project progress recording and uploading step comprises the following steps: the first scanning step is used for scanning codes on the moulds provided by suppliers and counting the types of the used moulds and the number of the used moulds.

Further, the mold yield acquisition step comprises a second scanning step for scanning the codes on the molds which have been produced, and further acquiring the mold yield in real time.

It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the invention.

Claims (8)

1. A real-time progress management system for die assembly is characterized by comprising a supplier client, a buyer client and a cloud server;

the buyer client includes:

an assembly item mold requirement obtaining unit for obtaining a mold type and a mold quantity list required by an assembly item initiated by a purchasing party,

the supplier selection and mould supply distribution and uploading unit is used for distributing suppliers and supply of each supplier according to the mould type and the mould quantity list acquired by the assembly project mould requirement acquisition unit and uploading the suppliers and the supply of each supplier to the cloud server;

the assembly project progress recording and uploading unit is used for acquiring a mold use record and uploading the used mold type, the mold quantity, the mold type and the mold quantity proportion acquired by the assembly project mold demand acquisition unit to the cloud server;

and the supplier mold supply progress inquiry unit is used for acquiring the mold supply quantity uploaded by the following mold distribution and uploading unit from the cloud server.

The vendor client includes:

a purchase information inquiry unit used for inquiring the supply quantity information corresponding to the supplier and uploaded by the supplier selection of the client side supplier of the purchasing party and the distribution and uploading unit of the mould supply quantity from the cloud server,

the mould output acquisition unit is used for acquiring the mould output in real time;

a buyer assembly project progress acquisition unit used for inquiring the used mould types and the mould quantity uploaded by the assembly project progress recording and uploading unit from the cloud server, wherein the mould types and the mould quantity proportion are acquired by the assembly project mould demand acquisition unit,

and the mold distribution and uploading unit is used for preferentially distributing a certain mold supply amount to the purchasing party lacking the mold according to the proportion acquired by the purchasing party assembly project progress acquisition unit.

2. The real-time mold assembly progress management system of claim 1, wherein the buyer client further comprises a supplier scoring unit for scoring according to a supply speed of the supplier; the supplier selection and mold supply quantity distribution and uploading unit automatically selects the supplier with high grade according to the grade of the supplier grading unit.

3. The real-time mold assembly progress management system of claim 2, wherein,

the assembly project mold demand acquisition unit further comprises a coding module, the coding module is used for coding each mold and generating a coding list, the coding list is uploaded to the cloud server, the supplier client reads the coding list from the cloud server, and each mold is coded according to the coding list;

the assembly project progress recording and uploading unit comprises: and the first scanning unit is used for scanning codes on the moulds provided by a supplier and counting the types and the number of the used moulds.

4. The real-time mold assembly progress management system according to claim 3, wherein the mold yield collection unit comprises a second scanning unit for scanning codes on molds that have been produced, and further collecting mold yields in real time.

5. A real-time progress management method for die assembly, which utilizes the real-time progress management system for die assembly as claimed in claims 1-4, and is characterized by comprising a method for distributing die requirements by a supplier and a method for distributing die supplies by a buyer;

the method for the purchasing party to distribute the die supply comprises the following steps:

s1: an assembly item mold requirement obtaining step, which is used for obtaining a mold type and a mold quantity list required by an assembly item initiated by a purchasing party,

s2: a supplier selection, mould supply distribution and uploading step, which is used for distributing suppliers and supply of each supplier according to the mould type and mould quantity list acquired in the assembly project mould requirement acquisition step and uploading to a cloud server;

s3: an assembly project progress recording and uploading step, which is used for acquiring a mold use record and uploading the proportion of the type of the used mold, the number of the molds in the mold requirement acquisition step of the assembly project to a cloud server;

s4: and a supplier mold supply progress inquiry step of acquiring the mold supply amount uploaded at T4 described below from the server.

The method for the supplier to distribute the mold demand comprises the following steps:

t1: a purchase information query step for querying the cloud server for the supply amount information corresponding to the supplier and uploaded in the purchasing client side supplier selection and mold supply amount distribution and uploading step,

t2: a mold yield acquisition step for acquiring the mold yield in real time;

t3: a buyer assembly project progress acquisition step for inquiring the assembly project progress record and the used mould type and the mould quantity uploaded in the uploading step from the cloud server, wherein the mould type and the mould quantity proportion are acquired by the assembly project mould requirement acquisition step,

t4: and a mold distribution and uploading step, which is used for preferentially distributing a certain mold supply amount to the purchasing party lacking the mold according to the proportion acquired in the purchasing party assembly project progress acquisition step.

6. The real-time progress management method for mold assembly according to claim 1, wherein the purchasing client further comprises a supplier scoring step for scoring according to a supply speed of the supplier; the supplier selection and mold supply distribution and upload steps automatically prefer a high-scoring supplier based on the scoring of the supplier scoring step.

7. The real-time progress management method of mold assembly according to claim 2,

the assembling item mold requirement obtaining step further comprises a coding module, wherein the coding module is used for coding each mold and generating a coding list, the coding list is uploaded to the cloud server, and the supplier client reads the coding list from the cloud server and codes each mold according to the coding list;

the assembly project progress recording and uploading step comprises the following steps: the first scanning step is used for scanning codes on the moulds provided by suppliers and counting the types of the used moulds and the number of the used moulds.

8. The method of real-time mold assembly progress management according to claim 3, wherein the mold yield collection step includes a second scanning step for scanning codes on molds that have been produced, further collecting mold yields in real time.

Images