CN112183974A - Concrete mixing plant informatization management system and method thereof - Google Patents

Abstract

The application relates to an information management system and method for a concrete mixing plant, belonging to the technical field of computers and comprising the following steps: the information acquisition module is used for acquiring a concrete production message and acquiring a concrete identifier and concrete production information corresponding to the concrete identifier according to the concrete production message; the formula data module is used for receiving the concrete identifier and acquiring corresponding concrete formula data to be produced from a preset database; the generation demand module is used for receiving concrete formula data and concrete production quantity information and generating raw material demand required by concrete production; the data processing module is used for receiving concrete formula data so as to match the corresponding stock of the raw materials; and then calculating the raw material purchasing amount according to the raw material inventory, the raw material demand and the highest threshold value of the raw material inventory. When the raw materials are replenished, the stored raw materials are calculated, and the stored raw materials are used for production, so that the production efficiency of the concrete mixing plant is improved.

Description

Concrete mixing plant informatization management system and method thereof

Technical Field

The application relates to the technical field of computers, in particular to an information management system and method for a concrete mixing plant.

Background

At present, concrete enterprises develop rapidly, and the development of mechanization and automation production is more and more perfect, so that the production yield is gradually improved, and the material consumption can be saved. Meanwhile, in order to improve the management level of the concrete mixing plant, an ERP system (enterprise resource planning or ERP) is built in the concrete mixing plant.

The prior Chinese patent of the invention with the publication number of CN108459567B discloses an ERP system of a concrete mixing plant, which comprises a raw material management module, a sales management module, a production management module, an experiment management module, a scheduling management module, a logistics management module, a comprehensive management and control module and a comprehensive management and control module, and has the functions of integrating the raw material management, the sales management, the production management, the experiment management, the scheduling management, the logistics management, the financial management and the comprehensive management and control of the concrete mixing plant into a unified system, facilitating data sharing and interaction among various departments of the concrete mixing plant and enabling a manager of the concrete mixing plant to master the whole condition of the concrete mixing plant. However, in actual production, shortage of the remaining raw materials occurs, which affects normal production of the concrete mixing plant, and thus there is room for improvement.

Disclosure of Invention

The application aims to provide a concrete mixing plant informatization management system, which has the advantage of improving the production efficiency of the concrete mixing plant.

The above object of the present application is achieved by the following technical solutions:

an information management system of a concrete mixing plant comprises:

the information acquisition module is used for acquiring a concrete production information and acquiring a concrete identifier and concrete production information corresponding to the concrete identifier according to the concrete production information;

the formula data module is connected with the message acquisition module and used for receiving the concrete identifier and acquiring corresponding concrete formula data to be produced from a preset database;

the generation demand module is respectively connected with the message acquisition module and the formula data module and is used for receiving concrete formula data and concrete production quantity information and generating raw material demand required by concrete production;

the data processing module is respectively connected with the formula data module and the generation demand module and is used for receiving concrete formula data so as to match the corresponding stock of the raw materials; and calculating the purchase quantity of the raw materials according to the stock quantity of the raw materials, the required quantity of the raw materials and the highest threshold value of the stock quantity of the raw materials.

By adopting the technical scheme, the formula database module matches corresponding concrete formula data to be produced from a preset database according to the concrete to be produced, so that the efficiency of producing the concrete can be improved; meanwhile, during production, the data processing module obtains the same stock of raw materials required by the concrete, so that the stock of the raw materials can be utilized when the raw materials are supplemented, and the stock of the raw materials is utilized for production when the raw materials are supplemented, so that the production efficiency of the concrete mixing plant is improved.

The application is further configured to: the generate demand module includes:

the inventory threshold submodule is used for setting the highest inventory threshold and the lowest inventory threshold of the corresponding raw materials according to different raw materials;

the vehicle conveying submodule is used for setting the average conveying amount of vehicles of different raw materials;

and the vehicle dispatching submodule is respectively connected with the inventory threshold submodule and the vehicle conveying submodule and is used for receiving the highest inventory threshold, the lowest inventory threshold and the average vehicle conveying amount of each raw material so as to calculate the vehicle entering time of each raw material.

By adopting the technical scheme, the vehicle dispatching submodule acquires the highest inventory threshold value and the lowest inventory threshold value of raw materials according to the produced concrete, the problem that the transportation of the raw materials does not timely influence the production of the concrete is reduced, and meanwhile, the vehicles of the mixing plant are convenient to dispatch, so that the raw materials in the mixing plant are controlled within a certain range.

The application is further configured to: the vehicle dispatch submodule includes:

the acquisition unit is used for acquiring the origin information and the destination information of each raw material;

the planning unit is connected with the acquisition unit and used for receiving the origin information and the destination information and determining a route map for conveying each raw material vehicle;

and the processing unit is connected with the planning unit and used for receiving the route map for conveying each raw material so as to calculate the average transportation time of the vehicle, and then the number of vehicles for conveying each raw material is allocated according to the vehicle entrance time of each raw material.

By adopting the technical scheme, the planning unit determines the route map of the vehicle according to the origin information and the destination information, and can play a navigation role in driving of a driver; the processing unit obtains the average transportation time according to the route map, and the mixing plant can conveniently allocate the number of vehicles according to the purchase amount of the raw materials.

The application is further configured to: the concrete mixing plant informatization management system further comprises:

the response message module is connected with the data processing module and used for receiving the raw material purchasing amount so as to generate corresponding signing information to be confirmed;

and the signing confirmation module is connected with the response message module and used for receiving the information to be confirmed for signing, so as to obtain the corresponding signing confirmation information and confirm and verify the signing confirmation information.

By adopting the technical scheme, the signing confirmation module confirms and audits the signing confirmation information, can monitor and master the state of the production task in real time, and is convenient for counting and analyzing relevant data of production and equipment.

The second purpose of the present application is achieved by the following technical scheme:

an information management method for a concrete mixing plant comprises the following steps:

acquiring a concrete production message, and acquiring a concrete identifier and concrete production amount information corresponding to the concrete identifier according to the concrete production message;

acquiring corresponding concrete formula data to be produced from a preset database according to the concrete identifier;

generating raw material demand required by concrete production according to the concrete formula data and the concrete production quantity information;

and if the corresponding raw material inventory is matched according to the concrete formula data, calculating the raw material purchase amount according to the raw material inventory, the raw material demand and the highest threshold of the raw material inventory.

By adopting the technical scheme, the corresponding concrete formula data to be produced is matched from the preset database according to the concrete to be produced, so that the efficiency of producing the concrete can be improved; meanwhile, during production, the same stock of raw materials required by concrete is obtained, the stock of raw materials can be utilized when the raw materials are supplemented, and the stock of raw materials is utilized for production when the raw materials are supplemented, so that the production efficiency of the concrete mixing plant is improved.

The application is further configured to: further refining the raw material demand according to the production of different concretes:

setting a highest inventory threshold value and a lowest inventory threshold value of corresponding raw materials according to different concretes;

setting the average vehicle conveying amount of different raw materials;

and calculating the vehicle entering time of each raw material according to the highest inventory threshold value, the lowest inventory threshold value and the average vehicle delivery amount of each raw material.

By adopting the technical scheme, the highest inventory threshold value and the lowest inventory threshold value of raw materials are obtained according to the produced concrete, the influence on the production of the concrete caused by the untimely transportation of the raw materials is reduced, meanwhile, the vehicles of the mixing plant are convenient to dispatch, and the raw materials in the mixing plant are controlled within a certain range.

The application is further configured to: the dispatching method of the vehicles required by the transportation of the raw materials comprises the following steps:

collecting origin information and destination information of each raw material;

determining a route map for transportation of each raw material vehicle according to the origin information and the destination information;

calculating the average transportation time of the vehicle according to the route map of the vehicle transportation, and then allocating the number of vehicles for transporting each raw material according to the vehicle entrance time of each raw material.

By adopting the technical scheme, the route map for the vehicle to run is determined according to the origin information and the destination information, and the navigation function can be played for the driving of the driver; and the average transportation time is obtained according to the route map, so that the mixing plant can conveniently allocate the number of vehicles according to the purchase quantity of the raw materials.

The application is further configured to: the concrete mixing plant informatization management method further comprises the following steps:

if the raw material purchase amount is obtained, generating corresponding signing to-be-confirmed information according to the raw material purchase amount;

and if the receipt confirmation information corresponding to the receipt to-be-confirmed information is acquired, confirming and checking the receipt confirmation information.

By adopting the technical scheme, the signing confirmation information is confirmed and audited, the state of the production task can be monitored and mastered in real time, and production and equipment related data can be counted and analyzed conveniently.

To sum up, the beneficial technical effect of this application does:

1. during production, the data processing module obtains the same stock of raw materials required by concrete, can utilize the stock of raw materials when supplementing the raw materials, and can utilize the stock of raw materials to produce when supplementing the raw materials, so that the production efficiency of the concrete mixing plant is improved;

2. the vehicle dispatching submodule obtains the highest inventory threshold value and the lowest inventory threshold value of raw materials according to the produced concrete, reduces the untimely influence on the production of the concrete caused by the transportation of the raw materials, and meanwhile, is convenient for dispatching the vehicles of the mixing plant, so that the raw materials in the mixing plant are controlled within a certain range.

Drawings

FIG. 1 is a system block diagram of an embodiment of the present application;

fig. 2 is a flow chart of a method of an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to figures 1 and 2.

An information management system for a concrete mixing plant, referring to fig. 1, comprises:

and the message acquisition module is used for acquiring the concrete production message and acquiring the concrete identifier and the concrete production information corresponding to the concrete identifier according to the concrete production message.

In the embodiment of the application, the concrete production message refers to a message for producing specified concrete, and the type of the concrete and the amount of the corresponding concrete sent by each client can be received through a computer terminal of the concrete mixing plant, and the type and the amount of the concrete are counted. The concrete mark means the kind of concrete to be produced. The concrete production amount information refers to the amount of concrete that the concrete actually needs to produce.

Specifically, when the concrete mixing plant needs to produce concrete, the concrete production amount information is generated by using the type of the concrete to be produced, such as C25 concrete, or a unique label set according to a corresponding standard and concrete properties, and the amount of the concrete to be produced by the concrete mixing plant; and then taking the concrete mark and the concrete production amount as the concrete production information.

And the formula data module is connected with the message acquisition module and used for receiving the concrete identifier and acquiring corresponding concrete formula data to be produced from a preset database.

In the embodiment of the application, the concrete formula data to be produced refers to data of a formula for producing concrete corresponding to the concrete identifier. The formula database module matches corresponding concrete formula data to be produced from a preset database according to concrete to be produced, and the efficiency of producing the concrete can be improved.

Specifically, the formula of the qualified concrete is stored in the database of the computer terminal in advance, and the corresponding identifier or the performance of the concrete is used as the index for searching matching. Further, the concrete identifier and/or the attribute corresponding to the concrete are used as keywords for matching and obtaining, and corresponding concrete formula data to be produced are obtained from the database.

And the generation demand module is respectively connected with the message acquisition module and the formula data module and is used for receiving the concrete formula data and the concrete production quantity information and generating the raw material demand required by the concrete production.

In the embodiment of the application, the raw materials of the concrete comprise cement, sand and stones, and the raw material requirement refers to the amount of each raw material required for producing a certain amount of concrete.

Specifically, if the type of the concrete is a, the formula data of the concrete a is as follows: cement a1, sand a2, pebbles A3, the amounts of the raw materials required for producing N quantities of concrete a: the cement is N A1, sand N A2, and pebble N A3.

The data processing module is respectively connected with the formula data module and the generation demand module and is used for receiving concrete formula data so as to match the corresponding stock of the raw materials; and then calculating the raw material purchasing amount according to the raw material inventory, the raw material demand and the highest threshold value of the raw material inventory.

Specifically, according to the concrete formula data, the corresponding raw material inventory in the concrete mixing plant is obtained, the raw material inventory is subtracted from the raw material demand, and then the maximum threshold value of the raw material inventory is subtracted to obtain the amount of the raw material actually required to be purchased by the concrete mixing plant.

During production, the data processing module obtains the same stock of raw materials required by concrete, can utilize the stock of raw materials when replenishing the raw materials, and can utilize the stock of raw materials to produce when replenishing the raw materials, thereby improving the production efficiency of the concrete mixing plant.

In one embodiment, the generate demand module includes: the inventory threshold submodule is used for setting the highest inventory threshold and the lowest inventory threshold of the corresponding raw materials according to different raw materials; the vehicle conveying submodule is used for setting the average conveying amount of vehicles of different raw materials; and the vehicle dispatching submodule is respectively connected with the inventory threshold submodule and the vehicle conveying submodule and is used for receiving the highest inventory threshold, the lowest inventory threshold and the average vehicle conveying amount of each raw material so as to calculate the vehicle entering time of each raw material.

In the embodiment of the application, the vehicle dispatching submodule acquires the highest inventory threshold value and the lowest inventory threshold value of raw materials according to produced concrete, reduces the untimely influence of the transportation of the raw materials on the production of the concrete, and meanwhile is convenient for dispatching the vehicles of the mixing plant, so that the raw materials in the mixing plant are controlled within a certain range.

Specifically, the highest inventory threshold and the lowest inventory threshold of each raw material required for producing different types of concrete are stored in the database of the computer terminal in advance, and the corresponding identifier or the performance of the concrete is used as a traction for searching for matching. Further, the concrete identifier and/or the attribute corresponding to the concrete are used as the keyword obtained by matching, and the highest inventory threshold value and the lowest inventory threshold value of the corresponding concrete to be produced are obtained from the database.

In one embodiment, the vehicle dispatch sub-module includes:

the acquisition unit is used for acquiring the origin information and the destination information of each raw material; and the planning unit is connected with the acquisition unit and used for receiving the origin information and the destination information and determining a route map for conveying each raw material vehicle.

In the embodiment of the application, the route map transported by each raw material vehicle is determined according to the origin information and the destination information, and the function of navigation can be played for the driving of a driver. The roadmap further includes at least a predicted travel distance and a predicted travel time. The driver can select the most suitable route map according to the predicted driving mileage or the predicted driving time; and acquiring real-time road conditions on the driving road of the route map, and calculating the possible waiting time in the journey according to the real-time road conditions. The optimal selection of the route map is only used for explaining the present application, and is not limited to the technical solution of the present application.

And the processing unit is connected with the planning unit and used for receiving the route map for conveying each raw material so as to calculate the average transportation time of the vehicles, and then the number of the vehicles for conveying each raw material is allocated according to the vehicle entrance time of each raw material.

In the embodiment of the application, the number of vehicles refers to the number of vehicles used for purchasing each raw material at this time. And the average transportation time is obtained according to the route map, so that the mixing plant can conveniently allocate the number of vehicles according to the purchase quantity of the raw materials.

The concrete mixing plant informatization management system also comprises:

and the response message module is connected with the data processing module and used for receiving the raw material purchasing quantity so as to generate corresponding signing to-be-confirmed information.

In the embodiment of the present application, the production response message indicates that the concrete identified by the concrete has generated a corresponding purchase message according to the corresponding raw material purchase amount. The receipt of the information to be confirmed is information to wait for confirmation of the transportation of the raw material to the concrete mixing plant by the corresponding vehicle driver through the vehicle.

Specifically, if the raw material purchase amount is obtained, the corresponding information to be confirmed for signing is generated according to the raw material purchase amount. And sending the information to be confirmed to the corresponding driver client. Preferably, the driver can queue up the corresponding task of transporting the raw material by: after the driver successfully registers, the driver is bound with the corresponding vehicle; through the popping-up two-dimensional codes of the system, the two-dimensional codes are displayed on a code scanner or a receipt cabinet, and the system is automatically bound successfully. At the moment, the system can automatically bind the vehicle and the driver, and the vehicle queuing area automatically displays the vehicle and records the time of entering the concrete mixing plant.

And the signing confirmation module is connected with the response message module and used for receiving the information to be confirmed for signing, so as to obtain the corresponding signing confirmation information and confirm and verify the signing confirmation information.

Specifically, the signing confirmation module confirms and audits signing confirmation information, can monitor and master the state of the production task in real time, and is convenient for counting and analyzing relevant data of production and equipment.

The respective modules in the embodiments of the present application may be implemented in whole or in part by software, hardware, and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

The embodiment of the application also discloses an information management method for the concrete mixing plant, which comprises the following steps with reference to fig. 2: acquiring a concrete production message, and acquiring a concrete identifier and concrete production amount information corresponding to the concrete identifier according to the concrete production message; acquiring corresponding concrete formula data to be produced from a preset database according to the concrete identifier; generating raw material demand required by concrete production according to concrete formula data and concrete production quantity information; and if the corresponding raw material inventory is matched according to the concrete formula data, calculating the raw material purchase amount according to the raw material inventory, the raw material demand and the highest threshold of the raw material inventory.

Further refining the raw material demand according to the production of different concretes: setting a highest inventory threshold value and a lowest inventory threshold value of corresponding raw materials according to different concretes; setting the average vehicle conveying amount of different raw materials; and calculating the vehicle entering time of each raw material according to the highest inventory threshold value, the lowest inventory threshold value and the average vehicle delivery amount of each raw material.

The dispatching method of the vehicles required by the transportation of the raw materials comprises the following steps: collecting origin information and destination information of each raw material; determining a route map for transportation of each raw material vehicle according to the origin information and the destination information; calculating the average transportation time of the vehicle according to the route map of the vehicle transportation, and then allocating the number of vehicles for transporting each raw material according to the vehicle entrance time of each raw material.

The concrete mixing plant informatization management method further comprises the following steps: if the raw material purchase amount is obtained, generating corresponding signing to-be-confirmed information according to the raw material purchase amount; and if the receipt confirmation information corresponding to the receipt to-be-confirmed information is acquired, confirming and checking the receipt confirmation information.

For specific limitations of the concrete mixing plant informatization management method, reference may be made to the above limitations of the concrete mixing plant informatization management system, and details are not repeated here.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The information management system for the concrete mixing plant is characterized by comprising the following components:

the information acquisition module is used for acquiring a concrete production information and acquiring a concrete identifier and concrete production information corresponding to the concrete identifier according to the concrete production information;

the formula data module is connected with the message acquisition module and used for receiving the concrete identifier and acquiring corresponding concrete formula data to be produced from a preset database;

the generation demand module is respectively connected with the message acquisition module and the formula data module and is used for receiving concrete formula data and concrete production quantity information and generating raw material demand required by concrete production;

the data processing module is respectively connected with the formula data module and the generation demand module and is used for receiving concrete formula data so as to match the corresponding stock of the raw materials; and calculating the purchase quantity of the raw materials according to the stock quantity of the raw materials, the required quantity of the raw materials and the highest threshold value of the stock quantity of the raw materials.

2. The concrete mixing plant informatization management system according to claim 1, wherein the generation demand module comprises:

the inventory threshold submodule is used for setting the highest inventory threshold and the lowest inventory threshold of the corresponding raw materials according to different raw materials;

the vehicle conveying submodule is used for setting the average conveying amount of vehicles of different raw materials;

and the vehicle dispatching submodule is respectively connected with the inventory threshold submodule and the vehicle conveying submodule and is used for receiving the highest inventory threshold, the lowest inventory threshold and the average vehicle conveying amount of each raw material so as to calculate the vehicle entering time of each raw material.

3. The concrete mixing plant information management system of claim 2, wherein the vehicle dispatch submodule comprises:

the acquisition unit is used for acquiring the origin information and the destination information of each raw material;

the planning unit is connected with the acquisition unit and used for receiving the origin information and the destination information and determining a route map for conveying each raw material vehicle;

and the processing unit is connected with the planning unit and used for receiving the route map for conveying each raw material so as to calculate the average transportation time of the vehicle, and then the number of vehicles for conveying each raw material is allocated according to the vehicle entrance time of each raw material.

4. The concrete mixing plant informatization management system according to claim 3, characterized by further comprising:

the response message module is connected with the data processing module and used for receiving the raw material purchasing amount so as to generate corresponding signing information to be confirmed;

and the signing confirmation module is connected with the response message module and used for receiving the information to be confirmed for signing, so as to obtain the corresponding signing confirmation information and confirm and verify the signing confirmation information.

5. An information management method for a concrete mixing plant is characterized by comprising the following steps:

acquiring a concrete production message, and acquiring a concrete identifier and concrete production amount information corresponding to the concrete identifier according to the concrete production message;

acquiring corresponding concrete formula data to be produced from a preset database according to the concrete identifier;

generating raw material demand required by concrete production according to the concrete formula data and the concrete production quantity information;

and if the corresponding raw material inventory is matched according to the concrete formula data, calculating the raw material purchase amount according to the raw material inventory, the raw material demand and the highest threshold of the raw material inventory.

6. The information management method for the concrete mixing plant according to claim 5, characterized in that the raw material demand is further refined according to different concrete production:

setting a highest inventory threshold value and a lowest inventory threshold value of corresponding raw materials according to different concretes;

setting the average vehicle conveying amount of different raw materials;

and calculating the vehicle entering time of each raw material according to the highest inventory threshold value, the lowest inventory threshold value and the average vehicle delivery amount of each raw material.

7. The information management method for the concrete mixing plant according to claim 6, wherein the dispatching method for each vehicle for transporting raw materials comprises the following steps:

collecting origin information and destination information of each raw material;

determining a route map for transportation of each raw material vehicle according to the origin information and the destination information;

calculating the average transportation time of the vehicle according to the route map of the vehicle transportation, and then allocating the number of vehicles for transporting each raw material according to the vehicle entrance time of each raw material.

8. The concrete mixing plant informatization management method according to claim 7, characterized by further comprising the following steps:

if the raw material purchase amount is obtained, generating corresponding signing to-be-confirmed information according to the raw material purchase amount;

and if the receipt confirmation information corresponding to the receipt to-be-confirmed information is acquired, confirming and checking the receipt confirmation information.

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