CN111242543B - Concrete material management system and method - Google Patents

Abstract

The invention provides a concrete material management system and method, comprising the following steps: the planning module is used for generating a production plan according to the collected planning information; the warehousing module is used for recording warehousing information of the concrete raw materials; the ex-warehouse module is used for recording ex-warehouse information of the ex-warehouse concrete finished products, semi-finished products and/or raw materials; the warehouse management module at least comprises an inventory statistical unit and is used for acquiring inventory information according to the warehouse-in information and the warehouse-out information; the production recording unit is used for recording concrete production information in real time, and the consumption statistics unit is used for acquiring real-time consumption of concrete raw materials according to the production plan and the concrete production information; according to the invention, systematic material management of concrete production is realized, self-monitoring and self-statistics of data are realized, so that the consumption of raw materials in the whole process of warehousing, production and ex-warehouse in the concrete production process is accurately counted, and the material totally-enclosed management in the concrete production process is realized.

Description

Concrete material management system and method

Technical Field

The invention relates to the field of computer application, in particular to a concrete material management system and method.

Background

With the rapid development of social economy, the construction industry of China enters a high-speed development period. Material management is an integral part of enterprise production management. Compared with the materials used by general enterprises, the materials used in the construction engineering, especially concrete production, have the remarkable characteristics of more varieties, high price and the like, and relate to a plurality of different categories of building materials, mechanical parts, equipment, electromechanical equipment and the like.

At present, most of material management of concrete production still stays in an original manual management stage or a simple system management stage, and effective management and accurate statistics of materials in the whole process of concrete production cannot be performed, and in the age of rapid information development, the management mode can not meet the requirements of construction and production. The quality and the efficiency of material management can directly influence the progress, quality and economic benefits of building engineering, and traditional concrete production's material management mainly relies on the manual work to receive and dispatch, record, leads to material management's data efficiency lower, and personnel's responsibility heart, negligence or management leak directly influence project construction cost, and the enterprise can not realize real-time effective supervision to project material management. In addition, materials which can be circulated among different projects lack effective scheduling, so that waste is caused.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present invention provides a concrete material management system and method for solving the above-mentioned technical problems.

The invention provides a concrete material management system, comprising:

the planning module is used for generating a production plan according to the collected planning information;

the warehousing module is used for recording warehousing information of the concrete raw materials;

the ex-warehouse module is used for recording ex-warehouse information of the ex-warehouse concrete finished products, semi-finished products and/or raw materials;

and a warehouse management module, the warehouse management module at least comprising

The inventory statistics unit is used for acquiring inventory information according to the warehouse-in information and the warehouse-out information;

a production recording unit for recording concrete production information in real time,

and the consumption statistics unit is used for acquiring the real-time consumption of the concrete raw materials according to the production plan and the concrete production information.

Optionally, the production plan includes construction time information, construction project information, construction position information and material proportioning information of the concrete pouring project, the stock statistics unit obtains raw material consumption according to the material proportioning information and the concrete finished product, and then obtains stock quantity according to the difference between the stock entering quantity of the corresponding concrete raw material in the stock entering information and the raw material consumption.

Optionally, the system further comprises a building model, wherein the building model is used for forming a visual structure according to construction procedure requirement information preset by each sub-engineering classification, and the planning module is connected with the building model and generates planning information according to construction procedure requirements in the building model.

Optionally, the information unit is used for generating push information for reminding the supplementary materials according to the production plan and the consumption of the concrete raw materials;

and the prediction unit is used for predicting the stock quantity according to the stock information and the real-time consumption of the concrete raw materials, and pushing information through the information unit when the predicted stock quantity cannot meet the production requirement of the construction time information according to the material proportion information in the production plan.

Optionally, the warehouse management module further comprises a production allocation unit, which is used for establishing a mapping relation between the concrete to be produced and the production plan, and allocating production tasks according to the mapping relation.

Optionally, the system further comprises an approval module, wherein the approval module is respectively connected with the planning module and the warehouse management module and is used for approving the warehouse management request.

Optionally, the warehouse-in module comprises

The first weighing unit is used for collecting load information of the incoming transport vehicle;

the warehousing verification unit is used for verifying and recording warehousing information of the concrete raw materials;

the warehouse-out module comprises

The second weighing unit is used for collecting load information of the transportation vehicle in the refund;

and the ex-warehouse verification unit is used for verifying and recording the ex-warehouse information of the concrete finished product, the semi-finished product and/or the raw material.

Optionally, also include

The allocation module is used for managing allocation among non-production-planned concrete finished products, semi-finished products and/or raw materials;

and the inventory module is used for inventory.

The invention also provides a concrete material management method, which comprises the following steps:

collecting plan information;

generating a production plan according to the plan information;

recording warehouse-in information of concrete raw materials;

recording the ex-warehouse information of the ex-warehouse concrete finished products, semi-finished products and/or raw materials;

acquiring inventory information according to the warehouse-in information and the warehouse-out information;

the concrete production information is recorded in real time,

and acquiring the real-time consumption of the concrete raw materials according to the production plan and the concrete production information.

Optionally, the production plan comprises construction time information, construction project information, construction position information and material proportioning information of the concrete pouring project,

establishing a mapping relation between the concrete to be produced and a production plan, and distributing production tasks according to the mapping relation;

and generating corresponding push information for reminding the supplementary materials according to the construction position information according to the production plan and the consumption of the concrete raw materials.

The invention has the beneficial effects that: the concrete material management system and the method realize the material management of systematic concrete engineering, realize the self-monitoring and self-statistics of data, lead the consumption of raw materials in the whole process of warehousing, production and ex-warehouse in the concrete production process to be accurately counted, realize the material totally-enclosed management in the concrete production process, more reasonably allocate resources, lead the material management items to be clearer and more convenient, improve the management and control efficiency, simplify the working flow, reduce the material cost, improve the economic benefit, ensure the rigor and the accuracy of the material management and improve the quality of the material management.

Drawings

Fig. 1 is a schematic diagram of a concrete material management system according to an embodiment of the present invention.

Fig. 2 is a flow chart of a concrete material management method according to an embodiment of the invention.

Detailed Description

Other advantages and effects of the present invention will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present invention with reference to specific examples. The invention may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present invention. It should be noted that the following embodiments and features in the embodiments may be combined with each other without conflict.

It should be noted that the illustrations provided in the following embodiments merely illustrate the basic concept of the present invention by way of illustration, and only the components related to the present invention are shown in the drawings and are not drawn according to the number, shape and size of the components in actual implementation, and the form, number and proportion of the components in actual implementation may be arbitrarily changed, and the layout of the components may be more complicated.

In the following description, numerous details are set forth in order to provide a more thorough explanation of embodiments of the present invention, it will be apparent, however, to one skilled in the art that embodiments of the present invention may be practiced without these specific details, in other embodiments, well-known structures and devices are shown in block diagram form, rather than in detail, in order to avoid obscuring the embodiments of the present invention.

As shown in fig. 1, the concrete material management system in this embodiment includes:

the planning module is used for generating a production plan according to the collected planning information;

the warehousing module is used for recording warehousing information of the concrete raw materials;

the ex-warehouse module is used for recording ex-warehouse information of the ex-warehouse concrete finished products, semi-finished products and/or raw materials;

and a warehouse management module, the warehouse management module at least comprising

The inventory statistics unit is used for acquiring inventory information according to the warehouse-in information and the warehouse-out information;

a production recording unit for recording concrete production information in real time,

and the consumption statistics unit is used for acquiring the real-time consumption of the concrete raw materials according to the production plan and the concrete production information.

In this embodiment, the warehousing module mainly includes a first weighing unit, configured to collect load information of an approaching transportation vehicle; the warehousing verification unit is used for verifying and recording warehousing information of the concrete raw materials; the warehouse-out module mainly comprises a second weighing unit and is used for collecting load information of the transportation vehicles in the refund; and the ex-warehouse verification unit is used for verifying and recording the ex-warehouse information of the concrete finished product, the semi-finished product and/or the raw material. The first weighing unit and the second weighing unit can adopt the floor scales arranged at the entrance and the exit of the approach to weigh, corresponding warehouse-in information and warehouse-out information can be acquired by the first weighing unit and the second weighing unit in a non-inductive way, the warehouse-in information and the warehouse-out information mainly comprise the types, the quantity, the approach/exit time and the like of materials or products, the special inventory statistics in a traditional warehouse management system are not needed in the mode, and accurate inventory can be acquired by calculation only by monitoring the information of the materials of the approach and the exit of the approach.

In this embodiment, the production plan includes construction time information, construction project information, construction position information, and material proportioning information of a concrete pouring project, in which, according to a national standard, a project plan, such as an annual production plan, a monthly production plan, and the like, must be formulated, and the plan module may perform data interaction through a third party management platform to obtain the construction plan, and use the production plan in the construction plan as a starting point for executing the plan in this embodiment, so as to be called by a subsequent function module.

In this embodiment, the warehouse management module is the core of material management in this embodiment, and through the inventory statistics unit, inventory information can be obtained according to the warehouse entry information and the warehouse exit information, and accurate inventory can be obtained through calculation only by monitoring the entrance and the exit material information, which is particularly suitable for a material management environment of concrete production. The consumption statistics unit can obtain the real-time consumption of concrete raw materials according to the production plan and the concrete production information, and because each concrete has strict model requirements, the national standard needs to be met, and therefore, the real consumption of the concrete raw materials can be reversely calculated by recording the quantity of the produced finished concrete in real time.

In this embodiment, the method further includes a building model, and the method is used for forming a visual structure according to construction procedure requirement information preset by each sub-engineering classification, and the planning module is connected with the building model and generates planning information according to construction procedure requirements in the building model. Before the start of each building project, building construction refers to the production activity of the implementation stage of engineering construction, which is the construction process of various buildings, and is the process of changing various designs on design drawings into real objects at designated places, so that the information of construction flow direction and construction sequence, construction stage division, construction method and construction machinery selection, safety construction design and the like are required to be designated before construction.

In this embodiment, the warehouse management module further includes a prediction unit, which may predict the stock quantity according to the stock information and the real-time consumption of the concrete raw material, and when the predicted stock quantity cannot meet the production requirement of the construction time information according to the material proportioning information in the production plan, information is pushed through the information unit. In the traditional concrete material management system, when the stock quantity of the materials is insufficient, the storage condition of the corresponding materials can be alarmed and displayed through devices such as an inventory early warning unit and the like so as to supplement the corresponding materials in time, but the mode is established on the basis that the stock quantity is required to be checked, in the embodiment, the method is different from the traditional warehouse management, on the one hand, the method can obtain accurate stock and real-time consumption through calculation without special stock checking or even special warehouse entities, on the other hand, the stock quantity can be predicted according to the stock information and the real-time consumption of concrete raw materials through a prediction unit, when the predicted stock quantity can not meet the production requirement of construction time information according to material proportion information in a production plan, information pushing is carried out through an information unit, preferably, the method can distribute production tasks according to the mapping relation between the concrete to be produced and the production plan; and generating corresponding push information for reminding the supplementary materials according to the construction position information according to the production plan and the consumption of the concrete raw materials. For example, the prediction unit may know in advance when a concrete pouring is required at a certain position of a certain project according to a plan, but the amount of concrete required at the position is already greater than the storage amount of one or more raw materials required in the stock according to the model proportioning ratio, at this time, the information unit may generate, according to the prediction result, push information for reminding of supplementing a specific type of raw material at the specific position, so as to avoid affecting the construction progress of the concrete pouring. Different from other material management, concrete production has certain timeliness after self-production, and based on the specificity, a more flexible material management mode is required to meet the requirement, and the material management mode aiming at concrete production is fresh at present only because of the specificity.

In this embodiment, the warehouse management module further includes a production allocation unit, configured to establish a mapping relationship between the concrete to be produced and the production plan, and allocate production tasks according to the mapping relationship. Correspondingly, the system in the embodiment further comprises an approval module, and the approval module is respectively connected with the planning module and the warehouse management module and is used for approving the warehouse management request. The method comprises the steps that request information sent by each system role can be approved through an approval module, such as a production task request initiated by a technician, and the like, and in the actual production process, task distribution is carried out through a production distribution unit, for example, on one hand, a production end can execute production operation according to the production task through concrete production equipment, such as when to produce concrete of which model is more or less, on the other hand, the task can be sent to a transportation end, seamless connection of production and transportation is achieved, and further automatic management from concrete production to transportation can be achieved.

In this embodiment, the system further comprises an allocation module for managing allocation among non-production planned concrete finished products, semi-finished products and/or raw materials; and the inventory module is used for inventory. According to the embodiment, the inventory module can be utilized to carry out auxiliary verification of inventory, flexible coping in the concrete pouring construction process can be realized through the allocating module, for example, when concrete of a certain type is produced to a designated part, but the part cannot be poured in the current time period due to special reasons, the allocating module can acquire the pushing information of other parts of the concrete of the same type as the designated part in need, the related information such as the distance, the type and the number between the two parts and the like needs to be considered in the process, other factors such as the downward compatibility of the hardness of the concrete and the like need to be considered, the allocating module can select the part which is suitable for allocation operation as an alternative, a user can select one to send an allocation request, and an administrator can carry out corresponding approval on the request through the approving module, so that allocation among different parts is realized, and the adaptability adjustment according to the actual situation needs is completed.

Correspondingly, as shown in fig. 2, the embodiment also provides a concrete material management method, which includes:

collecting plan information;

generating a production plan according to the plan information;

recording warehouse-in information of concrete raw materials;

recording the ex-warehouse information of the ex-warehouse concrete finished products, semi-finished products and/or raw materials;

acquiring inventory information according to the warehouse-in information and the warehouse-out information;

the concrete production information is recorded in real time,

and acquiring the real-time consumption of the concrete raw materials according to the production plan and the concrete production information.

The production plan in this embodiment includes construction time information, construction project information, construction position information, material proportioning information of the concrete pouring project,

establishing a mapping relation between the concrete to be produced and a production plan, and distributing production tasks according to the mapping relation;

and generating corresponding push information for reminding the supplementary materials according to the construction position information according to the production plan and the consumption of the concrete raw materials.

In the above embodiments, unless otherwise specified the description of a common object by use of a sequence number "first", "second", etc., merely indicates that it refers to a different instance of the same object, and is not intended to indicate that the described object must take a given order, whether temporally, spatially, in ranking, or in any other manner.

Reference in the specification to "this embodiment," "one embodiment," "another embodiment," or "other embodiments" means that a particular feature, structure, or characteristic described in connection with the embodiments is included in at least some embodiments, but not necessarily all embodiments. Multiple occurrences of "this embodiment," "one embodiment," "another embodiment," and "like" do not necessarily all refer to the same embodiment. If the specification states a component, feature, structure, or characteristic "may", "might", or "could" be included, that particular component, feature, structure, or characteristic is not required to be included. If the specification or claim refers to "a" or "an" element, that does not mean there is only one of the element. If the specification or claims refer to "an additional" element, that does not preclude there being more than one of the additional element.

The above embodiments are merely illustrative of the principles of the present invention and its effectiveness, and are not intended to limit the invention. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the invention. Accordingly, it is intended that all equivalent modifications and variations of the invention be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (8)

1. A concrete asset management system, comprising:

the plan module is used for generating a production plan according to the collected plan information, wherein the production plan comprises construction time information, construction project information, construction position information and material proportioning information of the concrete pouring project;

the warehousing module is used for recording warehousing information of the concrete raw materials;

the ex-warehouse module is used for recording ex-warehouse information of the ex-warehouse concrete finished products, semi-finished products and/or raw materials;

and a warehouse management module, the warehouse management module at least comprising

The inventory statistics unit is used for acquiring inventory information according to the warehouse-in information and the warehouse-out information, acquiring raw material consumption according to the material proportioning information and the concrete finished product, and acquiring inventory according to the difference between the warehouse-in amount and the raw material consumption of the corresponding concrete raw material in the warehouse-in information;

a production recording unit for recording concrete production information in real time,

the consumption statistics unit is used for acquiring real-time consumption of concrete raw materials according to the production plan and the concrete production information;

establishing a mapping relation between the concrete to be produced and a production plan, and distributing production tasks according to the mapping relation;

and generating corresponding push information for reminding the supplementary materials according to the construction position information according to the production plan and the consumption of the concrete raw materials.

2. The concrete asset management system of claim 1, further comprising a building model for forming a visual structure according to construction process requirement information formulated in advance for each of the sub-engineering classifications, wherein the planning module is connected to the building model and generates the planning information according to the construction process requirement in the building model.

3. The concrete asset management system of claim 2, wherein the warehouse management module further comprises an information unit for generating push information prompting supplementary materials according to the production plan and consumption of concrete raw materials;

and the prediction unit is used for predicting the stock quantity according to the stock information and the real-time consumption of the concrete raw materials, and pushing information through the information unit when the predicted stock quantity cannot meet the production requirement of the construction time information according to the material proportion information in the production plan.

4. The concrete asset management system of claim 2, wherein the warehouse management module further comprises a production allocation unit for establishing a mapping relationship of the concrete to be produced and the production plan, and allocating production tasks according to the mapping relationship.

5. The concrete asset management system of claim 4, further comprising an approval module coupled to the planning module and the warehouse management module, respectively, for approving the request for warehouse management.

6. The concrete asset management system of claim 1, wherein the warehousing module comprises

The first weighing unit is used for collecting load information of the incoming transport vehicle;

the warehousing verification unit is used for verifying and recording warehousing information of the concrete raw materials;

the ex-warehouse module comprises

The second weighing unit is used for collecting load information of the transportation vehicle in the refund;

and the ex-warehouse verification unit is used for verifying and recording the ex-warehouse information of the concrete finished product, the semi-finished product and/or the raw material.

7. The concrete asset management system of claim 5, further comprising

The allocation module is used for managing allocation among non-production-planned concrete finished products, semi-finished products and/or raw materials;

and the inventory module is used for inventory.

8. A concrete asset management method, comprising:

collecting plan information;

generating a production plan according to the plan information, wherein the production plan comprises construction time information, construction project information, construction position information and material proportioning information of a concrete pouring project;

recording warehouse-in information of concrete raw materials;

recording the ex-warehouse information of the ex-warehouse concrete finished products, semi-finished products and/or raw materials;

acquiring inventory information according to the warehouse-in information and the warehouse-out information;

the concrete production information is recorded in real time,

acquiring real-time consumption of concrete raw materials according to the production plan and the concrete production information, acquiring raw material consumption according to the material proportioning information and the concrete finished product, and acquiring stock quantity according to the difference between the warehouse entry quantity and the raw material consumption of the corresponding concrete raw materials in the warehouse entry information;

establishing a mapping relation between the concrete to be produced and a production plan, and distributing production tasks according to the mapping relation;

and generating corresponding push information for reminding the supplementary materials according to the construction position information according to the production plan and the consumption of the concrete raw materials.