CN111861347A - Material management system and method for building engineering - Google Patents

Abstract

The invention relates to the technical field of building engineering management, in particular to a material management system and a material management method for building engineering, which comprises constructor terminal equipment, material member terminal equipment, a background terminal and a server, wherein the server comprises a database, a request receiving module, a judging module, a processing module and an output module, wherein: the system comprises a database, a project planning table and a project planning table, wherein the project planning table is used for storing the project planning table in advance and comprises project name information, material name information and planning quantity information; the system comprises a request receiving module, a data processing module and a data processing module, wherein the request receiving module is used for acquiring request information sent by constructor terminal equipment, and the request information comprises project name information, material name information, required quantity information and material member information; the judging module is used for receiving the project name information and the material name information and obtaining corresponding plan quantity information from the database according to a keyword matching algorithm; by adopting the scheme, the problem that the utilization rate of the existing data resources is low can be solved.

Description

Material management system and method for building engineering

Technical Field

The invention relates to the technical field of building engineering management, in particular to a material management system and method for building engineering.

Background

The material management refers to planning, organizing and controlling the actions of purchasing, using, storing and the like of materials required by an enterprise in the production process of the enterprise. The material management is a most basic and indispensable management activity in an enterprise, and is a general term for various management works including planning, purchasing and ordering, transportation organization, inventory report, reasonable supply, receiving, dispatching, recycling and the like of various materials required by the production and operation activities of the enterprise. The aim of the construction engineering material management is to ensure that each material is traceable in use by effectively managing the materials, strive for high quality and low price, and meet the standard of a quality management system, so that the production cost of an enterprise is reduced, the capital turnover is accelerated, the profit of the enterprise is promoted, and the market competitiveness of the enterprise is improved.

For example, chinese patent publication No. CN110516973A discloses a material management system and a management method for construction engineering, which relates to the technical field of construction engineering management, and includes an information acquisition module, an asset inventory module and a material acceptance module connected to the information acquisition module, and a system of a cloud server and an acceptance analysis module, wherein a plurality of information acquisition devices are used to respectively acquire turnover material information and purchase data of corresponding construction projects, empty materials are shared to a material market module, the turnover material analysis module analyzes and matches the empty materials, and the turnover material analysis module maintains the turnover material information and purchase data through a shelf module, an order module and a transfer record module, so that the efficiency of material management and material circulation is improved, resources are reasonably allocated, the material cost is reduced, and the economic benefit is improved; the quality and the quantity of the material acceptance process are controlled on site by the material acceptance module, and the acceptance analysis module is used for analyzing the acceptance data and the purchase data, so that the strictness and the accuracy of acceptance are ensured, and the quality of acceptance is improved.

At present, building engineering enterprises generally adopt an online process approval mode to realize material management, and the links of approval, authorization and the like which originally depend on manpower are converted from online to online by means of online operation of an information system, so that the efficiency of circulation of all levels is improved; but the examination and approval in the material management system is mainly used as a connecting bridge to realize cross-department examination and approval and internal examination and approval of each department; the method has the advantages that the method has the function of information disclosure, namely, the information in the examination and approval table is only used for being checked by a user, the material information in the examination and approval table is not utilized to reflect the construction progress, and the problem that the utilization rate of the existing data resources is low exists.

Disclosure of Invention

The invention aims to provide a material management system and method for building engineering, which can solve the technical problem of low utilization rate of the existing data resources.

The basic scheme provided by the invention is as follows: a material management system for building engineering, including constructor terminal equipment, material person terminal equipment, backstage terminal and server, the server includes database, request receiving module, judgment module, processing module and output module, wherein:

the system comprises a database, a project planning table and a project planning table, wherein the project planning table is used for storing the project planning table in advance and comprises project name information, material name information and planning quantity information;

the system comprises a request receiving module, a data processing module and a data processing module, wherein the request receiving module is used for acquiring request information sent by constructor terminal equipment, and the request information comprises project name information, material name information, required quantity information and material member information;

the judging module is used for receiving the project name information and the material name information, obtaining corresponding plan quantity information from the database according to a keyword matching algorithm, and if the required quantity information is larger than the plan quantity information, generating first prompt information and sending the first prompt information to the constructor terminal equipment; otherwise, forwarding the request information to the material member terminal equipment according to the material member information in the request information;

the processing module is used for acquiring approval opinions sent by the material member terminal equipment, wherein the approval opinions comprise agreement and disagreement; if the approval opinions are consenting, a statistical model is established, and the planned quantity information and the required quantity information are input into the statistical model;

and the output module is used for sending the generated statistical model to the background terminal.

The working principle and the advantages of the invention are as follows:

in the scheme, a project schedule is prestored in the database, and the schedule comprises the names of all projects, and correspondingly bound material names and schedule quantities; moreover, the constructor usually initiates a required examination and approval to the material staff according to the quantity of related materials in the preparation stage of the construction project; therefore, after the request receiving module acquires the request information initiated by the constructor, the judging module matches the related plan number according to the keywords of the project name and the material name, and prompts when the input required number is larger than the plan number, so that the problem that the project usage exceeds the budget can be effectively avoided; in addition, the system collects approval opinions fed back by the material staff through the terminal equipment by the processing module, records the planned quantity and the required quantity through the statistical model after approval is approved, and sends the planned quantity and the required quantity to the background terminal, so that background staff can know the current construction progress conveniently according to the statistical model; the progress stage and the execution condition of the construction project are more clearly known;

in conclusion, the scheme can utilize the existing data resources, namely, the data statistics is carried out by combining the plan consumption information in the database and the required quantity in the examination and approval table, so that the overall progress of the construction project is reflected.

Further, the system also comprises supplier terminal equipment; and the processing module is also used for detecting the approval opinions, extracting the project name information, the material name information and the required quantity information in the request information if the approval opinions are approved, generating an order list and sending the order list to the supplier terminal equipment. By adopting the scheme, after the materials are approved by the constructor, the constructor can generate the order by using the material specific information in the application and send the order to the supplier terminal, so that the material purchasing plan can be conveniently and rapidly developed.

Further, the processing module is further configured to obtain processing result information sent by the provider terminal device, where the processing result information includes a received order and an unaccessed order; if the processing result information is detected to be the received order, generating a two-dimensional code according to the order list; and the output module is also used for sending the two-dimensional code to the supplier terminal equipment. According to processing result information provided by a supplier, only after the order is detected to be accepted, generating a two-dimensional code, binding an order list, and finally sending the two-dimensional code to equipment of the supplier for storage; enabling the two-dimensional code to be directly scanned subsequently, and reading corresponding material information according to the two-dimensional code; not only convenient operation compares in direct show order information moreover, and the two-dimensional code has certain disguise, can play the effect of protection privacy.

The system further comprises an input module, a weight detection module and a weight calculation module, wherein the input module is used for acquiring weight information of the materials detected by a supplier during delivery and generating reference weight information; the input module is also used for acquiring weight information of the materials detected when the materials are put into the warehouse and generating current weight information; the judging module is also used for receiving and judging the reference weight information and the current weight information, and if the current weight information is equal to the reference weight information, the second prompt information is generated through warehouse entry verification; otherwise, generating alarm information and sending the alarm information to the terminal equipment of the materials staff. Generally, purchased materials need to be transported by vehicles from a supplier to a warehouse, and in order to avoid quantity deviation caused by problems in the transportation process, the purchased materials are directly weighed in the warehouse and compared with the weight measured when the suppliers deliver the goods, so that the checking work of the goods is completed.

Further, still include sensing equipment and detection module, wherein: the sensing equipment is used for collecting the weighing state information of the transport vehicle when the materials are put in storage; the detection module is used for receiving and judging the weighing state information, and if the tires of the transport vehicle are completely on the scale, the weighing verification is judged to be successful; otherwise, generating a third prompt message; and the output module is also used for sending the third prompt message to the terminal equipment of the material staff. In this scheme, whether the tire is completely on the platform scale when coming the discernment vehicle to cross the pound through the sensing equipment of utilization intelligence and reasonable judgement logic, can guarantee the authenticity of testing result to the input on the cost of manpower is practiced thrift.

Further, the sensing device adopts an infrared sensor. By adopting the infrared correlation function of the infrared sensor, namely, the infrared transmitting end transmits a beam of light, and after the tire shields the light, the receiving end cannot receive the light any more, and the tire is judged to be on the platform scale at the moment; therefore, the collection of the state information of the vehicle when weighing is completed.

And further, the output module is also used for sending the second prompt message to the constructor terminal equipment. Because the second prompt information can be generated after the goods and materials are stored in the warehouse and verified, the scheme can timely inform the constructor of the goods and materials storage information, so that the constructor can know the purchasing progress of the goods and materials conveniently, an application for getting the goods and materials is initiated at a proper time, and the process is guaranteed to be orderly carried out.

Further, the request receiving module is also used for receiving a reception application initiated by the constructor terminal equipment after sending the second prompt message; the judging module is also used for judging the quantity information in the requisition application according to the request information, and if the quantity information of the materials in the requisition application is greater than the quantity information required in the request application, fourth prompt information is generated; otherwise, the application is sent to the terminal equipment of the material staff. Similarly, after the materials are purchased in the warehouse, the constructor needs to send a claiming application, and the claiming quantity of the materials does not exceed the quantity of the materials required by the prior application.

The invention also provides a management method for the building engineering materials, which comprises the following steps:

s1, acquiring request information sent by the constructor terminal equipment, wherein the request information comprises project name information, material name information, required quantity information and material member information;

s2, receiving project name information and material name information, obtaining corresponding plan quantity information from a database according to a keyword matching algorithm, and generating prompt information if the required quantity information is greater than the plan quantity information; otherwise, forwarding the request information to the material member terminal equipment according to the material member information in the request information;

s3, obtaining approval opinions sent by the terminal equipment of the materials staff, wherein the approval opinions comprise agreement and disagreement; if the approval opinions are consenting, a statistical model is established, and the planned quantity information and the required quantity information are input into the statistical model;

and S4, sending the generated statistical model to a background terminal.

Has the advantages that: a project schedule table is prestored in a general database, and the table comprises the name of each project, the name of the corresponding bound material and the schedule quantity; moreover, since the constructor usually initiates the required examination and approval to the material staff according to the quantity of the related materials in the stage of the construction project; therefore, after the request information initiated by the constructor is obtained, the related plan quantity is matched according to the keywords of the project name and the material name, and when the input required quantity is larger than the plan quantity, prompting is carried out, so that the problem that the project consumption exceeds the budget is avoided; besides, approval opinions fed back by the material staff through the terminal equipment are collected, after approval is agreed, the planned quantity and the required quantity are recorded through the statistical model and are sent to the background terminal, and therefore background staff can know the current construction progress conveniently according to the statistical model; the progress stage and the execution condition of the construction project are more clearly known;

in summary, the present solution can utilize the existing data resources, that is, combine the planned usage information in the database and the required quantity in the approval table to perform data statistics, so as to reflect the overall progress of the construction project.

Further, the step S3 is followed by the step of: and S31, detecting the examination and approval opinions, if the examination and approval opinions are approved, extracting the item name information, the material name information and the required quantity information in the request information, generating an order list, and sending the order list to the supplier terminal equipment. By adopting the scheme, after the materials are approved by the constructor, the order can be generated according to the project name information, the material name information and the required quantity information of the constructor in the application, and the order is sent to the supplier terminal, so that the material purchasing plan can be conveniently and rapidly developed.

Drawings

Fig. 1 is a system block diagram of a first embodiment of the material management system and method for construction engineering according to the present invention.

Detailed Description

The following is further detailed by the specific embodiments:

example one

The material management system for the building engineering comprises constructor terminal equipment, material terminal equipment, a background terminal and a server, wherein the constructor terminal equipment and the material terminal equipment both adopt P40 mobile phones, the background terminal is an association all-in-one computer, and the server adopts a Power Edge T30 micro tower server easy to communicate by Del; as shown in fig. 1, the server includes a database, a request receiving module, a determining module, a processing module, and an output module, wherein:

the system comprises a database, a project planning table and a project planning table, wherein the database is used for storing the project planning table in advance, and the project planning table comprises project name information, material name information and planning quantity information; specifically, in this embodiment, a project schedule is selected, where the project name information includes "phoenix garden" and the material name information includes "concrete" and "tile", where the planned quantity information of "concrete" is "250 tons" and the planned quantity information of "tile" is "400 tons";

the request receiving module is used for acquiring request information sent by the constructor terminal equipment, wherein the request information comprises project name information, material name information, required quantity information and material member information; the project name information filled in the request information by the constructor A is 'phoenix garden', the material name information is 'concrete', the required quantity information is '125 tons', and the material member information is 'material member A';

the judging module is used for receiving the project name information and the material name information, obtaining corresponding plan quantity information from a database according to a keyword matching algorithm, and generating first prompt information if the required quantity information is greater than the plan quantity information; otherwise, forwarding the request information to the material member terminal equipment according to the material member information in the request information; the keyword matching algorithm is the prior art and is not described herein again; screening the project schedule according to project name information 'phoenix garden' and material name 'concrete' sent by a constructor A, and judging that 125 tons are smaller than 250 tons; the request information is sent to the material member terminal when the quantity meets the requirement; in contrast, in other embodiments, assuming that the amount of "tiles" required for constructor B to send is "500 tons", a first prompt is generated that "the amount required is greater than the planned amount, and cannot initiate a request for use! ";

the processing module is used for acquiring approval opinions sent by the material member terminal equipment, and the approval opinions comprise agreement and disagreement; if the approval opinions are consenting, a statistical model is established, and the planned quantity information and the required quantity information are input into the statistical model; in the embodiment, the statistical model is a sector graph, plan quantity information and required quantity information are input into the statistical model, the principle is similar to that the existing Excel reflects the proportion of the required quantity to the total quantity through the sector graph, and materials required by a constructor A are concrete, which indicates that the project is a preliminary construction stage at present;

the output module is used for sending the generated statistical model to the background terminal; and background personnel can know the progress of construction conveniently.

In this embodiment, the mobile phone further includes a supplier terminal device, which is a P40 mobile phone; the processing module is also used for detecting the approval opinions, extracting the project name information, the material name information and the required quantity information in the request information if the approval opinions are approved, generating an order list and sending the order list to the supplier terminal equipment; the processing module is also used for acquiring processing result information sent by the supplier terminal equipment, and the processing result information comprises the received orders and the non-received orders; if the processing result information is detected to be the received order, generating a two-dimensional code according to the order list; the output module is also used for sending the two-dimensional code to the supplier terminal equipment; similarly, taking the supplier a as an example, since the approval result information of the material worker a is the agreement, the purchase order is generated according to the request information sent by the constructor a, and is forwarded to the mobile phone end of the supplier a for viewing; in addition, after the confirmation information sent by the provider a, corresponding two-dimensional code information may be generated, and the two-dimensional code generation technology is the prior art and is not described herein again. This scheme of adoption can be convenient for directly read corresponding goods and materials information according to the two-dimensional code through scanning the two-dimensional code when follow-up warehouse entry.

The system is based on the method and specifically comprises the following steps:

s1, acquiring request information sent by the constructor terminal equipment, wherein the request information comprises project name information, material name information, required quantity information, creation time information and material member information;

s2, receiving project name information and material name information, obtaining corresponding plan quantity information from a database according to a keyword matching algorithm, and generating first prompt information if the required quantity information is larger than the plan quantity information; otherwise, forwarding the request information to the material member terminal equipment according to the material member information in the request information;

s3, obtaining approval opinions sent by the material member terminal equipment, wherein the approval opinions comprise agreement and disagreement; if the approval opinions are consenting, a statistical model is established, and the planned quantity information and the required quantity information are input into the statistical model;

s31, detecting the examination and approval opinions, if the examination and approval opinions are approved, extracting the project name information, the material name information and the required quantity information in the request information, generating an order list, and sending the order list to the supplier terminal equipment;

and S4, sending the generated statistical model to a background terminal.

Example two

Compared with the first embodiment, the first embodiment is different only in that the first embodiment further comprises an input module, wherein the input module is used for acquiring the weight information of the materials detected when the suppliers deliver the materials and generating the reference weight information; the input module is also used for acquiring weight information of the materials detected when the materials are put into the warehouse and generating current weight information; the judging module is also used for receiving and judging the reference weight information and the current weight information, and if the current weight information is equal to the reference weight information, the second prompt information is generated through warehouse entry verification; otherwise, generating alarm information and sending the alarm information to the terminal equipment of the materials worker; the weight information obtained by the measurement supplier A during delivery is 125 tons, which meets the requirement of the required quantity, but the weight information measured during warehousing is also 125 tons, and a second prompt message is generated, namely that the warehousing weight of the goods and materials meets the requirement and the verification passes! On the contrary, if the measured weight information is 120 tons during warehousing, it indicates that the goods and materials are left out before warehousing or during transportation, and generates an alarm message, namely that the warehousing weight of the goods and materials does not meet the requirement, and the verification fails! And the material personnel can know the abnormal conditions in time.

In another embodiment, the system further comprises a sensing device and a detection module, wherein: the sensing equipment adopts an infrared sensor, mainly comprises an infrared transmitting end and an infrared receiving end, and is used for collecting the weighing state information of the transport vehicle when the materials are put in storage; the basic principle of adopting the infrared sensor to reflect the weighing state information is as follows: if the tire can shelter from the light that the transmitting terminal jetted out when the vehicle crossed the pound, make the receiving terminal can't accept light again, judge this moment tire promptly on the pound scale, in order to guarantee that the testing result accuracy can set up a plurality of infrared sensor among the actual conditions. The detection module is used for receiving and judging the weighing state information, and if the tires of the transport vehicle are completely on the scale, the weighing verification is judged to be successful; otherwise, a third message is generated indicating that the vehicle tires are not completely on the scale, this message being verified! "; the output module is also used for sending the third prompt message to the terminal equipment of the material staff;

in other embodiments, the output module is further configured to send the second prompt message to the constructor terminal device; the request receiving module is also used for receiving a reception application initiated by the constructor terminal equipment after sending the second prompt message; the judging module is also used for judging the quantity information in the requisition application according to the request information, and if the quantity information of the materials in the requisition application is greater than the quantity information required in the request application, fourth prompt information is generated; otherwise, the application is sent to the terminal equipment of the material staff. Assuming that the quantity information of the concrete in the receiving application initiated by the constructor A is 130 tons, and the value 130 is larger than 125, a fourth prompt message of 'receiving quantity is larger than the required quantity' is sent to the constructor terminal equipment, and the receiving application cannot be initiated! ".

EXAMPLE III

Compared with the first embodiment, in the present embodiment, the input module is further configured to obtain a first material live-action image and shooting coordinate information sent by the constructor equipment terminal;

the processing module is also used for establishing a three-dimensional model in advance and updating the three-dimensional model according to the shooting coordinate information and the first material real scene image;

the output module is also used for sending the updated three-dimensional model to a material member equipment terminal;

the input module is also used for marking a view finding coordinate point in the three-dimensional model after receiving a photographing verification instruction initiated by a material worker, and generating reference position information;

the judging module is also used for receiving a second material live-action image sent by the material member equipment terminal and acquiring the framing position information of the material member; calculating a difference value between the reference position information and the framing position information, and if the difference value is smaller than a first preset threshold value (1 m), passing framing check;

the processing module is further used for inputting the first material real image and the second material real image into the three-dimensional model to generate a first sub-model and a second sub-model, and if the first sub-model is larger than the second sub-model, the material application verification is passed.

In general, in the management of construction work materials, the situation that the material budget is not enough to complete a project is easy to occur. However, the difference of the materials is checked manually, and is difficult to calculate and check. By using the system, when the materials on the project are insufficient, a constructor generally needs to initiate a demand application, inputs the image of the current materials in a photographing mode into a three-dimensional model to generate a first sub-model, and records a photographing coordinate point; it also requires the materials staff to go to the site for verification. Specifically, the material staff also needs to shoot the live-action image of the material, in order to prevent the material staff from directly adopting the picture of the constructor, the system also adopts a 3D model to generate a shooting point for the material staff to use, and when the material staff shoots, the material staff sends coordinate information and compares the coordinate information with the position information of the shooting point; the shot image can be passed through the verification under the condition that the preset threshold value is met, and the shot image is sent to a processing module; the processing module judges according to the generated first sub-model and the second sub-model, and authenticity of application of materials of a constructor can be effectively improved.

The invention also provides a material management method for the building engineering, which uses the material management system for the building engineering.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. A material management system for building engineering, including constructor terminal equipment, material person terminal equipment, backstage terminal and server, its characterized in that, the server includes database, request receiving module, judgement module, processing module and output module, wherein:

the system comprises a database, a project planning table and a project planning table, wherein the project planning table is used for storing the project planning table in advance and comprises project name information, material name information and planning quantity information;

the system comprises a request receiving module, a data processing module and a data processing module, wherein the request receiving module is used for acquiring request information sent by constructor terminal equipment, and the request information comprises project name information, material name information, required quantity information and material member information;

the judging module is used for receiving the project name information and the material name information, obtaining corresponding plan quantity information from the database according to a keyword matching algorithm, and if the required quantity information is larger than the plan quantity information, generating first prompt information and sending the first prompt information to the constructor terminal equipment; otherwise, forwarding the request information to the material member terminal equipment according to the material member information in the request information;

the processing module is used for acquiring approval opinions sent by the material member terminal equipment, wherein the approval opinions comprise agreement and disagreement; if the approval opinions are consenting, a statistical model is established, and the planned quantity information and the required quantity information are input into the statistical model;

and the output module is used for sending the generated statistical model to the background terminal.

2. A material management system for construction engineering according to claim 1, characterized in that: the processing module is further used for detecting the examination and approval opinions, extracting the project name information, the material name information and the required quantity information in the request information if the examination and approval opinions are approved, generating an order list and sending the order list to the supplier terminal equipment.

3. A material management system for construction engineering according to claim 2, characterized in that: the processing module is further configured to acquire processing result information sent by the provider terminal device, where the processing result information includes a received order and an unaccessed order; if the processing result information is detected to be the received order, generating a two-dimensional code according to the order list; and the output module is also used for sending the two-dimensional code to the supplier terminal equipment.

4. The material management system for construction engineering according to claim 3, further comprising an input module for acquiring weight information of the material detected when the supplier delivers the material, and generating reference weight information; the input module is also used for acquiring weight information of the materials detected when the materials are put into the warehouse and generating current weight information; the judging module is also used for receiving and judging the reference weight information and the current weight information, and if the current weight information is equal to the reference weight information, the second prompt information is generated through warehouse entry verification; otherwise, generating alarm information and sending the alarm information to the terminal equipment of the materials staff.

5. The material management system for construction engineering according to claim 4, wherein: still include sensing equipment and detection module, wherein: the sensing equipment is used for collecting the weighing state information of the transport vehicle when the materials are put in storage; the detection module is used for receiving and judging the weighing state information, and if the tires of the transport vehicle are completely on the scale, the weighing verification is judged to be successful; otherwise, generating a third prompt message; and the output module is also used for sending the third prompt message to the terminal equipment of the material staff.

6. The material management system for construction engineering according to claim 5, wherein: the sensing equipment adopts an infrared sensor.

7. The material management system for construction engineering according to claim 4, wherein: and the output module is also used for sending the second prompt information to the constructor terminal equipment.

8. A materials management system for construction engineering according to claim 7, wherein: the request receiving module is also used for receiving a reception application initiated by the constructor terminal equipment after sending the second prompt message; the judging module is also used for judging the quantity information in the requisition application according to the request information, and if the quantity information of the materials in the requisition application is greater than the quantity information required in the request application, fourth prompt information is generated; otherwise, the application is sent to the terminal equipment of the material staff.

9. A material management method for building engineering is characterized by comprising the following steps:

s1, acquiring request information sent by the constructor terminal equipment, wherein the request information comprises project name information, material name information, required quantity information and material member information;

s2, receiving project name information and material name information, obtaining corresponding plan quantity information from a database according to a keyword matching algorithm, and if the required quantity information is larger than the plan quantity information, generating first prompt information and sending the first prompt information to the constructor terminal equipment; otherwise, forwarding the request information to the material member terminal equipment according to the material member information in the request information;

s3, obtaining approval opinions sent by the terminal equipment of the materials staff, wherein the approval opinions comprise agreement and disagreement; if the approval opinions are consenting, a statistical model is established, and the planned quantity information and the required quantity information are input into the statistical model;

and S4, sending the generated statistical model to a background terminal.

10. The material management method for construction engineering according to claim 9, wherein: the step S3 is followed by the step of: and S31, detecting the examination and approval opinions, if the examination and approval opinions are approved, extracting the item name information, the material name information and the required quantity information in the request information, generating an order list, and sending the order list to the supplier terminal equipment.

Images