CN110910063A

CN110910063A - Method for collecting material information in road construction process

Info

Publication number: CN110910063A
Application number: CN201911126139.XA
Authority: CN
Inventors: 何小钟
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-11-18
Filing date: 2019-11-18
Publication date: 2020-03-24

Abstract

The invention discloses a method for acquiring material information in a road construction process, which solves the problems of loss of construction materials, shortage of construction materials and large inventory of part of construction materials, enables road construction to be carried out more smoothly and stably, and can protect a certain environment on a construction site and nearby. The system comprises an information acquisition module, an information statistics module, an information classification module, a database, a statistics module, an inventory statistics module, a residual material prompting module, a material shortage warning module, a proportion statistics module, a command center, a scheduling arrangement module, a warehousing statistics module, a warehousing quantity statistics module, a warehousing position statistics module, a warehousing type statistics module, a field monitoring module, an environment monitoring module, a personnel monitoring module, a noise monitoring module, an air monitoring module and a weather monitoring module. The information acquisition module is connected with a database, the database is connected with the statistics module, and the database is connected with the command center.

Description

Method for collecting material information in road construction process

Technical Field

The invention relates to the field of road construction, in particular to a method for acquiring material information in a road construction process.

Background

Road construction is a type of engineering with a relatively complex construction environment, and the amount of material used for road construction is large, for example, millions of tons of material are used in a small project department, and not to mention a large project which needs more than three hundred and ten thousand tons of material. In addition, suppliers of material may be as many as tens, hundreds, and vehicles transporting material are more likely to be hundreds, thousands. And because the road construction project is less in labor and the position of a stock ground is far away, continuous construction is carried out for 24 hours constantly in the construction process. That is, as many as hundreds of material transporting vehicles can continuously feed and discharge materials, and one material transporting vehicle can pass through the material transporting vehicle in 40 seconds. Therefore, the collection of material information in the continuous feeding and discharging process of vehicles for transporting materials for road construction at present does not have a mature mode which can be suitable for the road construction with the complex construction environment.

At present, a complete system does not exist in material information statistics in the road construction process, the system only depends on manual material feeding and discharging records, the problem that the materials are easily lost is the loss problem of the construction materials, the first possibility is that goods are unloaded less, so the site monitoring is needed during feeding, the situation is avoided, the situation is also possible that the personnel on the construction site get in and out and the personnel mobility is large, the situation that the direction of the construction materials is not known due to the loss of the construction materials can occur, the personnel flow on the construction site is also needed to be monitored, and the situation that the construction materials are lost is avoided. And the material condition of the stock is counted, so that the dispatching arrangement of personnel is facilitated, and the smooth construction is ensured.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a method for acquiring material information in the road construction process, which solves the problems of loss of construction materials, shortage of construction materials and large inventory of part of construction materials, and enables the road construction to be carried out more smoothly and stably.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a collection system of material information in road construction process, including information acquisition module, information statistics module, information classification module, database, statistics module, inventory statistics module, residual material suggestion module, scarce material warning module, proportion statistics module, command center, scheduling arrangement module, the statistics module of warehouse entry quantity, the statistics module of position of putting in storage, the statistics module of type of putting in storage, on-the-spot monitoring module, environment monitoring module, personnel monitoring module, noise monitoring module, air monitoring module, meteorological monitoring module, its characterized in that: the information collection module is connected with the information statistics module, the information statistics module is connected with the information classification module, and the information classification module is connected with the database.

Preferably, the database is connected with the statistical module, the statistical module is connected with the proportion statistical module, the statistical module is connected with the inventory statistical module, the inventory statistical module is connected with the residual material prompting module, the inventory statistical module is connected with the material shortage warning module, and the inventory statistical module is connected with the database.

Preferably, the database is connected with a command center, and the command center is connected with the scheduling module.

Preferably, the information acquisition module is connected with the warehousing statistical module, the warehousing statistical module is connected with the warehousing quantity statistical module, the warehousing statistical module is connected with the warehousing position statistical module, the warehousing statistical module is connected with the warehousing type statistical module, the information acquisition module is connected with the field monitoring module, the field monitoring module is connected with the environment monitoring module, and the field monitoring module is connected with the personnel monitoring module.

Preferably, the environment monitoring module comprises a noise monitoring module, an air monitoring module and a meteorological monitoring module, the noise monitoring module is connected with the air monitoring module, and the air monitoring module is connected with the meteorological monitoring module.

A method for collecting material information in a road construction process comprises the following specific steps:

the method comprises the following steps: when the material information needs to be collected in the road construction process, the information collecting module is used for determining the material information needing to be collected, the material information needing to be collected is transmitted to the warehousing statistical module through the information collecting module, after the warehousing statistical module receives the material information needing to be collected, the material information to be collected is transmitted to a warehousing quantity counting module, the warehousing quantity counting module counts the warehousing quantity of the material information after receiving the information transmitted by the warehousing counting module, meanwhile, the warehousing statistical module transmits the material information to be collected to the warehousing type statistical module for the warehousing type statistics of the material information, and after the warehousing statistical module receives the material information to be collected, and transmitting the material information to be collected to a warehousing position counting module, and counting the warehousing position of the material information by the warehousing position counting module.

Step two: the information acquisition module transmits the material information to be acquired to the on-site monitoring module after determining the material information to be acquired, the on-site monitoring module transmits the information to the personnel monitoring module after determining the material information to be acquired, the personnel monitoring module monitors the entering and exiting of construction site personnel and the flowing of the personnel after receiving the transmitted information to ensure that the construction materials are not damaged, meanwhile, the on-site monitoring module also transmits the material information to be acquired to the environment monitoring module, the environment monitoring module respectively transmits the received information to the noise monitoring module, the air monitoring module and the meteorological monitoring module after receiving the information, the noise monitoring module executes the received information to further carry out the noise level condition of the construction site and the nearby environment to ensure that the noise pollution to the surrounding environment is not generated, and the air monitoring module carries out related operation after receiving the information, the air environment monitoring is carried out on the construction site and the surrounding environment, and comprises temperature monitoring, humidity monitoring, air pressure monitoring and air quality monitoring, so that the temperature, humidity, air pressure and air conditions of the construction environment can not influence the materials required by construction on the construction site, the construction process and construction quality of the construction site can not be adversely influenced, and the air of the construction site and the surrounding environment can be protected.

Step three: the information collecting module transmits all information to the information counting module after receiving the required material information collected by the warehousing statistical module and the field environment monitoring, the information counting module performs centralized statistics on all collected information after receiving the information from the information collecting module, the information counting module transmits all the counted information to the information classifying module, the information classifying module classifies all the counted information of the information counting module one by one, and the information classifying module transmits all the classified information to the database for storage.

Step four: the database receives the information from the information classification module, the stored information is transmitted to the statistical module, the statistical module receives the information from the database and then transmits the information to the proportion statistical module, the proportion statistical module makes proportion statistics on the use of the construction materials and the inventory of the construction materials after receiving the information from the statistical module, the use and inventory conditions of the construction materials can be expressed more intuitively, the statistical module also transmits the received information to the inventory statistical module after receiving the information from the database, the inventory statistical module transmits the received information to the residual material prompting module after receiving the information from the statistical module, the residual material prompting module counts the construction materials with more inventory after receiving the information from the inventory statistical module, and simultaneously the inventory statistical module also transmits the information from the statistical module to the material shortage warning module, the material shortage warning module is used for counting the construction materials in short supply after receiving the information from the inventory counting module, and after the residual material prompting module and the material shortage warning module count the required information, the inventory counting module is used for prompting the construction materials with more residual inventory, warning the construction materials in short supply and transmitting the construction materials to the database.

Step five: the database transmits information to the command center after receiving the prompt and warning information from the inventory counting module, the command center transmits the information to the scheduling and arranging module after receiving the information from the database, and the scheduling and arranging module schedules and arranges the condition of the residual inventory construction material information after receiving the information from the command center, so that the construction can be carried out orderly.

Advantageous effects

The invention provides a method for acquiring information in a road construction process. The method has the following beneficial effects: the method for collecting the information in the road construction process comprises the steps of counting material warehousing in the road construction process through an information collection module, monitoring the site through a site monitoring module, ensuring that the material is not lost, counting and classifying the information through an information counting and information classifying module, transmitting the information to a database for storage, transmitting the information to a counting module through the database, counting the material proportion and counting the stock materials, more intuitively knowing the using condition of the construction material and the condition of the stock materials, prompting and warning the stock materials, transmitting the information to the database, transmitting the information to a command center through the database for arrangement and scheduling, and enabling construction to be carried out more orderly and scientifically.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention.

FIG. 2 is a system diagram of the environmental monitoring module of the present invention.

In the figure: 1. an information acquisition module; 2. an information statistics module; 3. an information classification module; 4. a database; 5. a statistical module; 6. an inventory statistics module; 7. a residual material prompting module; 8. a starved material warning module; 9. a proportion statistic module; 10. a command center; 11. a scheduling module; 12. a warehousing statistic module; 13. a warehousing quantity counting module; 14. a warehousing position statistic module; 15. a warehousing type statistic module; 16. a field monitoring module; 17. an environment monitoring module; 18. a personnel monitoring module; 171. a noise monitoring module; 172. an air monitoring module; 173. and a meteorological monitoring module.

Detailed Description

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

Referring to fig. 1 and fig. 2, the present invention provides a technical solution: a system for acquiring material information in a road construction process comprises a method for acquiring the material information in the construction process, and the method comprises the following specific steps: the system comprises an information acquisition module 1, an information statistics module 2, an information classification module 3, a database 4, a statistics module 5, an inventory statistics module 6, a residual material prompting module 7, a material shortage warning module 8, a proportion statistics module 9, a command center 10, a scheduling arrangement module 11, a warehousing statistics module 12, a warehousing quantity statistics module 13, a warehousing position statistics module 14, a warehousing type statistics module 15, a field monitoring module 16, an environment monitoring module 17, a personnel monitoring module 18, a noise monitoring module 171, an air monitoring module 172 and a weather monitoring module 173. The information collection module 1 is connected with the information statistics module 2 and used for collecting and counting construction material information, the information statistics module 2 is connected with the information classification module 3 and used for classifying the counted information, and the information classification module 3 is connected with the database 4 and used for storing the classified data into the database 4.

Database 4 and statistics module 5 are connected, statistics module 5 and proportion statistics module 9 are connected, the proportion statistics of the material that has used is carried out, statistics module 5 and inventory statistics module 6 are connected, inventory statistics module 6 and residual material prompt module 7 are connected, make statistics of and indicate the more construction material that remains, inventory statistics module 6 and scarce material warning module 8 are connected, make statistics of and warn the construction material that the inventory is scarce, inventory statistics module 6 and database 4 are connected, save in transmitting information to database 4 again.

The database 4 is connected with a command center 10, the command center 10 is connected with a scheduling module 11, and the command center 10 indicates the remaining condition of the material and schedules the use problem of the material.

The information acquisition module 1 is connected with the warehousing statistical module 12, the warehousing statistical module 12 is connected with the warehousing quantity statistical module 13 for counting the quantity of warehousing materials, the warehousing statistical module 12 is connected with the warehousing position statistical module 14 for counting the storage positions of the materials, the warehousing statistical module 12 is connected with the warehousing type statistical module 15 for counting the types of the warehousing materials, the information acquisition module 1 is connected with the field monitoring module 16, the field monitoring module 16 is connected with the environment monitoring module 17 for monitoring the noise, air and weather of a construction field and the surrounding environment to ensure the smooth construction, and the field monitoring module 16 is connected with the personnel monitoring module 18 for monitoring the coming in and going out and flowing of the personnel of the construction field to ensure the safety of the construction materials.

the method comprises the following steps: when the material information needs to be collected in the road construction process, the information collection module 1 is used for determining the material information needing to be collected, the material information needing to be collected is transmitted to the warehousing statistical module 12 through the information collection module 1, after the warehousing statistical module 12 receives the material information needing to be collected, the material information to be collected is transmitted to the warehousing quantity counting module 13, the warehousing quantity counting module 13 counts the warehousing quantity of the material information after receiving the information transmitted by the warehousing counting module 12, meanwhile, the warehousing statistic module 12 transmits the material information to be collected to the warehousing type statistic module 15 for the warehousing type statistic of the material information, and after the warehousing statistic module 12 receives the material information to be collected, the material information to be collected is transmitted to the warehousing position counting module 14, and the warehousing position counting module 14 counts a position where the material information is warehoused.

Step two: after the information acquisition module 1 determines the material information to be acquired, the material information to be acquired is transmitted to the on-site monitoring module 16, after the on-site monitoring module 16 determines the material information to be acquired, the information is transmitted to the personnel monitoring module 18, the personnel monitoring module 18 monitors the entering and exiting of construction site personnel and the personnel flowing after receiving the transmitted information to ensure that the construction materials are not damaged, meanwhile, the on-site monitoring module 16 also transmits the material information to be acquired to the environment monitoring module 17, the environment monitoring module 17 respectively transmits the received information to the noise monitoring module 171, the air monitoring module 172 and the weather monitoring module 173 after receiving the information, the noise monitoring module 171 executes the received information to further carry out the noise level condition of the construction site and the nearby environment to ensure that the surrounding environment is not polluted by noise, and the air monitoring module 172 receives the information, the method comprises the following steps of carrying out related operations, carrying out air environment monitoring on a construction site and the surrounding environment, wherein the air environment monitoring comprises temperature monitoring, humidity monitoring, air pressure monitoring and air quality monitoring, so that the temperature, humidity, air pressure and air conditions of the construction environment can not influence materials required by construction on the construction site, further the construction process and construction quality of the construction site can not be influenced badly, and the air of the construction site and the surrounding environment can be protected.

Step three: after receiving the required material information collected by the warehousing statistical module 12 and the field monitoring module 16, the information collection module 1 transmits all the information to the information statistical module 2, after the information statistical module 2 receives the information from the information collection module 1, the information statistical module 2 performs a centralized statistics on all the collected information, the information statistical module 2 transmits all the counted information to the information classification module 3, the information classification module 3 classifies all the counted information of the information statistical module 2 one by one, and the information classification module 3 transmits all the classified information to the database 4 for storage.

Step four: after receiving the information from the information classification module 3, the database 4 transmits the stored information to the statistical module 5, the statistical module 5 receives the information from the database 4 and then transmits the information to the proportion statistical module 9, the proportion statistical module 9 makes proportion statistics on the use of the construction materials and the inventory of the construction materials after receiving the information from the statistical module 5, the use and inventory conditions of the construction materials can be expressed more intuitively, the statistical module 5 also transmits the received information to the inventory statistical module 6 after receiving the information from the database 4, the inventory statistical module 6 transmits the received information to the residual material prompting module 7 after receiving the information from the statistical module 5, the residual material prompting module 7 performs statistics on the construction materials with more inventory residues after receiving the information from the inventory statistical module 6, and the inventory statistical module 6 also transmits the information from the statistical module 5 to the material shortage warning module 8, the short-stock warning module 8 counts the construction materials which are in short stock after receiving the information from the stock counting module 6, and after the residual material prompting module 7 and the short-stock warning module 8 count the required information, the stock counting module 6 prompts the construction materials which are in more stock to be left, warns the construction materials which are in short stock and transmits the construction materials to the database 4.

Step five: after receiving the prompt and warning information from the inventory counting module 6, the database 4 transmits the information to the command center 10, after receiving the information from the database 4, the command center 10 transmits the information to the scheduling module 11, and after receiving the information from the command center 10, the scheduling module 11 schedules the condition of the residual inventory construction material information, thereby ensuring that construction can be carried out orderly.

The invention has the beneficial effects that: the invention provides a method for collecting information in the road construction process, which is characterized in that a material warehouse in the road construction process is counted through an information collecting module 1, a site is monitored through a site monitoring module 16, the loss of the material is avoided, the information is counted and classified through an information counting module 2 and an information classifying module 3, the information is transmitted to a database 4 for storage, the information is transmitted to a counting module 5 through the database 4 for counting the material proportion and counting the stock materials, the using condition of the construction material and the condition of the stock materials can be known more intuitively, the stock materials are prompted and warned, and then the information is transmitted to the database 4, and the information is transmitted to a command center 10 through the database 4 for arrangement and scheduling, so that the construction can be performed more orderly and scientifically.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a collection system of material information in road construction process, including information acquisition module (1), information statistics module (2), information classification module (3), database (4), statistics module (5), stock statistics module (6), residual prompting module (7), scarce material warning module (8), proportion statistics module (9), command center (10), scheduling arrangement module (11), warehouse entry statistics module (12), warehouse entry quantity statistics module (13), warehouse entry position statistics module (14), warehouse entry kind statistics module (15), on-the-spot monitoring module (16), environmental monitoring module (17), personnel monitoring module (18), noise monitoring module (171), air monitoring module (172), meteorological monitoring module (173), its characterized in that: the information collection module (1) is connected with the information statistics module (2), the information statistics module (2) is connected with the information classification module (3), and the information classification module (3) is connected with the database (4).

2. The system for collecting material information in the road construction process according to claim 1, wherein: the system is characterized in that the database (4) is connected with the statistical module (5), the statistical module (5) is connected with the proportion statistical module (9), the statistical module (5) is connected with the inventory statistical module (6), the inventory statistical module (6) is connected with the residual material prompting module (7), the inventory statistical module (6) is connected with the material shortage warning module (8), and the inventory statistical module (6) is connected with the database (4).

3. The system for collecting material information in the road construction process according to claim 1, wherein: the database (4) is connected with a command center (10), and the command center (10) is connected with a scheduling module (11).

4. The system for collecting material information in the road construction process according to claim 1, wherein: the system comprises an information acquisition module (1), a warehousing statistical module (12), a warehousing quantity statistical module (13), a warehousing position statistical module (14), a warehousing type statistical module (15), an information acquisition module (1), a field monitoring module (16), an environment monitoring module (17) and a field monitoring module (16), wherein the information acquisition module (1) is connected with the warehousing statistical module (12), the warehousing statistical module (12) is connected with the warehousing quantity statistical module (13), the warehousing statistical module (12) is connected with the warehousing position statistical module (14), the warehousing statistical module (12) is connected with the warehousing type statistical module (15), and the field monitoring module (16) is connected with the personnel monitoring module (18).

5. The system for collecting information during road construction according to claim 1, wherein: the environment monitoring module (17) comprises a noise monitoring module (171), an air monitoring module (172) and a meteorological monitoring module (173), the noise monitoring module (171) is connected with the air monitoring module (172), and the air monitoring module (172) is connected with the meteorological monitoring module (173).

6. A method for collecting material information in a road construction process is characterized by comprising the following steps: the method comprises the following specific steps:

the method comprises the following steps: when material information needs to be collected in the road construction process, the information collection module (1) is used for determining the material information needing to be collected, the material information needing to be collected is transmitted to the warehousing statistical module (12) through the information collection module (1), the warehousing statistical module (12) transmits the material information needing to be collected to the warehousing quantity statistical module (13) after receiving the material information needing to be collected, the warehousing quantity statistical module (13) performs warehousing quantity statistics of the material information after receiving the information transmitted by the warehousing statistical module (12), the warehousing statistical module (12) transmits the material information needing to be collected to the warehousing type statistical module (15) for performing warehousing type statistics of the material information, the warehousing statistical module (12) transmits the material information needing to be collected to the warehousing position statistical module (14) after receiving the material information needing to be collected, the warehousing position counting module (14) counts a position for warehousing the material information;

step two: the information acquisition module (1) determines the material information to be acquired, the material information to be acquired is transmitted to the on-site monitoring module (16), the on-site monitoring module (16) determines the material information to be acquired, the information is transmitted to the personnel monitoring module (18), the personnel monitoring module (18) receives the transmitted information and monitors the personnel entering and exiting and the personnel flowing of the construction site to ensure that the construction material is not damaged, meanwhile, the on-site monitoring module (16) also transmits the material information to be acquired to the environment monitoring module (17), the environment monitoring module (17) receives the information and then respectively transmits the received information to the noise monitoring module (171), the air monitoring module (172) and the weather monitoring module (173), the noise monitoring module (171) executes the received information to further monitor the noise of the construction site and the nearby environment to ensure that the noise pollution is not generated to the surrounding environment, after receiving the information, the air monitoring module (172) performs related operations to monitor the air environment of the construction site and the surrounding environment, including temperature monitoring, humidity monitoring, air pressure monitoring and air quality monitoring, so as to ensure that the temperature, humidity, air pressure and air conditions of the construction environment do not influence the materials required by construction of the construction site, further ensure that the construction process and the construction quality of the construction site do not generate adverse effects, and protect the air of the construction site and the surrounding environment;

step three: the information collecting module (1) transmits all information to the information counting module (2) after receiving the required material information collected by the warehousing statistical module (12) and the field environment monitoring module (16), the information counting module (2) receives the information from the information collecting module (1) and then carries out centralized statistics on all the collected information, the information counting module (2) transmits all the counted information to the information classifying module (3), the information classifying module (3) classifies all the counted information of the information counting module (2) one by one,

the information classification module (3) transmits all classified information to the database (4) for storage;

step four: after receiving the information from the information classification module (3), the database (4) transmits the stored information to the statistical module (5), the statistical module (5) receives the information from the database (4) and then transmits the information to the proportion statistical module (9), the proportion statistical module (9) makes proportion statistics on the use of the construction materials and the inventory of the construction materials after receiving the information from the statistical module (5), the use and inventory conditions of the construction materials can be expressed more intuitively, the statistical module (5) transmits the received information to the inventory statistical module (6) after receiving the information from the database (4), the inventory statistical module (6) transmits the received information to the residual material prompt module (7) after receiving the information from the statistical module (5), the residual material prompt module (7) receives the information from the inventory statistical module (6), the construction materials with more surplus inventory are counted, meanwhile, the inventory counting module (6) can transmit information from the counting module (5) to the material shortage warning module (8), the material shortage warning module (8) counts the construction materials with short inventory after receiving the information from the inventory counting module (6), and after the surplus material prompting module (7) and the material shortage warning module (8) count required information, the inventory counting module (6) prompts the construction materials with more surplus inventory and warns the construction materials with short inventory and transmits the construction materials with short inventory to the database (4);

step five: the database (4) transmits information to the command center (10) after receiving the prompt and warning information from the inventory counting module (6), the command center (10) transmits the information to the scheduling and arranging module (11) after receiving the information from the database (4), and the scheduling and arranging module (11) schedules the condition of the residual inventory construction material information after receiving the information from the command center (10), so that the construction can be orderly carried out.