CN111832162A

CN111832162A - Three-dimensional visual factory management system

Info

Publication number: CN111832162A
Application number: CN202010609681.7A
Authority: CN
Inventors: 刘洋杰; 杨磊
Original assignee: Chongqing Sino French Water Co ltd
Current assignee: Chongqing Sino French Water Co ltd
Priority date: 2020-06-29
Filing date: 2020-06-29
Publication date: 2020-10-27

Abstract

The invention provides a three-dimensional visual factory management system, and relates to the field of equipment management. The three-dimensional visual factory management system comprises a construction unit, a refining unit, a data integration unit, a foreground development unit, a client production unit and a central service unit, wherein the central service unit comprises a classified storage module, an input module, a timing module, an early warning module and an automatic calling module, and the three-dimensional visual factory management system further comprises the following steps: s1, building a three-dimensional model by using a building unit according to the environment prototype of the plant area and the landform, the structure, the equipment reduction model and the actual material of the plant area. The invention integrates the camera monitoring, the equipment flow monitoring, the work order system and the spare part management of the factory, greatly reduces the operation difficulty, realizes the integrated management of independent programs and is convenient for managers to improve the efficiency management.

Description

Three-dimensional visual factory management system

Technical Field

The invention relates to the technical field of equipment management, in particular to a three-dimensional visual factory management system.

Background

With the continuous development and progress of the society, the number of factory enterprises is increasing along with the development, and generally, standardized management needs to be carried out on both equipment and behaviors in a factory to ensure the normal operation of the factory, and the management of the factory to the equipment is gradually developed into intellectualization along with the development of science and technology.

However, various management systems in the existing factory floor have single functions, are independent from each other and are tedious to operate, a set of system integration platform with complete functions is needed, systems which are supported by different programs, are incompatible with each other and are independent from each other are integrated, and a visual factory floor integral display system does not exist at present.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a three-dimensional visual factory area management system, which solves the problems that the prior art lacks of independent management systems for each other in a factory area, integrates each technology and data island into a unified system, and lacks of a set of unified system for perfecting production monitoring, security video monitoring, equipment management and warehouse management systems.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a three-dimensional visual plant management system comprises a construction unit, a refining unit, a data integration unit, a foreground development unit, a client production unit, a central service unit and a simulated water cut-off unit, wherein the central service unit comprises a classification storage module, an input module, a timing module, an early warning module and an automatic calling module.

A three-dimensional visualization factory floor management system further comprises the following steps:

s1, constructing a three-dimensional model by a construction unit according to an environment prototype of a plant area and by a plant area terrain, a structure, an equipment reduction model and an actual material;

s2, refining the established three-dimensional model through a refining unit, optimizing a scene and the model by utilizing the concept of next generation modeling in the refining process, and optimizing the scene by combining art shadows;

s3, after the three-dimensional model is refined, the data of each independent program is integrated into a central service unit in a centralized mode through a data integration unit;

s4, storing the data integrated to the central service unit in a classification storage module, then respectively carrying out countdown overhaul and maintenance edition on the integrated data information through an input module, and then respectively carrying out countdown on the input time through a timing module;

s5, after a certain data message reaches the time of maintenance or repair, the timing module triggers the early warning module to alarm, and the automatic calling module automatically calls out the corresponding data message in the classified storage module and displays the data message on the homepage of the central service unit;

s6, after finishing the arrangement, the overhaul or the maintenance, recording time again through the input module, and restarting countdown work;

s7, completing the recording of the valve and the GIS in the simulation water cut-off unit, and automatically separating a water cut-off area according to the valve to be shut down when valve maintenance or parallel management engineering occurs;

s8, completing foreground development by using the currently most efficient illusion 4 engine through a foreground development unit, compiling foreground interaction functions, compiling background programs and building a database;

and S9, after the program and the model are tested successfully by using the client production unit, generating a multi-platform client.

Preferably, the three-dimensional model constructed in S1 is subjected to 1:1 reduction according to the design drawing.

Preferably, the independent program for integrating the data into the central service unit in S2 includes a factory camera monitor, an equipment flow monitor, and a work order system, and the camera monitor, the equipment flow monitor, and the work order system are all electrically connected to the early warning module.

Preferably, the foreground interactive function writing in S4 adopts a C + + mode.

Preferably, the background writing in S4 is written in java language.

Preferably, the database built in S4 is built by using SQL.

(III) advantageous effects

The invention provides a three-dimensional visual factory management system. The method has the following beneficial effects:

1. the invention integrates the camera monitoring, the equipment flow monitoring, the work order system and the spare part management of the factory, greatly reduces the operation difficulty, realizes the integrated management of independent programs and is convenient for managers to improve the efficiency management.

2. The invention develops a set of fine equipment management system, refines the three-dimensional model of the equipment, accurately positions the equipment position and various data of the equipment, further realizes the visual management of the management system, and is favorable for increasing the use effect of the system.

3. Through the classified management mode of the independent data center server of data for the system seeks when using more easily, and combines the design of early warning module, more can confirm the position in place classification after the system goes wrong fast to and the performance of automatic calculation maintenance and repair time, and then can guarantee to carry out timely maintenance and maintenance to equipment.

Drawings

FIG. 1 is a block diagram of the overall structure of the present invention;

fig. 2 is a block diagram of the central service unit structure according to the present invention.

Wherein, 1, constructing a unit; 2. a thinning unit; 3. a data integration unit; 4. a foreground development unit; 5. a client generation unit; 6. a central service unit; 60. a classification storage module; 61. an input module; 62. a timing module; 63. an early warning module; 64. and an automatic calling 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.

Example (b):

as shown in fig. 1, an embodiment of the present invention provides a three-dimensional visual factory management system, which includes a construction unit 1, a refinement unit 2, a data integration unit 3, a foreground development unit 4, a client production unit 5, a central service unit 6, and a simulated water cut-off unit 7, where the central service unit 6 includes a classification storage module 60, an input module 61, a timing module 62, an early warning module 63, and an automatic retrieval module 64.

s1, constructing a three-dimensional model by a construction unit 1 according to an environment prototype of a plant area and by a plant area terrain, a structure, an equipment reduction model and an actual material;

s2, refining the established three-dimensional model through a refining unit 2, optimizing a scene and the model by utilizing a next generation modeling concept in a refining process, and optimizing the scene by combining art shadows;

s3, after the three-dimensional model is refined, the data of each independent program is integrated into a central service unit 6 in a centralized mode through a data integration unit 3;

s4, storing the data integrated into the central service unit 6 in a classification storage module 60, then respectively performing countdown overhaul and maintenance edition on the integrated data information through an input module 61, and then respectively performing countdown on the input time through a timing module 62;

s5, after a certain data message reaches the time of maintenance or repair, the timing module 62 triggers the early warning module 63 to alarm, and the automatic calling module 64 automatically calls out the corresponding data message in the classified storage module 60 and displays the data message on the homepage of the central service unit 6;

s6, after finishing the arrangement, the overhaul or the maintenance, recording time again through the input module 61, and restarting countdown work;

s7, completing the recording of the valve and the GIS in the simulated water cut-off unit 7, and automatically separating a water cut-off area according to the valve to be shut down when the valve maintenance or the parallel management engineering occurs, so that an error construction scheme can be effectively corrected or a larger water cut-off area can be avoided;

s8, completing foreground development by using the currently most efficient illusion 4 engine through a foreground development unit 4, compiling foreground interaction functions, compiling background programs and building a database;

and S9, after the program and the model are tested successfully by using the client production unit 5, generating a multi-platform client.

Wherein the three-dimensional model constructed in S1 is subjected to 1:1 reduction according to the design drawing.

The independent program for integrating the data into the central service unit 6 in S2 includes a factory camera monitor, an equipment flow monitor, and a work order system, wherein the camera monitor, the equipment flow monitor, and the work order system are all electrically connected to the early warning module 63.

The foreground interactive function writing in the S4 adopts a C + + mode, and C + + is an object-oriented language, so that the method can be efficiently invoked, resources consumed by hardware are saved, and hardware configuration is saved.

In S4, the background writing is performed by using java language, the java language has the advantages of high refresh rate for real-time data capture, small transmission packet and network resource saving.

The database built in the S4 is built by SQL to carry out data construction, authority distribution and hierarchical management can be carried out on access users, and each level carries out addition, deletion, check and modification on data corresponding to corresponding authority.

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 three-dimensional visual factory management system, includes that unit (1) is built, unit (2) refine, data integration unit (3), proscenium development unit (4), customer end production unit (5), central service unit (6), simulation unit (7) of cutting off water supply, its characterized in that: the central service unit (6) comprises a classification storage module (60), an input module (61), a timing module (62), an early warning module (63) and an automatic calling module (64).

2. A three-dimensional visual factory management system is characterized in that: further comprising the steps of:

s1, constructing a three-dimensional model by a construction unit (1) according to an environment prototype of a plant area and by a plant area terrain, a structure, an equipment reduction model and an actual material;

s2, refining the established three-dimensional model through a refining unit (2), optimizing a scene and the model by utilizing a next generation modeling concept in a refining process, and optimizing the scene by combining art shadows;

s3, after the three-dimensional model is refined, the data of each independent program is integrated into a central service unit (6) in a centralized mode through a data integration unit (3);

s4, storing the data integrated into the central service unit (6) in a classification storage module (60), then respectively performing countdown overhaul and maintenance edition on the integrated data information through an input module (61), and then respectively performing countdown on the input time through a timing module (62);

s5, after a certain data message reaches the time of maintenance or repair, the timing module (62) triggers the early warning module (63) to alarm, and the corresponding data message in the classified storage module (60) is automatically called out by the automatic calling module (64) and displayed on the homepage of the central service unit (6);

s6, after finishing the arrangement, the overhaul or the maintenance, recording time again through the input module (61), and restarting countdown work;

s7, completing the recording of the valve and the GIS in the simulated water cut-off unit (7), and automatically separating a water cut-off area according to the valve to be shut down when valve maintenance or parallel management engineering occurs;

s8, completing foreground development by using the currently most efficient illusion 4 engine through a foreground development unit (4), compiling foreground interaction functions, compiling background programs and building a database;

and S9, generating the multi-platform client after the program and the model are tested successfully by using the client production unit (5).

3. The three-dimensional visual factory floor management system of claim 2, wherein: and constructing a three-dimensional model in the S1 to perform 1:1 reduction according to a design drawing.

4. The three-dimensional visual factory floor management system of claim 2, wherein: independent programs for integrating data into the central service unit (6) in the S2 comprise factory camera monitoring, equipment flow monitoring and a work order system, and the camera monitoring, the equipment flow monitoring and the work order system are all electrically connected with the early warning module (63).

5. The three-dimensional visual factory floor management system of claim 2, wherein: and the foreground interactive function writing in the S4 adopts a C + + mode.

6. The three-dimensional visual factory floor management system of claim 2, wherein: in S4, the background writing is written in java language.

7. The three-dimensional visual factory floor management system of claim 2, wherein: and building a database in the S4, and building data by using SQL.