CN211628274U - Project management system based on Internet of things - Google Patents

Abstract

The utility model discloses a project management system based on the Internet of things, which comprises a project center computer and a plurality of project implementation computers, wherein the project center computer and the project implementation computers are connected and communicated with each other through the Internet network, a construction progress loading module, a staff daily attendance loading module, a material use condition loading module, a safety report loading module, a storage module, a three-dimensional image inspection component and a project construction electronic map component are generated in the program of the project center computer, the construction progress loading module, the staff daily attendance loading module, the material use condition loading module and the safety report loading module are all connected with the storage module through electric signals, the utility model can satisfy the requirement of an inspection department to inspect a plurality of construction sites simultaneously, and improve the capacities of schedule management capacity, resource distribution balance capacity, project comprehensive decision making and the like of a plurality of construction sites, therefore, the enterprise management efficiency is greatly improved, and the core competitiveness of enterprise management is improved.

Description

Project management system based on Internet of things

Technical Field

The utility model relates to a thing networking management technology field, specific field is a project management system based on thing networking.

Background

With the rapid development of economy in China, construction projects are increased day by day, and the projects are many hundreds of millions or even billions. Meanwhile, the requirements on the engineering quality are further improved, the engineering complexity is increased, multiple kinds of multi-professional insertion construction is carried out, the engineering area is increased, the original various engineering management systems are respectively administrative, and an engineering examination department needs to examine each construction site in the examination process, so that the system is very inconvenient and cannot meet the management requirements of the existing engineering.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a project management system based on thing networking to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a project management system based on the Internet of things comprises a project center computer and a plurality of project implementation computers, wherein the project center computer and the project implementation computers are connected and communicated with each other through an Internet network, a construction progress loading module, a staff daily attendance loading module, a material use condition loading module, a safety report loading module, a storage module, a three-dimensional image observation assembly and a project construction electronic map assembly are generated in a program of the project center computer, the construction progress loading module, the staff daily attendance loading module, the material use condition loading module and the safety report loading module are all connected with the storage module through electric signals, an editing module and a three-dimensional image generation assembly are electrically installed inside the project implementation computer, the editing module is used for inputting text information and loading the text information into the construction progress loading module, and the editing module is used for displaying the text information and the text information, The system comprises an employee daily attendance loading module, a material use condition loading module and a safety report loading module, wherein the employee daily attendance loading module, the material use condition loading module and the safety report loading module are loaded into a storage module for backup, a project implementation computer is connected with a positioning recognition sensor, an image collector and a fire detector through cables, the positioning recognition sensor is used for positioning a construction point and loading the construction point onto a project construction electronic map component, an image collected by the image collector is generated by a three-dimensional image generation component and then loaded onto a three-dimensional image observation component, a project center computer and the project implementation computer are both connected with a voice communicator and an alarm through cables, and a fire alarm signal detected by the fire detector is loaded into the alarm.

Preferably, the three-dimensional image viewing component is UG software.

Preferably, the three-dimensional image generation component is Photoscan modeling software.

Preferably, the image collector is a camera.

Preferably, the fire detector is a thermal infrared probe.

Preferably, the voice communicator is a microphone.

Compared with the prior art, the beneficial effects of the utility model are that: a project management system based on the Internet of things is characterized in that a lean management system covering the whole construction site is established through the Internet of things, a plurality of project implementation computers are respectively placed on a plurality of construction points of a construction site, each construction point is monitored, various information of each construction point is input into a project center computer, the project center computer is arranged in an engineering examination department, constructors can edit construction progress, attendance conditions, material use conditions and safety reports in a text mode through an editing module and then respectively load the edited construction progress loading module, employee daily attendance loading module, material use condition loading module and safety report loading module, the edited modules are displayed on a screen of the project center computer for examination and check of the examiners and are stored in a storage module for backup, for looking over the use in the future, can detect the position of this construction point and show at project construction electronic map subassembly through location discernment sensor to conveniently confirm which one is the construction point of examining and verifying at every turn, through the cooperation setting of image collector and three-dimensional image formation subassembly, can generate the three-dimensional picture with every construction point and then see through the tribit image and see that the software shows, supply the reviewer to examine, the utility model discloses can satisfy and examine a plurality of construction sites simultaneously by examining the department, improve a plurality of construction sites progress plan manageability, resource distribution balancing ability and project and synthesize ability such as decision-making, thereby improve enterprise management efficiency greatly, improve enterprise management's core competitiveness.

Drawings

FIG. 1 is a flow chart of a project center computer and a project implementation computer of the present invention;

FIG. 2 is a block diagram of a project center computer of the present invention;

FIG. 3 is a block diagram of a computer embodying the present invention;

FIG. 4 is a diagram of a computer implemented project of the present invention;

fig. 5 is a connection diagram of the project center computer and the project implementation computer of the present invention.

In the figure: the system comprises a project center computer, a 101-construction progress loading module, a 102-staff daily attendance loading module, a 103-material use condition loading module, a 104-safety report loading module, a 105-storage module, a 106-three-dimensional image viewing component, a 107-project construction electronic map component, a 2-project implementation computer, a 201-editing module, a 202-three-dimensional image generating component, a 3-positioning recognition sensor, a 4-image collector, a 5-fire detector, a 6-voice communicator and a 7-alarm.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a project management system based on the Internet of things comprises a project center computer 1 and a plurality of project implementation computers 2, wherein in figure 1, the project center computer 1 and the project implementation computers 2 are connected and communicated with each other through the Internet network, in figure 2, a construction progress loading module 101, a staff daily attendance loading module 102, a material use condition loading module 103, a safety report loading module 104, a storage module 105, a three-dimensional image viewing component 106 and a project construction electronic map component 107 are generated in a program of the project center computer 1, the construction progress loading module 101, the staff daily attendance loading module 102, the material use condition loading module 103 and the safety report loading module 104 are all connected with the storage module 105 through electric signals, in figure 3, an editing module 201 and a three-dimensional image generating component 202 are electrically installed in the project implementation computer 2, the editing module 201 is used for inputting text information and loading the text information into the construction progress loading module 101, The system comprises a staff daily attendance loading module 102, a material use condition loading module 103 and a safety report loading module 104 which are simultaneously loaded into a storage module 105 for backup, wherein in fig. 4, a project implementation computer 2 is connected with a positioning identification sensor 3, an image collector 4 and a fire detector 5 through cables, the positioning identification sensor 3 is used for positioning and loading construction points onto a project construction electronic map component 107, images collected by the image collector 4 are generated by a three-dimensional image generating component 202 and then loaded onto a three-dimensional image observing component 106, in fig. 5, a project center computer 1 and the project implementation computer 2 are both connected with a voice communicator 6 and an alarm 7 through cables, and fire alarm signals detected by the fire detector 5 are loaded into the alarm 7.

In particular, the three-dimensional image viewing component 106 is UG software.

Specifically, the three-dimensional image generation component 202 is Photoscan modeling software.

Specifically, the image pickup device 4 is a camera that picks up an image of the construction area and generates a three-dimensional image.

Specifically, the fire detector 5 is a thermal infrared probe, which loses charge balance when the temperature changes, and releases charges outwards, and a subsequent circuit can generate an alarm signal after detection processing.

Specifically, the voice communicator 6 is a microphone.

The working principle is as follows: in the utility model, because the construction area of the construction site is large, the construction site is divided into a plurality of construction points, a plurality of project implementation computers 1 are respectively put into the plurality of construction points of the construction site, each construction point is monitored, various information of each construction point is input into the project center computer 1, the project center computer 1 is arranged in the project inspection department, the information fed back by the project implementation computer 2 is implemented by the project inspection department according to each construction point, the arrangement inspection and the monitoring are carried out, through the editing module, constructors can respectively load construction progress, attendance conditions, material use conditions and safety reports into the construction progress loading module 101, the staff daily loading module 102, the material use condition loading module 103 and the safety report loading module 104 after editing the construction progress, the attendance conditions, the material use conditions and the safety reports in a text form, several modules are edited and displayed on the screen of the project center computer 1 for the auditor to check, and stored in the storage module 105 for backup, for the later checking, the position of the construction point can be detected by the positioning identification sensor 3 and displayed on the project construction electronic map component 107, so as to conveniently determine which construction point is checked each time, through the matching arrangement of the image collector 4 and the three-dimensional image generation component 202, the three-dimensional image can be generated for each construction point and then displayed by the three-dimensional image checking software 106 for the auditor to check, the fire detector 5 can detect whether the site where the construction point is easy to catch fire has fire, if the fire occurs, the alarm 7 sends out alarm sound, the auditor can carry out voice communication with the working personnel at the construction point through the voice communicator 6, the utility model can satisfy the auditor to simultaneously check a plurality of construction sites, the method has the advantages that the progress plan management capacity, the resource distribution balance capacity, the project comprehensive decision-making capacity and other capacities of a plurality of construction sites are improved, so that the enterprise management efficiency is greatly improved, and the core competitiveness of enterprise management is improved.

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 (6)

1. A project management system based on the Internet of things comprises a project center computer (1) and a plurality of project implementation computers (2), and is characterized in that: the project center computer (1) and the project implementation computer (2) are connected and communicated with each other through an Internet network, a construction progress loading module (101), a staff daily attendance loading module (102), a material use condition loading module (103), a safety report loading module (104), a storage module (105), a three-dimensional image inspection module (106) and a project construction electronic map module (107) are electrically installed inside the project center computer (1), the construction progress loading module (101), the staff daily attendance loading module (102), the material use condition loading module (103) and the safety report loading module (104) are connected with the storage module (105) through electric signals, an editing module (201) and a three-dimensional image generation module (202) are electrically installed inside the project implementation computer (2), and the editing module (201) is used for inputting text information and loading the text information into the construction progress loading module (101), An employee daily attendance loading module (102), a material use condition loading module (103) and a safety report loading module (104), simultaneously, the data are loaded into a storage module (105) for backup, the project implementation computer (2) is connected with a positioning identification sensor (3), an image collector (4) and a fire detector (5) through cables, the positioning identification sensor (3) is used for positioning and loading a construction point on a project construction electronic map component (107), the image collected by the image collector (4) is generated by a three-dimensional image generating component (202) and loaded on a three-dimensional image observing component (106), the project center computer (1) and the project implementation computer (2) are both connected with a voice communicator (6) and an alarm (7) through cables, the fire alarm signal detected by the fire detector (5) is loaded into an alarm (7).

2. The internet of things-based project management system of claim 1, wherein: the three-dimensional image viewing component (106) is UG software.

3. The internet of things-based project management system of claim 1, wherein: the three-dimensional image generation component (202) is Photoscan modeling software.

4. The internet of things-based project management system of claim 1, wherein: the image collector (4) is a camera.

5. The internet of things-based project management system of claim 1, wherein: the fire detector (5) is a thermal infrared probe.

6. The internet of things-based project management system of claim 1, wherein: the voice communicator (6) is a microphone.

Images