CN215905729U - Multi-terminal engineering progress monitoring system - Google Patents

Abstract

The utility model relates to a multi-terminal engineering progress monitoring system which comprises an analysis server, a plurality of portable monitoring terminals, a plurality of camera monitoring terminals and a plurality of tower crane monitoring terminals, wherein the portable monitoring terminals, the camera monitoring terminals and the tower crane monitoring terminals are in data communication connection with the analysis server, different types of data information are acquired through mutual linkage of various different terminals and are transmitted to a unified analysis server for processing and feedback of the data information, engineering construction progress information can be accurately and comprehensively reflected, sufficient information and evidence support is provided for engineering construction supervision, engineering progress and construction quality are guaranteed, and meanwhile engineering construction safety can be assisted and guaranteed.

Description

Multi-terminal engineering progress monitoring system

Technical Field

The utility model relates to the technical field of engineering construction management, in particular to a multi-terminal engineering progress monitoring system.

Background

With the rapid development of the world economy and the urbanization and industrialization process of China, the construction of national infrastructure and cities is advanced day by day and night and rapidly, and the construction progress is influenced to a certain extent due to various factors. How to strengthen the management of the construction progress and effectively monitor the construction progress is an important research topic put in front of workers in all levels of government departments and building industries.

In the prior art, a camera monitoring system is mostly adopted to cooperate with the field inspection of a supervisor as a main monitoring mode of engineering construction. However, the construction progress of the project at a specific node is difficult to be reflected comprehensively and accurately by the simple image information, and meanwhile, due to the limitation of information acquisition of the camera monitoring system, part of important information which is difficult to be directly reflected by the image information, such as the working state and the operation data of a tower crane of the project, lacks data which are vital to the project quality and the construction safety. The field patrol of the supervision personnel mostly depends on experience and programmed detection form marks, and the capabilities of accurate data acquisition and linkage analysis of different data are lacked.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides the multi-terminal engineering progress monitoring system, different types of data information are acquired through mutual linkage of various different terminals and are transmitted to the unified analysis server for processing and feedback of the data information, the engineering construction progress information can be accurately and comprehensively reflected, sufficient information and evidence support are provided for engineering construction supervision, the engineering progress and the construction quality are guaranteed, and meanwhile, the engineering construction safety can be assisted and ensured.

In order to achieve the above purpose, the technical scheme adopted by the utility model comprises the following steps:

a multi-terminal engineering progress monitoring system is characterized by comprising an analysis server, a plurality of portable monitoring terminals, a plurality of camera monitoring terminals and a plurality of tower crane monitoring terminals, wherein the portable monitoring terminals, the camera monitoring terminals and the tower crane monitoring terminals are in data communication connection with the analysis server;

the portable monitoring terminal is carried by a supervisor for use and comprises a data communication module, an RTK positioning module and a UWB instruction module; the RTK positioning module collects real-time positioning data, and the real-time positioning data comprises a planar longitude and latitude position and an altitude; the data communication module sends the real-time positioning data to an analysis server; the UWB instruction module sends a control instruction within a specified range of the portable monitoring terminal;

the camera monitoring terminal comprises a camera, an image communication module and a UWB ordered module; the camera starts to record image data according to the control instruction received by the UWB command module and feeds back a starting signal to the UWB command module; the image communication module sends the image data to an analysis server;

the tower crane monitoring terminal collects tower crane operation data and sends the tower crane operation data and the tower crane operation data to the analysis server.

Further, the control instruction comprises a device identifier of the portable monitoring terminal which sends the control instruction and a supervisor identifier which uses the portable monitoring terminal;

the image data comprises an equipment identifier and a supervisor identifier carried by a control instruction for triggering and recording the image data.

Further, the specified range of the portable monitoring terminal is a sector area of a preset radius and a preset angle pointed by the portable monitoring terminal.

Further, the portable monitoring terminal further comprises an indicator light, and the indicator light lights the first preset color according to the starting signal to indicate the image data recording state.

Further, the analysis server compares the tower crane operation data and the tower crane operation data with a preset threshold value, generates an alarm signal when the tower crane operation data and/or the tower crane operation data exceed the preset threshold value, and sends the alarm signal to the portable monitoring terminal and the camera monitoring terminal;

the indicator lamp of the portable monitoring terminal lights a second preset color according to the alarm signal to indicate the abnormal state of the tower crane;

and the camera monitoring terminal starts to record image data according to the alarm signal.

The utility model has the beneficial effects that:

by adopting the multi-terminal engineering progress monitoring system, different types of data information are acquired through mutual linkage among the portable monitoring terminal, the camera monitoring terminal and the tower crane monitoring terminal and are transmitted to the unified analysis server for processing and feedback of the data information, so that on-site supervision personnel can perform on-site inspection according to a set plan and automatically and synchronously acquire real-time positioning data and image data, and meanwhile, the abnormal condition of the tower crane can be timely processed according to an alarm signal, the engineering construction progress information can be accurately and comprehensively reflected, sufficient information and evidence support can be provided for engineering construction supervision, the engineering progress and the construction quality can be guaranteed, and meanwhile, the engineering construction safety can be assisted and ensured.

Drawings

Fig. 1 is a schematic structural diagram of a multi-terminal engineering progress monitoring system according to the present invention.

Detailed Description

For a clearer understanding of the contents of the present invention, reference will be made to the accompanying drawings and examples.

As shown in fig. 1, which is a schematic structural diagram of the multi-terminal engineering progress monitoring system of the present invention, the system shown in fig. 1 is illustrated by an analysis server connected to a portable monitoring terminal, a camera monitoring terminal and a tower crane monitoring terminal, but in actual application, a suitable number of portable monitoring terminals, camera monitoring terminals and tower crane monitoring terminals can be set according to the engineering scale monitoring requirements, especially, a tower crane monitoring terminal can be preferably provided for each tower crane, and at least one corresponding camera monitoring terminal is provided for each tower crane and each predetermined implementation positioning data acquisition position.

The portable monitoring terminal is used by a supervisor in a portable mode, comprises a data communication module, an RTK positioning module and a UWB instruction module, and is preferably provided with an indicator lamp, real-time positioning data including a planar longitude and latitude position and an altitude are collected through the RTK positioning module, and the real-time positioning data are sent to an analysis server through the data communication module. The UWB instruction module is used for sending a control instruction in a specified range of the portable monitoring terminal, the specified range is preferably a sector area of a preset radius and a preset angle pointed by the portable monitoring terminal, and if an execution device (such as a camera monitoring terminal) corresponding to the control instruction exists in the sector area, the device can be automatically started. In the use, can show through the different colours of pilot lamp, instruct different information to the supervisory personnel, for example with first predetermined colour instruction image data recording state, instruct tower crane abnormal state with second predetermined colour.

Preferably, the portable monitoring terminal may further include a display screen, a control button, and the like for operation of a supervisor, and should be matched with a battery for supplying power.

The camera shooting monitoring terminal comprises a camera, an image communication module and a UWB command module, and particularly, the camera shooting monitoring terminal can start to record image data of a specific tower crane according to an alarm signal sent by an analysis server except for starting to record the image data through a control command sent by the UWB command module. Preferably, when the recording of the image data is started according to the control instruction, the image data is accompanied by an equipment identifier and a supervisor identifier carried by the control instruction of the image data; when image data are recorded according to the starting of the alarm signal, corresponding tower crane information related to the alarm signal is attached to the image data, namely the tower crane information replaces equipment identification and supervision personnel identification. The image data obtained on the basis is accompanied by additional related information, the condition during acquisition and other data information corresponding to the image data can be directly related, and the method is suitable for being used as a supervision evidence.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (5)

1. A multi-terminal engineering progress monitoring system is characterized by comprising an analysis server, a plurality of portable monitoring terminals, a plurality of camera monitoring terminals and a plurality of tower crane monitoring terminals, wherein the portable monitoring terminals, the camera monitoring terminals and the tower crane monitoring terminals are in data communication connection with the analysis server;

the portable monitoring terminal is carried by a supervisor for use and comprises a data communication module, an RTK positioning module and a UWB instruction module; the RTK positioning module collects real-time positioning data, and the real-time positioning data comprises a planar longitude and latitude position and an altitude; the data communication module sends the real-time positioning data to an analysis server; the UWB instruction module sends a control instruction within a specified range of the portable monitoring terminal;

the camera monitoring terminal comprises a camera, an image communication module and a UWB ordered module; the camera starts to record image data according to the control instruction received by the UWB command module and feeds back a starting signal to the UWB command module; the image communication module sends the image data to an analysis server;

the tower crane monitoring terminal collects tower crane operation data and sends the tower crane operation data and the tower crane operation data to the analysis server.

2. The system of claim 1, wherein the control command comprises a device identifier of the portable monitoring terminal that issued the control command and a supervisor identifier of the supervisory personnel using the portable monitoring terminal;

the image data comprises an equipment identifier and a supervisor identifier carried by a control instruction for triggering and recording the image data.

3. The system of claim 2, wherein the portable monitoring terminal designates a sector area ranging from a preset radius and a preset angle at which the portable monitoring terminal is pointed.

4. The system of claim 2, wherein the portable monitoring terminal further comprises an indicator light, and the indicator light illuminates the first predetermined color according to the activation signal to indicate the image data recording status.

5. The system of claim 4, wherein the analysis server compares tower crane operation data and tower crane operation data with a preset threshold, generates an alarm signal when the tower crane operation data and/or the tower crane operation data exceed the preset threshold, and sends the alarm signal to the portable monitoring terminal and the camera monitoring terminal;

the indicator lamp of the portable monitoring terminal lights a second preset color according to the alarm signal to indicate the abnormal state of the tower crane;

and the camera monitoring terminal starts to record image data according to the alarm signal.

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