CN216599683U - Construction site Internet of things platform system - Google Patents

Abstract

A construction site Internet of things platform system comprises a cloud server end, an edge server end, terminal equipment and a user terminal, wherein the cloud server end is connected with the edge server end, the cloud server end is connected with the user terminal, and the edge server end is connected with the terminal equipment; the cloud server side is used for storing data and distributing instructions; the edge server side is used for collecting data from the terminal equipment on a construction site and then sending the data to the cloud server side, and sending an instruction from the cloud server side to the terminal equipment; the terminal equipment is used for acquiring data from a construction site, sending the data to the edge server side and executing an operation instruction from the edge server side; and the user terminal is used for checking the data stored by the cloud server terminal and sending an instruction to the cloud server terminal through an HTTP (hyper text transport protocol).

Description

Construction site Internet of things platform system

Technical Field

The utility model relates to the technical field of Internet of things, in particular to a construction site Internet of things platform system.

Background

The construction site has numerous participants and complex procedures, and a manager can comprehensively master the site construction state only by collecting a large amount of real-time data on the construction site. With the improvement of the informatization level of a construction site, data acquisition equipment such as various sensors and the like has been widely used to acquire data on the site in real time. The internet of things is used for acquiring any object or process needing monitoring, connection and interaction in real time through various information sensors.

However, the existing internet of things system is difficult to adapt to the complex situation of a large-scale construction site, construction acquisition equipment of the construction site lacks a uniform internet of things system, collected data is difficult to gather, arrange and uniformly manage, a large amount of real-time data is difficult to process, and the requirements of the construction site are difficult to meet.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects in the prior art, the utility model aims to provide a construction site Internet of things platform system which is used for uniformly managing Internet of things equipment in a construction site, monitoring the online state of the equipment, controlling the equipment and acquiring and storing data acquired by the equipment.

In order to achieve the above object, the platform system of the internet of things for a construction site of the utility model comprises a cloud server terminal, an edge server terminal, a terminal device and a user terminal, wherein,

the cloud server end is connected with the edge server end, the cloud server end is connected with the user terminal, and the edge server end is connected with the terminal equipment;

the cloud server side is used for storing data and distributing instructions;

the edge server side is used for collecting data from the terminal equipment on a construction site and then sending the data to the cloud server side, and sending an instruction from the cloud server side to the terminal equipment;

the terminal equipment is used for acquiring data from a construction site, sending the data to the edge server and executing an operation instruction from the edge server;

and the user terminal is used for checking the data stored by the cloud server terminal and sending an instruction to the cloud server terminal through an HTTP (hyper text transport protocol).

Further, the cloud server comprises an interface processing module, a computing module and a storage module, wherein,

the interface processing module is used for receiving an instruction sent by the user terminal through an HTTP (hyper text transport protocol), sending the instruction to the edge server end by adopting an MQTT (multiple quantum dots technique) protocol, and receiving data sent by the edge server end through the MQTT protocol;

the computing module is used for computing the data of the interface processing module and sending the processed data to the storage module;

the storage module is used for storing data.

Further, the edge server receives an instruction sent by the cloud server through an MQTT protocol, sends the instruction to the terminal device, receives data returned by the terminal device, and forwards the data to the cloud server through the MQTT protocol.

Further, the air conditioner is provided with a fan,

the cloud server is connected with the edge server through a wired or wireless network;

the cloud server is connected with the user terminal through a wired or wireless network;

and the edge server is connected with the terminal equipment through a wired or wireless network.

Further, the air conditioner is provided with a fan,

the wireless network includes 4G, 5G or long range radios.

Further, the air conditioner is provided with a fan,

and the cloud server side adopts a public cloud server.

Further, the air conditioner is provided with a fan,

the edge server end is a microcomputer or a single chip microcomputer.

Further, in the present invention,

the user terminal adopts a mobile phone, a tablet computer, a desktop computer or a notebook computer.

The construction site Internet of things platform system has the following beneficial effects: the construction site data management system realizes the unified management of various terminal devices in the construction site, and the data is uniformly stored in the cloud server side, so that the construction site data can be conveniently managed and processed. The data transmission method of the construction site terminal equipment is optimized, and the problems of inconvenience in wiring, poor network and the like of the construction site are solved.

Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model.

In the drawings:

fig. 1 is a schematic diagram of a construction site internet of things platform system according to the utility model.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Fig. 1 is a schematic structural diagram of a construction site platform system of internet of things according to the present invention, and as shown in fig. 1, the construction site platform system of internet of things according to the present invention includes a cloud server end 1, an edge server end 2, a terminal device 3, and a user terminal 4, where the cloud server end 1 is connected to the edge server end 2, the cloud server end 1 is connected to the user terminal 4, the edge server end 2 is connected to the terminal device 3, and where,

the cloud server 1 adopts a public cloud server and is used for storing data and distributing instructions.

Preferably, the cloud server includes an interface processing module, a computing module, and a storage module, which are not shown in the drawings, wherein,

preferably, the interface processing module includes an MQTT interface processing module and an HTTP interface processing module, which are respectively connected to the computing module.

The HTTP interface processing module is configured to receive an instruction sent by the user terminal 4 through an HTTP protocol, transmit the instruction to the computing module to perform processing and conversion of the instruction, and also receive data from the data module and send the data to the user terminal 4 through the HTTP protocol.

The MQTT interface processing module is used for sending the converted instruction to the edge server end 2, receiving data sent by the edge server end 2 through an MQTT protocol, and transmitting the data to the computing module for data processing.

And the computing module is used for computing the data of the interface processing module and sending the processed data to the storage module and the interface processing module.

The storage module comprises an equipment information storage module and a time sequence data storage module which are respectively connected with the calculation module and used for storing data. The device information storage module stores information such as the number, the type, the installation position, the device attribute and the like of the device.

The time sequence data storage module stores data and acquisition time acquired by the equipment in real time.

The edge server 2 is used for collecting data from the terminal equipment at a construction site and then sending the data to the cloud server, and sending instructions from the cloud server to the terminal equipment, and can adopt a microcomputer or a single chip microcomputer.

Preferably, the edge server 2 includes a heartbeat module, an equipment information synchronization module, an attribute reporting module, a service processing module, and an event reporting module, which are not shown in the figure. Each module is respectively connected with an MQTT interface processing module of the cloud server terminal 1, and the attribute reporting module, the service processing module and the event reporting module are also connected with the terminal device 3. The heartbeat module is used for sending the online state of the edge server at regular time, the device information synchronization module is used for updating the information of the device at regular time, the attribute reporting module is used for receiving the attribute of the terminal device 3 and sending the attribute to the cloud server end 1, the service processing module is used for receiving the service instruction of the cloud server end 1 and forwarding the service instruction to the terminal device 3, and the event reporting module is used for receiving the event of the terminal device 3 and sending the event to the cloud server end 1.

Preferably, the edge server 2 receives an instruction sent by the cloud server 1 through an MQTT protocol, and sends the instruction to the terminal device 3; and meanwhile, receiving data sent by the equipment, and forwarding the data to the cloud server end 1 through an MQTT protocol.

Preferably, the edge server 2 is a microcomputer or a single chip microcomputer, preferably a single chip microcomputer.

And the terminal equipment 3 is used for acquiring data from a construction site, sending the data to the edge server end 2 and executing an operation instruction from the edge server end 2.

Preferably, the terminal device 3 includes a camera, an access control device, an RFID (radio frequency identification) device, an environmental sensor, an indoor positioning device, and a spraying device, which are not shown in the figure. Terminal equipment links to each other with edge server 2 respectively, the camera is used for gathering job site's surveillance video, entrance guard's equipment is used for controlling constructor's the record of passing of business turn over and gathering, RFID equipment is used for gathering the position of RFID label, environmental sensor is used for gathering on-the-spot weather and environmental data, indoor positioning device is used for gathering personnel's position, spraying equipment is used for the humidity of water spray with control job site.

The user terminal 4 is used for checking data stored in the cloud server terminal and sending an instruction to the cloud server terminal 1 through an HTTP (hyper text transport protocol).

Preferably, the user terminal 4 is a mobile phone, a tablet computer, a desktop computer, a notebook computer, and preferably a notebook computer.

Preferably, the cloud server side 1 is connected to the edge server side 2 through a wired or wireless network, preferably a wired network. The cloud server 1 is connected with the user terminal 4 through a wired or wireless network, preferably a wired network. The edge server side 2 is connected to the terminal device 3 via a wired or wireless network, wherein the wireless network includes 4G, 5G or LoRa (long distance radio).

In the embodiment of the utility model, the edge server end is connected with the cloud server end in a wired or wireless manner, the terminal equipment is connected with the edge server end in a serial port, 485 line, 4G, 5G or LoRa (remote radio) manner, and the user terminal is connected with the cloud server end in a wired or wireless manner. The wireless network comprises Wifi, 4G and 5G.

The utility model provides an Internet of things system for a construction site, which is used for uniformly managing Internet of things equipment of the construction site, monitoring the online state of the equipment, controlling the equipment and acquiring and storing data acquired by the equipment.

Those of ordinary skill in the art will understand that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A construction site Internet of things platform system comprises a cloud server end, an edge server end, terminal equipment and a user terminal, and is characterized in that,

the cloud server end is connected with the edge server end, the cloud server end is connected with the user terminal, and the edge server end is connected with the terminal equipment;

the cloud server side is used for storing data and distributing instructions;

the edge server side is used for collecting data from the terminal equipment on a construction site and then sending the data to the cloud server side, and sending an instruction from the cloud server side to the terminal equipment;

the terminal equipment is used for acquiring data from a construction site, sending the data to the edge server and executing an operation instruction from the edge server;

and the user terminal is used for checking the data stored by the cloud server terminal and sending an instruction to the cloud server terminal through an HTTP (hyper text transport protocol).

2. The construction site Internet of things platform system of claim 1, wherein the cloud server side comprises an interface processing module, a computing module and a storage module, wherein,

the interface processing module is used for receiving an instruction sent by the user terminal through an HTTP (hyper text transport protocol), sending the instruction to the edge server end by adopting an MQTT (multiple quantum dots technique) protocol, and receiving data sent by the edge server end through the MQTT protocol;

the computing module is used for computing the data of the interface processing module and sending the processed data to the storage module;

the storage module is used for storing data.

3. The construction site Internet of things platform system according to claim 1, wherein the edge server receives an instruction sent by the cloud server through an MQTT protocol, sends the instruction to the terminal equipment, receives data returned by the terminal equipment, and forwards the data to the cloud server through the MQTT protocol.

4. The construction site Internet of things platform system according to claim 1,

the cloud server is connected with the edge server through a wired or wireless network;

the cloud server is connected with the user terminal through a wired or wireless network;

and the edge server is connected with the terminal equipment through a wired or wireless network.

5. The construction site Internet of things platform system as claimed in claim 4,

the wireless network includes 4G, 5G or long range radios.

6. The construction site Internet of things platform system according to claim 1,

and the cloud server side adopts a public cloud server.

7. The construction site Internet of things platform system according to claim 1,

the edge server end is a microcomputer or a single chip microcomputer.

8. The construction site Internet of things platform system according to claim 1,

the user terminal adopts a mobile phone, a tablet computer, a desktop computer or a notebook computer.

Images