CN111650858A - Static pressure method construction remote monitoring information system based on Internet of things - Google Patents

Abstract

The invention relates to a static pressure method construction remote monitoring information system based on the Internet of things, wherein a sensor group, a positioning device and a monitoring device are connected with a controller, the controller is connected with a cloud server, the cloud server is connected with a background monitoring terminal, a main control unit, a voice dialogue unit, an alarm and an emergency stop control unit are arranged in the controller, the main control unit is connected with the cloud server through a communication unit, the sensor group comprises a vibration sensor, a speed sensor, a pressure sensor and a distance measuring sensor, the vibration sensor, the speed sensor, the pressure sensor, the positioning device and the monitoring device are all arranged on a static pressure pile machine, and the distance measuring sensor is arranged on a hydraulic system; when the change of vibration, speed, pressure, distance and positioning is sensed, the monitoring device is started and transmits information to the controller through the communication unit, the controller uploads the information to the cloud server, and the cloud server uploads the information to the background monitoring terminal.

Description

Static pressure method construction remote monitoring information system based on Internet of things

Technical Field

The invention relates to the technical field of remote monitoring, in particular to a static pressure construction remote monitoring information system based on the Internet of things.

Background

The pile machine is a piling machine for piling and can also be used for high-speed rail construction. Pile foundations are a very common design form in the building design process of most buildings at present. The first thing to realize the pile foundation is the construction of the foundation pile, that is, different pile machines are selected to finish the construction according to the different types of the foundation pile (prefabrication and cast-in-situ pouring). The construction of the precast pile in the market at present is mostly implemented and finished by a hydraulic static pile press in a static pressure mode.

The working principle of the static pile press is as follows: the pile is slowly pressed into the soil by using the self weight (including the balance weight) as a reaction force to overcome the frictional resistance of the side wall of the soil around the pile and the resistance of the soil at the end of the pile in the pile pressing process.

Compared with the pile sinking by the hammering method, the static pile machine has the advantages of uniform pile sinking speed, no noise, no vibration, automatic display of pile pressing force, day and night construction and the like. Along with the rapid development of urban high-rise buildings, the vertical bearing capacity of a single pile is higher and higher, the tonnage of a hydraulic static-pressure pile machine is increased, the maximum pile-pressing tonnage at present reaches 1260tf, and the maximum single-pile bearing capacity of a foundation pile can reach about 7000kN, so that the hydraulic static-pressure pile machine is widely applied to pile foundation construction of industrial plants, comprehensive office buildings and high-rise buildings in recent years and achieves good technical and economic effects.

At present, monitoring of various parameters in the static pressure construction process is completed manually, the manual monitoring efficiency is low, errors are large, and the construction quality is influenced.

Disclosure of Invention

In order to overcome the problems in the prior art, the invention provides a static pressure construction remote monitoring information system based on the Internet of things, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a static pressure method construction remote monitoring information system based on the Internet of things comprises a sensor group, a positioning device, a monitoring device, a communication unit, a controller, a cloud server and a background monitoring terminal, wherein the sensor group, the positioning device and the monitoring device are connected with the controller, the controller is connected with the cloud server, the cloud server is connected with the background monitoring terminal, a main control unit, a voice conversation unit, an alarm and an emergency stop control unit are arranged in the controller, the main control unit is connected with the cloud server through the communication unit, the sensor group comprises a vibration sensor, a speed sensor, a pressure sensor and a distance measuring sensor, the vibration sensor, the speed sensor, the pressure sensor, the positioning device and the monitoring device are all installed on a static pressure pile machine, and the distance measuring sensor is installed on a hydraulic system; when the change of vibration, speed, pressure, distance and positioning is sensed, the monitoring device is started and transmits information to the controller through the communication unit, the controller uploads the information to the cloud server, and the cloud server uploads the information to the background monitoring terminal.

In another embodiment, the monitoring personnel or machines of the background monitoring terminal analyze and monitor the acquired information.

In another embodiment, the communication unit is a GSM or GPRS or WiFi communication module.

In another embodiment, the monitoring device is 2 cameras, and the cameras are all arranged above the static pressure pile machine.

In another embodiment, the background monitoring terminal is provided with an input device and a display screen, and the background monitoring terminal is a computer.

In another embodiment, the voice conversation unit can realize instant conversation, a user enters a conversation state through an instruction of the background monitoring terminal, and the user can carry out real-time conversation with the background monitoring terminal.

The static pressure method construction remote monitoring information system based on the Internet of things comprises the following monitoring implementation steps:

1) a user sends a viewing request to the background monitoring terminal and passes the password authentication of the background monitoring terminal;

2) the vibration sensor, the speed sensor, the pressure sensor and the distance measuring sensor transmit the change data of sensed vibration, speed, pressure and distance to the controller, the positioning device transmits the change data of position to the controller, the monitoring device transmits the monitored construction site information to the controller, the controller transmits the data information to the cloud service desk, and the background monitoring terminal receives the data information fed back by the cloud service desk and checks the data information for a user;

3) a user grasps information of a construction site and sends an instruction through a background monitoring terminal;

4) when an abnormal condition is found, a user sends an ending instruction to the cloud service desk through the background monitoring terminal, the cloud service desk sends the ending instruction to the controller, the controller controls the machine to stop running through the emergency stop control unit and controls the alarm to be started, meanwhile, the user sends a voice instruction to the cloud service desk through the background monitoring terminal, and the cloud service desk sends the voice instruction to the voice conversation unit to achieve real-time conversation.

Compared with the prior art, the invention has the beneficial effects that: 1. the static pressure method monitoring system is simple in structural principle and high in intelligent degree, can acquire various engineering parameters in the static pressure method construction process in real time, can transmit engineering data in real time, improves background monitoring efficiency and improves construction quality; 2. the sensing signal collector adopted by the invention can improve the collection precision of the sensor signal, thereby further improving the background monitoring efficiency; 3. the emergency stop control unit of the invention can emergently stop the operation of the machine when the situation occurs; 4. the voice conversation unit can carry out real-time conversation; 5. the invention utilizes the computer to carry out remote monitoring, realizes remote dynamic monitoring on a plurality of regions and has high monitoring efficiency.

Drawings

FIG. 1 is a schematic view of the flow structure of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1:

as shown in fig. 1, a static pressure method construction remote monitoring information system based on the internet of things comprises a sensor group, a positioning device, a monitoring device, a communication unit, a controller, a cloud server and a background monitoring terminal, wherein the sensor group, the positioning device and the monitoring device are connected with the controller, the controller is connected with the cloud server, the cloud server is connected with the background monitoring terminal, a main control unit, a voice conversation unit, an alarm and an emergency stop control unit are arranged in the controller, the main control unit is connected with the cloud server through the communication unit, the sensor group comprises a vibration sensor, a speed sensor, a pressure sensor and a distance measuring sensor, the vibration sensor, the speed sensor, the pressure sensor, the positioning device and the monitoring device are all mounted on a static pressure pile machine, and the distance measuring sensor is mounted on a hydraulic system; when the change of vibration, speed, pressure, distance and positioning is sensed, the monitoring device is started and transmits information to the controller through the communication unit, the controller uploads the information to the cloud server, and the cloud server uploads the information to the background monitoring terminal.

In another embodiment, the monitoring personnel or machines of the background monitoring terminal analyze and monitor the acquired information.

In another embodiment, the communication unit is a GSM or GPRS or WiFi communication module.

In another embodiment, the monitoring device is 2 cameras, and the cameras are all arranged above the static pressure pile machine.

In another embodiment, the background monitoring terminal is provided with an input device and a display screen, and the background monitoring terminal is a computer.

In another embodiment, the voice conversation unit can realize instant conversation, a user enters a conversation state through an instruction of the background monitoring terminal, and the user can carry out real-time conversation with the background monitoring terminal.

The static pressure method construction remote monitoring information system based on the Internet of things comprises the following monitoring implementation steps:

1) a user sends a viewing request to the background monitoring terminal and passes the password authentication of the background monitoring terminal;

2) the vibration sensor, the speed sensor, the pressure sensor and the distance measuring sensor transmit the change data of sensed vibration, speed, pressure and distance to the controller, the positioning device transmits the change data of position to the controller, the monitoring device transmits the monitored construction site information to the controller, the controller transmits the data information to the cloud service desk, and the background monitoring terminal receives the data information fed back by the cloud service desk and checks the data information for a user;

3) a user grasps information of a construction site and sends an instruction through a background monitoring terminal;

4) when an abnormal condition is found, a user sends an ending instruction to the cloud service desk through the background monitoring terminal, the cloud service desk sends the ending instruction to the controller, the controller controls the machine to stop running through the emergency stop control unit and controls the alarm to be started, meanwhile, the user sends a voice instruction to the cloud service desk through the background monitoring terminal, and the cloud service desk sends the voice instruction to the voice conversation unit to achieve real-time conversation.

While the foregoing description shows and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as described herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. The utility model provides a static pressure method construction remote monitering information system based on thing networking which characterized in that: the system comprises a sensor group, a positioning device, a monitoring device, a communication unit, a controller, a cloud server and a background monitoring terminal, wherein the sensor group, the positioning device and the monitoring device are connected with the controller, the controller is connected with the cloud server, the cloud server is connected with the background monitoring terminal, a main control unit, a voice conversation unit, an alarm and an emergency stop control unit are arranged in the controller, the main control unit is connected with the cloud server through the communication unit, the sensor group comprises a vibration sensor, a speed sensor, a pressure sensor and a distance measuring sensor, the vibration sensor, the speed sensor, the pressure sensor, the positioning device and the monitoring device are all installed on a static pile press, and the distance measuring sensor is installed on a hydraulic system; when the change of vibration, speed, pressure, distance and positioning is sensed, the monitoring device is started and transmits information to the controller through the communication unit, the controller uploads the information to the cloud server, and the cloud server uploads the information to the background monitoring terminal.

2. The static pressure construction remote monitoring information system based on the internet of things according to claim 1, wherein: and the monitoring personnel or machines of the background monitoring terminal analyze and monitor the acquired information.

3. The static pressure construction remote monitoring information system based on the internet of things according to claim 2, wherein: the communication unit is a GSM or GPRS or WiFi communication module.

4. The static pressure construction remote monitoring information system based on the internet of things according to claim 1, wherein: the monitoring device is 2 cameras, and the cameras are all arranged above the static pile press.

5. The static pressure construction remote monitoring information system based on the internet of things according to claim 1, wherein: the background monitoring terminal is provided with an input device and a display screen and is a computer.

6. The static pressure construction remote monitoring information system based on the internet of things according to claim 1, wherein: the voice conversation unit can realize instant conversation, a user enters a conversation state through an instruction of the background monitoring terminal, and the user can carry out real-time conversation with the background monitoring terminal.

7. The static pressure construction remote monitoring information system based on the internet of things according to claim 1, wherein: the static pressure method construction remote monitoring information system based on the Internet of things comprises the following steps:

1) a user sends a viewing request to the background monitoring terminal and passes the password authentication of the background monitoring terminal;

2) the vibration sensor, the speed sensor, the pressure sensor and the distance measuring sensor transmit the change data of sensed vibration, speed, pressure and distance to the controller, the positioning device transmits the change data of position to the controller, the monitoring device transmits the monitored construction site information to the controller, the controller transmits the data information to the cloud service desk, and the background monitoring terminal receives the data information fed back by the cloud service desk and checks the data information for a user;

3) a user grasps information of a construction site and sends an instruction through a background monitoring terminal;

4) when an abnormal condition is found, a user sends an ending instruction to the cloud service desk through the background monitoring terminal, the cloud service desk sends the ending instruction to the controller, the controller controls the machine to stop running through the emergency stop control unit and controls the alarm to be started, meanwhile, the user sends a voice instruction to the cloud service desk through the background monitoring terminal, and the cloud service desk sends the voice instruction to the voice conversation unit to achieve real-time conversation.

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