阅读说明：本技术 一种岩土工程安全监测预警系统 (Geotechnical engineering safety monitoring and early warning system ) 是由 赵海燕 刘福江 于 2020-06-28 设计创作，主要内容包括：本发明公开了一种岩土工程安全监测预警系统,属于岩土工程安全监测技术领域,包括机敏带和与机敏带电连接用于采集机敏带上各信号监测点处电阻值的采集模块,采集模块电连接有用于对采集模块传输的数据进行分析处理的主控模块,主控模块无线连接有云服务器,云服务器无线连接有用户终端,采集模块对机敏带自动采集并将采集到的机敏带上各信号监测点处的电阻值发送至主控模块,主控模块对该数据与机敏带各信号监测点的基础电阻值进行比较,判断是否达到报警阈值,并将各数据上传云服务器进行存储,云服务器将数据发送至用户终端,使得用户能够从用户终端上查看铺设该机敏带的土体内部是否有变形、沉降,了解上方的地基是否存在安全隐患等。(The invention discloses a geotechnical engineering safety monitoring and early warning system, which belongs to the technical field of geotechnical engineering safety monitoring and comprises an agile band and an acquisition module which is connected with the agile band and used for acquiring resistance values of signal monitoring points on the agile band, wherein the acquisition module is electrically connected with a main control module used for analyzing and processing data transmitted by the acquisition module, the main control module is wirelessly connected with a cloud server, the cloud server is wirelessly connected with a user terminal, the acquisition module automatically acquires the agile band and transmits the acquired resistance values of the signal monitoring points on the agile band to the main control module, the main control module compares the data with basic resistance values of the signal monitoring points on the agile band to judge whether the data reaches an alarm threshold value and uploads the data to the cloud server for storage, and the cloud server transmits the data to the user terminal, so that a user can check whether deformation exists in a soil body paved with the agile band from the user terminal, And (4) settling, and knowing whether potential safety hazards exist in the foundation above or not.)

1. The utility model provides a geotechnical engineering safety monitoring early warning system, its characterized in that, including smart area and with smart electrified the connection of taking is used for gathering smart area goes up the collection module of each signal monitoring point department resistance value, collection module electricity is connected with and is used for right the data that collection module transmitted carry out analysis processes's host system, host system wireless connection has cloud ware, cloud ware wireless connection has user terminal.

2. The geotechnical engineering safety monitoring and early warning system according to claim 1, wherein the collection module is electrically connected with a temperature sensor for detecting the temperature of the smart tape laying layer.

3. The geotechnical engineering safety monitoring and early warning system according to claim 2, wherein the acquisition module is electrically connected with a GPS positioning module.

4. The geotechnical engineering safety monitoring and early warning system according to claim 3, wherein said main control module is electrically connected with a plurality of acquisition modules.

5. The geotechnical engineering safety monitoring and early warning system according to claim 1, wherein said main control module includes a wireless module for transmitting data to said cloud server.

6. The geotechnical engineering safety monitoring and early warning system according to claim 5, wherein the wireless module is an Internet of things card.

7. The geotechnical engineering safety monitoring and early warning system according to claim 1, wherein the main control module is electrically connected with a power supply, and the power supply is electrically connected with a power generation device.

8. The geotechnical engineering safety monitoring and early warning system according to claim 7, wherein the power generation equipment is a wind-solar integrated power generation device.

9. The geotechnical engineering safety monitoring and early warning system according to any one of claims 1-8, wherein the user terminal is electrically connected with an alarm module.

Technical Field

The invention belongs to the technical field of geotechnical engineering safety monitoring, and particularly relates to a geotechnical engineering safety monitoring and early warning system.

Background

With the large-scale construction of highway networks and the development of regional economy, the development of highway reconstruction and expansion methods is not achieved. Road widening is the most common way of reconstruction and expansion, but the widening can cause cracking and even collapse of the new and old roadbed joint and the old roadbed, and causes great driving safety and economic loss. Therefore, deformation and settlement deformation possibly occurring in the service period of the road subgrade need to be monitored, most of the existing monitoring sensors are distributed in a point shape, so that the cost is high, and distributed testing is not supported. Based on the patent numbers: 202021146699.X, subject matter is: the patent document of an intelligent machine-sensitive belt for geotechnical engineering safety detection provides a system capable of realizing monitoring of internal deformation of a soil body and timely early warning.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the geotechnical engineering safety monitoring and early warning system can effectively monitor the deformation condition inside a soil body and give an early warning in time, and improves the geotechnical engineering safety.

In order to solve the technical problems, the technical scheme of the invention is as follows:

the utility model provides a geotechnical engineering safety monitoring early warning system, including quick-witted taking and with quick-witted electrified connection is used for gathering the collection module of each signal monitoring point department resistance value on quick-witted taking, the collection module electricity is connected with and is used for right the data that collection module transmitted carry out analysis processes's host system, host system wireless connection has cloud ware, cloud ware wireless connection has user terminal.

Furthermore, the acquisition module is also electrically connected with a temperature sensor for detecting the temperature of the smart tape laying layer.

Furthermore, the acquisition module is also electrically connected with a GPS positioning module.

Furthermore, the main control module is electrically connected with a plurality of acquisition modules.

Further, the main control module comprises a wireless module for sending data to the cloud server.

Further, the wireless module is an internet card.

Further, the main control module is electrically connected with a power supply, and the power supply is electrically connected with power generation equipment.

Further, the power generation equipment is a wind and light integrated power generation device.

Furthermore, the user terminal is electrically connected with an alarm module.

After the technical scheme is adopted, the invention has the beneficial effects that:

the geotechnical engineering safety monitoring and early warning system comprises an agile band and an acquisition module which is connected with the agile band and used for acquiring resistance values of signal monitoring points on the agile band, the acquisition module is electrically connected with a main control module used for analyzing and processing data transmitted by the acquisition module, the main control module is wirelessly connected with a cloud server, the cloud server is wirelessly connected with a user terminal, the acquisition module automatically acquires the agile band and transmits the acquired resistance values of the signal monitoring points on the agile band to the main control module, the main control module compares the data with basic resistance values of the signal monitoring points on the agile band to judge whether the data reach an alarm threshold value and uploads the data to the cloud server for storage, and the cloud server transmits the data to the user terminal, so that a user can check whether deformation exists in a soil body paved with the agile band from the user terminal, And (4) settling, and knowing whether potential safety hazards exist in the foundation above or not.

Drawings

Fig. 1 is a schematic diagram of the geotechnical engineering safety monitoring and early warning system of the present invention.

Detailed Description

The invention is further illustrated with reference to the following figures and examples.

All directions referred to in the present specification are based on the drawings, and represent relative positional relationships only, and do not represent absolute positional relationships.

As shown in figure 1, the geotechnical engineering safety monitoring and early warning system comprises an agile band and a collection module which is connected with the agile band and used for collecting resistance values of signal monitoring points on the agile band, wherein the collection module is electrically connected with a main control module used for analyzing and processing data transmitted by the collection module, the main control module is wirelessly connected with a cloud server, and the cloud server is wirelessly connected with a user terminal. The collection module is used for automatically collecting the smart belt and sending the resistance value of each signal monitoring point on the collected smart belt to the main control module, the main control module is used for comparing the data with the basic resistance value of each signal monitoring point of the smart belt and judging whether the data reach an alarm threshold value or not, each data is uploaded to the cloud server to be stored, and the cloud server is used for sending the data to the user terminal, so that a user can check whether deformation and settlement exist in the soil body paved with the smart belt from the user terminal, and whether potential safety hazards exist in the foundation above or not is known.

As shown in fig. 1, the acquisition module is also electrically connected with a temperature sensor for detecting the temperature of the smart tape laying layer. If the temperature of the paving layer is abnormal, the service life of the machine-sensitive tape can be influenced, and the machine-sensitive tape condition can be conveniently monitored.

As shown in figure 1, the acquisition module is also electrically connected with a GPS positioning module, and the data can be corresponding to specific positions and conveniently searched through an electronic map display function, original data and abnormal data query function on the APP of the user terminal.

As shown in fig. 1, the main control module is electrically connected to a plurality of acquisition modules, that is, one main control module corresponds to a plurality of sensitive tapes, and in this embodiment, 20 sensitive tapes are provided, and the main control module and the acquisition modules are connected by wires. The main control module is an EC20 chip, and the acquisition module is a BOardv2.0 chip. The main control module comprises a wireless module used for sending data to the cloud server. Wherein, the wireless module is an Internet of things card. The early warning system of this application includes a plurality of host system, and this early warning system can monitor the road bed situation in a plurality of regions promptly, and each host system all connects collection module, power etc. only takes host system 1 as the example in figure 1.

As shown in fig. 1, the main control module is electrically connected with a power supply, and the power supply is electrically connected with a power generation device. The power generation equipment is a wind-solar integrated power generation device, the equipment is in the prior art, and the specific structure is not described herein.

The user terminal is electrically connected with an alarm module which can be a sound-light alarm device. The user terminal can be a PC terminal or a mobile phone terminal, and the PC terminal and the mobile phone terminal can perform early warning and alarming according to a specified protocol.

The geotechnical engineering safety monitoring and early warning system automatically collects the smart belt through the collection module, sends the collected resistance values of the signal monitoring points on the smart belt to the main control module, and then sends the resistance values to the user terminal through the cloud server data, so that a user can check whether the interior of a soil body paved with the smart belt is deformed and settled from the user terminal, know whether potential safety hazards exist in an upper foundation, and can be used for settlement deformation detection of roadbeds, airport runways, bridge and tunnel structures, earth and rockfill dams, accumulation bodies and the like.

While specific embodiments of the invention have been described above, it will be understood by those skilled in the art that the described embodiments are only some, and not all, of the present invention, which is presented by way of example only, and the scope of the invention is defined by the appended claims. Various changes or modifications to these embodiments may be made by those skilled in the art without departing from the principle and spirit of the invention, and these changes and modifications all fall within the scope of the invention.