CN212432207U - Geotechnical engineering investigation safety monitoring network system based on cloud computing - Google Patents

Abstract

The utility model provides a geotechnical engineering reconnaissance safety monitoring network system based on cloud calculates belongs to reconnaissance network field, including network system and surveying equipment. The network system comprises a cloud computing server, a monitoring module, a processor module, a data sending module and a data receiving module. The surveying equipment comprises a camera, a pressure sensor, a drill rod, a drill bit, a motor, a support, a sliding rail and a central control box. The monitoring module is respectively electrically connected with the pressure sensor, the camera and the processor module, the processor module is also electrically connected with the data sending module, the pressure sensor and the camera which are connected with the monitoring module are used for collecting rock and soil address condition data of a rock and soil exploration field, the processor module is used for arranging the data, then conveying the data to the remote data receiving module through the data sending module, and then transmitting the data to the cloud computing server for data analysis and calculation, so that the time of exploration and analysis is greatly saved, and the efficiency of exploration and analysis is improved.

Description

Geotechnical engineering investigation safety monitoring network system based on cloud computing

Technical Field

The utility model relates to an investigation network field, more specifically relates to geotechnical engineering reconnaissance safety monitoring network system based on cloud calculates.

Background

Geotechnical engineering investigation is to find out, analyze and evaluate geological and environmental characteristics and geotechnical engineering conditions of a construction site according to requirements of construction engineering, and if the investigation is not in place, building engineering construction is carried out on problematic rock and soil, which can cause great potential safety hazards to buildings. Therefore, the investigation of the rock soil is required before the engineering construction. In the prior art, investigation is carried out on a rock and soil site, and data of the site is recorded. Due to the lack of computers for data analysis in the field, the data needs to be brought back to a laboratory with a computer for computational analysis, so as to obtain an analysis report of the rock soil. This takes a lot of time and reduces the efficiency of the survey.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defect of prior art, the utility model aims to solve the technical problem that the geotechnical engineering reconnaissance safety monitoring network system based on cloud calculates is proposed, and it can be at the in-process of on-the-spot reconnaissance geotechnical engineering with data transmission to the data analysis calculation on the primary computation server, has saved the time of reconnaissance analysis greatly, improves work efficiency.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a geotechnical engineering reconnaissance safety monitoring network system based on cloud calculates, including network system and surveying equipment. The network system comprises a cloud computing server, a monitoring module, a processor module, a data sending module and a data receiving module. The surveying equipment comprises a camera, a pressure sensor, a drill rod, a drill bit, a motor, a support, a sliding rail and a central control box. The slide rail is vertically fixed on the bracket, the motor is connected on the slide rail in a sliding way, the drill rod is arranged below the motor, the drill rod is fixedly connected with the power output end of the motor, the pressure sensor is fixed at the lower end of the drill rod, the drill bit is fixed on the measuring end of the pressure sensor, the camera is fixed on the bracket, the central control box is fixed at one side of the bracket, the monitoring module, the processor module and the data sending module are all arranged in the central control box, the monitoring module is respectively electrically connected with the pressure sensor, the camera and the processor module, the processor module is also electrically connected with the data sending module, the data receiving module is electrically connected with the cloud computing server, and the data sending module is connected with the data receiving module through a communication link.

The utility model discloses in the technical scheme of preferred, network system still includes the GPS module, the GPS module set up in the central control box, the GPS module with the monitor module electricity is connected.

The utility model discloses among the technical scheme of preferred survey equipment still includes the tachometer, the tachometer is fixed in the bottom of motor, just the tachometer with drilling rod sliding connection, the tachometer with the monitor module electricity is connected.

In the technical scheme of the preferred embodiment of the present invention, a plurality of barbed nails are fixed to the bottom of the bracket.

The utility model discloses in the technical scheme of preferred, institute communication network system still includes the data storage module, the data storage module set up in the central control box, just the data storage module with processor module electricity is connected.

In the preferred technical solution of the present invention, the communication link includes a wired link and/or a wireless link. The wired link is configured as a 485 bus or as an optical fiber. The wireless link is configured as a GPRS network or a WLAN network.

The utility model has the advantages that:

the utility model provides a geotechnical engineering reconnaissance safety monitoring network system based on cloud calculates, through pressure sensor and the camera that monitoring module connects, collect the on-the-spot geotechnical address condition data of geotechnical reconnaissance, on processor module carries the data receiving module in a long distance with data arrangement then through data transmission module, on the retransmission carries out data analysis and calculation to the cloud computing server, saved reconnaissance analysis's time greatly, improved reconnaissance analysis's efficiency.

Drawings

Fig. 1 is a schematic structural diagram of a surveying device in a geotechnical engineering surveying security monitoring network system based on cloud computing according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a network system in a geotechnical engineering investigation safety monitoring network system based on cloud computing according to a specific embodiment of the present invention.

Reference numerals:

1. the device comprises a support, 11, a spike nail, 21, a motor, 22, a sliding rail, 23, a drill rod, 24, a drill bit, 31, a pressure sensor, 32, a camera, 33, a tachometer, 4 and a central control box.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1-2, the embodiment provides a cloud computing-based geotechnical engineering investigation safety monitoring network system, which comprises a network system and a surveying device. The network system comprises a cloud computing server, a monitoring module, a processor module, a data sending module and a data receiving module. The surveying equipment comprises a camera 32, a pressure sensor 31, a drill rod 23, a drill bit 24, a motor 21, a stand 1, a slide rail 22, and a central control box 4. Slide rail 22 is vertically fixed in on the support 1, motor 21 sliding connection is on slide rail 22, drilling rod 23 sets up in the below of motor 21, and drilling rod 23 and the power take off end fixed connection of motor 21, pressure sensor 31 is fixed in the lower extreme of drilling rod 23, drill bit 24 is fixed in on pressure sensor 31's the measuring end, camera 32 is fixed in on the support 1, well accuse case 4 is fixed in one side of support 1, the monitoring module, the processor module, the data transmission module all sets up in well accuse case 4, the monitoring module respectively with pressure sensor 31, camera 32, the processor module electricity is connected, the processor module still is connected with the data transmission module electricity, the data receiving module is connected with cloud computing server electricity, the data transmission module passes through communication link with the data receiving module and is connected.

When carrying out geotechnical engineering investigation, at first, erect reconnaissance equipment on the geotechnical ground. The support 1 is beneficial to rock and soil on the ground, although the motor 21 can be started, the motor 21 drives the drill rod 23 to rotate, then the motor 21 slides downwards along the slide rail 22, the drill rod 23 pushes against the pressure sensor 31 and the drill bit 24 to press the surface of the rock and soil, and the drill bit 24 rotates to drill the rock and soil. The pressure sensor 31 can detect the pressure of the drill bit 24 against the rock soil, and the hardness of the rock soil can be known by monitoring the pressure. The camera 32 can photograph the color and the caking condition of the drilled rock and soil. The monitoring module in the central control box 4 transmits data transmitted by the pressure sensor 31 and the camera 32 to the processor module, the processor module processes the data and transmits the data to the data transmitting module, the data is transmitted to the remote data receiving module through the data transmitting module, the data receiving module immediately leads the data into the cloud computing server, and the data transmitted on site is analyzed and calculated by utilizing the strong computing capacity of the cloud computing server. Through the reconnaissance mode, on-site data can be rapidly operated, so that the reconnaissance time is greatly shortened, and the reconnaissance efficiency is improved.

The utility model discloses an in one embodiment, network system still includes the GPS module, and the GPS module sets up in central control box 4, and the GPS module is connected with the monitor module electricity. The GPS module can carry out more comprehensive data analysis on the geographical position of the probability survey point, including longitude and latitude, altitude and the like, and the Favor management personnel.

In an embodiment of the invention, the surveying device further comprises a tachometer 33, the tachometer 33 being fixed to the bottom of the motor 21, and the tachometer 33 being slidably connected to the drill rod 23, the tachometer 33 being electrically connected to the monitoring module. The tachometer 33 is configured to activate the tachometer 33, and can monitor the rotation speed of the drill rod 23 and send the rotation speed data to the cloud computing server for more comprehensive computational analysis.

In one embodiment of the present invention, a plurality of spikes 11 are fixed to the bottom of the bracket 1. The insertion of the spikes 11 into the ground may help the device to be more firmly anchored to the ground.

In an embodiment of the present invention, the communication network system further includes a data storage module, the data storage module is disposed in the central control box 4, and the data storage module is electrically connected to the processor module. When the data transmission module is not smoothly connected with the data connection module, the processor module temporarily stores the processed data on the data storage module, and transmits the data again when the communication connection is recovered.

In one embodiment of the present invention, the communication link includes a wired link and/or a wireless link. The wired link is configured as a 485 bus or as an optical fiber. The radio link is configured as a GPRS network or a WLAN network. The manager can select a wired or wireless mode to carry out communication connection according to actual conditions.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (6)

1. Geotechnical engineering reconnaissance safety monitoring network system based on cloud calculates, its characterized in that: comprises a network system and a survey device;

the network system comprises a cloud computing server, a monitoring module, a processor module, a data sending module and a data receiving module;

the surveying equipment comprises a camera (32), a pressure sensor (31), a drill rod (23), a drill bit (24), a motor (21), a bracket (1), a sliding rail (22) and a central control box (4);

the sliding rail (22) is vertically fixed on the support (1), the motor (21) is connected to the sliding rail (22) in a sliding mode, the drill rod (23) is arranged below the motor (21), the drill rod (23) is fixedly connected with the power output end of the motor (21), the pressure sensor (31) is fixed at the lower end of the drill rod (23), the drill bit (24) is fixed on the measuring end of the pressure sensor (31), the camera (32) is fixed on the support (1), the central control box (4) is fixed on one side of the support (1), the monitoring module, the processor module and the data sending module are all arranged in the central control box (4), and the monitoring module is electrically connected with the pressure sensor (31), the camera (32) and the processor module respectively, the processor module is also electrically connected with the data sending module, the data receiving module is electrically connected with the cloud computing server, and the data sending module is connected with the data receiving module through a communication link.

2. The cloud-computing-based geotechnical engineering investigation safety monitoring network system according to claim 1, wherein:

the network system further comprises a GPS module, the GPS module is arranged in the central control box (4), and the GPS module is electrically connected with the monitoring module.

3. The cloud-computing-based geotechnical engineering investigation safety monitoring network system according to claim 1, wherein:

the surveying equipment further comprises a tachometer (33), wherein the tachometer (33) is fixed at the bottom of the motor (21), the tachometer (33) is in sliding connection with the drill rod (23), and the tachometer (33) is electrically connected with the monitoring module.

4. The cloud-computing-based geotechnical engineering investigation safety monitoring network system according to claim 1, wherein:

the bottom of the bracket (1) is fixed with a plurality of barbed nails (11).

5. The cloud-computing-based geotechnical engineering investigation safety monitoring network system according to claim 1, wherein:

the network system further comprises a data storage module, the data storage module is arranged in the central control box (4), and the data storage module is electrically connected with the processor module.

6. The cloud-computing-based geotechnical engineering investigation safety monitoring network system according to claim 1, wherein:

the communication link comprises a wired link and/or a wireless link;

the wired link is configured as a 485 bus or an optical fiber;

the wireless link is configured as a GPRS network or a WLAN network.

Images