CN212003150U - Multi-functional normal position survey system of static sounding based on APP technique - Google Patents

Abstract

The utility model discloses a multifunctional static sounding in-situ survey system based on APP technology, belonging to the technical field of geotechnical engineering survey, comprising a static sounding data collector, a wireless communication module and an APP terminal; the static sounding data collector is connected with the wireless communication module through a serial port, and the static sounding collector performs data interaction with the APP terminal through the wireless communication module; static sounding data collection station is used for surveying the soil layer characteristic information of soil layer to carry out data synthesis through the singlechip and calculate and send, and send the data signal after will calculating to the APP terminal through wireless communication module, the APP terminal is used for with surveyor's human-computer interaction, in order to acquire the soil layer characteristic data information of the soil layer of surveying. For traditional survey method, the utility model discloses a static sounding collector, wireless communication module and mobile terminal system can survey in real time and show the soil layer characteristic data of surveying, realize the wireless collection and the on-the-spot quality management of static sounding data.

Description

Multi-functional normal position survey system of static sounding based on APP technique

Technical Field

The utility model belongs to the technical field of engineering geological survey, especially, relate to a multi-functional normal position survey system of static sounding based on APP technique and survey method thereof.

Background

The static sounding technology is that a pressure device is used for pressing a sounding rod with a sounding head into a test soil layer, and a measurement system is used for testing the penetration resistance, the side wall friction resistance and the like of soil, so that certain basic physical and mechanical properties of the soil, such as the deformation modulus of the soil, the allowable bearing capacity of the soil and the like, can be determined.

The existing static sounding technology generally adopts a probe to detect a surveyed soil layer, and because the geographic position between an upper computer and the probe is far away (the probe is positioned in a surveying zone, and the upper computer is positioned in a laboratory), the current method is to copy the surveyed soil layer characteristic data through a U disk after the probe is detected, and then upload the soil layer characteristic data stored in the U disk to the upper computer after the probe returns to the laboratory, and display the surveyed soil layer characteristic data through the upper computer.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the technical problem who exists, provide a multi-functional normal position survey system of static sounding based on APP technique, can real-time demonstration survey's soil layer characteristic data through removing APP to realize on-the-spot quality control.

The purpose of the utility model is realized like this: the utility model provides a multi-functional normal position survey system of static sounding based on APP technique which characterized in that: the static sounding device comprises a static sounding data acquisition unit, a wireless communication module and an APP terminal; the static sounding data collector is connected with the wireless communication module through a serial port, and the static sounding collector performs data interaction with the APP terminal through the wireless communication module;

static sounding data collection station is used for surveying the soil layer characteristic information of soil layer to carry out data synthesis through the singlechip and calculate and send, and pass through data signal after wireless communication module will calculate send to the APP terminal, the APP terminal be used for with surveyor human-computer interaction, with the soil layer characteristic data information who acquires the soil layer of surveying.

Through adopting above-mentioned technical scheme, APP uses it in work as intelligent mobile terminal's application software, can effectual improvement work efficiency, moreover simpler, swift more. Through developing a cloud investigation APP, the soil layer characteristic data signal that will quiet sounding data collection station gather passes through on wireless communication module conveys mobile terminal's the cloud investigation APP, and then can real-time demonstration survey's soil layer characteristic data through the cloud investigation APP to realize field quality management.

The utility model discloses further set up to: the system comprises an APP terminal and is characterized by further comprising a cloud data server used for storing data information, wherein the APP terminal sends collected soil layer characteristic data information to the cloud data server through the Internet.

Through adopting above-mentioned technical scheme, high in the clouds data server is the soil layer characteristic data information that is used for the storage to survey to in coordination with the management, but also can avoid data loss.

The utility model discloses further set up to: the APP terminal is provided with a GPS positioning module, real-time position information of the APP terminal during working is identified and collected through a sensor system in the APP terminal and is bound with collected soil layer characteristic data information, the real-time position information is geographical position information of the static sounding data collector during data collection, and the APP terminal sends the collected soil layer characteristic data information and position information to a cloud data server through the Internet.

By adopting the technical scheme, the GPS positioning module is used for acquiring the geographical position information when the static sounding data acquisition unit acquires data so as to accurately survey the data; and binding the real-time position information with the soil layer characteristic data information to prevent a surveyor from randomly changing and avoid that the survey data is inconsistent with the actual data.

The utility model discloses further set up to: the APP terminal is provided with a time module, the time module identifies and collects time information of the APP terminal during working through a sensor system in the APP terminal and binds with collected soil layer characteristic data information, the time information is test starting time and test ending time when the static sounding data collector collects data, and the APP terminal sends the collected soil layer characteristic data information, position information and time information to the cloud data server through the Internet.

By adopting the technical scheme, the time module is used for acquiring the information of the test starting time and the test ending time when the static sounding data acquisition unit acquires data so as to accurately survey the data; and binding the time information with the soil layer characteristic data information to prevent a surveyor from randomly changing and avoid that the survey data is inconsistent with the actual data.

The utility model discloses further set up to: the APP terminal is provided with a local data storage module and used for storing information of the static sounding data collector of different models and soil layer characteristic data information collected by the static sounding data collector of different models, and the APP terminal sends collected soil layer characteristic data information, position information, time information and the IMEI code of the used static sounding data collector to the cloud data server through the Internet.

By adopting the technical scheme, the local data storage module is used for storing the information of the static sounding data collectors of different models and the soil layer characteristic data information collected by the static sounding data collectors of different models, so that the data management is facilitated, and the chaos after the survey data increase is avoided.

The utility model discloses further set up to: the static sounding data collector is a rod type static sounding probe, and the rod type static sounding probe comprises a data acquisition module, an inclination measurement module and a data processing module, wherein the data acquisition module is used for surveying soil characteristic signals inside a soil layer and outputting the soil characteristic data signals, the inclination measurement module is used for detecting the inclination angle of the data acquisition module during inclination and outputting the inclination data signals, and the data processing module is used for comprehensively processing the soil characteristic data signals acquired by the data acquisition module and the inclination data signals acquired by the inclination measurement module.

By adopting the technical scheme, the rod type static sounding probe can test the specific penetration resistance, the cone end resistance, the side friction resistance, the pore water pressure, the inclination angle, the temperature and the like of a soil layer, and can prompt the test precision to 0.1% FS.

The utility model discloses further set up to: the data processing module comprises an MSP430G2553 single chip microcomputer and an STM32F103VET6 single chip microcomputer, the MSP430G2553 single chip microcomputer is used for integrating data acquired by the data acquisition module and the inclinometer module, generating a digital signal and sending the digital signal to the MSP430G2553 single chip microcomputer, the MSP430G2553 single chip microcomputer receives the digital signal, performs calculation processing on the digital signal and sends the calculated digital signal to the APP terminal through the wireless communication module.

A surveying method for the multifunctional static sounding in-situ surveying system based on the APP technology is characterized in that: comprises the following steps of (a) carrying out,

1) surveying the soil layer: the method comprises the following steps that a mechanical penetration device is adopted to press a static sounding data collector into a soil layer, then the static sounding data collector is started and carries out data collection on soil layer characteristics of the soil layer, wherein the data collection comprises specific penetration resistance, cone end resistance, side friction resistance, pore water pressure, an inclination angle and temperature;

2) human-computer interaction: a surveyor uploads the specific model of the used static sounding data collector to a local data storage module by operating the APP terminal, wirelessly connects the APP terminal with a wireless communication module, and displays data signals collected by the static sounding data collector on the APP terminal through the wireless communication module or downloads the data signals to the local data storage module;

3) uploading a cloud: and uploading the data signals to a cloud data server through the Internet so as to facilitate data concentration.

The utility model has the advantages that: 1. compared with the traditional surveying method, the utility model discloses a static sounding collector, wireless communication module and mobile terminal system can survey and display the soil layer characteristic data of surveying in real time, realize the wireless collection and the on-the-spot quality management of static sounding data; 2. by arranging the GPS positioning module, the time module and the local data storage module, accurate survey data and data management are facilitated.

Drawings

Fig. 1 is a block diagram of the system architecture of the present invention;

the reference numbers in the figures are: 100. a static sounding data collector; 101. a data acquisition module; 102. an inclination measuring module; 103. a data processing module; 200. a wireless communication module; 300. an APP terminal; 301. a GPS positioning module; 302. a time module; 303. a local data storage module; 400. and a cloud data server.

Detailed Description

In order to make the technical solutions in the present invention better understood by those skilled in the art, the technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the accompanying drawings:

a multifunctional static sounding in-situ survey system based on an APP technology, as shown in fig. 1, includes a static sounding data collector 100, a wireless communication module 200, and an APP terminal 300; the static sounding data collector 100 is connected with the wireless communication module 200 through a serial port, and performs data interaction with the APP terminal 300 through the wireless communication module 200;

static sounding data collection station 100 is used for surveying the soil layer characteristic information of soil layer to carry out data synthesis through the singlechip and calculate and send, and send the data signal after will calculating to APP terminal 300 through wireless communication module 200, APP terminal 300 is used for with surveying person's human-computer interaction, in order to obtain the soil layer characteristic data information of the soil layer of surveying.

APP is used as application software of the intelligent mobile terminal 300, and the APP is applied to work, so that the work efficiency can be effectively improved, and the APP is simpler and quicker. Through developing a cloud investigation, on the soil layer characteristic data signal who will gather static sounding data collection station 100 conveys mobile terminal 300's cloud investigation APP through wireless communication module 200, and then can real-time demonstration surveyed soil layer characteristic data through cloud investigation APP to realize on-the-spot quality management, wherein wireless communication module 200 adopts be bluetooth module, what APP terminal 300 adopted is cell-phone or panel computer.

Preferably, the survey system further comprises a cloud data server 400 for storing data information, and the APP terminal 300 sends the collected soil characteristic data information to the cloud data server 400 through the internet.

The cloud data server 400 is used for storing the surveyed soil characteristic data information, so as to facilitate cooperative management and avoid data loss.

Optimized, the APP terminal 300 has a GPS positioning module 301, recognizes and collects real-time position information of the APP terminal 300 during operation through a sensor system provided therewith and binds with collected soil property data information, the real-time position information is geographical position information when the static sounding data collector 100 collects data, and the APP terminal 300 sends collected soil property data information and position information to the cloud data server 400 through the internet.

The GPS positioning module 301 is used for acquiring geographical position information when the static sounding data acquisition device 100 acquires data, so as to accurately survey data; and binding the real-time position information with the soil layer characteristic data information to prevent a surveyor from randomly changing and avoid that the survey data is inconsistent with the actual data.

Optimized, the APP terminal 300 has a time module 302, the time information of the APP terminal 300 during operation is identified and collected through a sensor system in the APP terminal and is bound with the collected soil characteristic data information, the time information is the test start time and the test end time when the static sounding data collector 100 collects data, and the APP terminal 300APP sends the collected soil characteristic data information and the position information and the time information to the cloud data server 400 through the internet.

The time module 302 is used for acquiring information of the test start time and the test end time when the static cone penetration data acquisition device 100 acquires data so as to accurately survey the data; and binding the time information with the soil layer characteristic data information to prevent a surveyor from randomly changing and avoid that the survey data is inconsistent with the actual data.

Optimally, the APP terminal 300 has a local data storage module 303 for storing information of different types of static sounding data collectors 100 and soil layer characteristic data information collected by different types of static sounding data collectors 100, and the APP terminal 300 sends collected soil layer characteristic data information, position information, time information, and the used IMEI code of the static sounding data collector 100 to the cloud data server 400 through the internet.

The local data storage module 303 is configured to store information of different types of static cone penetration data collectors 100 and soil layer characteristic data information collected by different types of static cone penetration data collectors 100, so as to facilitate data management and avoid confusion after survey data increase.

Preferably, the static cone penetration data acquisition unit 100 is a rod type static cone penetration probe, and the rod type static cone penetration probe comprises a data acquisition module 101 for surveying soil characteristic signals inside a soil layer and outputting the soil characteristic data signals, an inclination measurement module 102 for detecting an inclination angle of the data acquisition module 101 during inclination and outputting the inclination data signals, and a data processing module 103 for comprehensively processing the soil characteristic data signals acquired by the data acquisition module 101 and the inclination data signals acquired by the inclination measurement module 102.

The rod type static sounding probe can test the specific penetration resistance, the cone end resistance, the side friction resistance, the pore water pressure, the inclination angle, the temperature and the like of a soil layer, and can prompt the test precision to 0.1% FS.

Preferably, the data processing module 103 includes an MSP430G2553 single chip microcomputer and an STM32F103VET6 single chip microcomputer, the MSP430G2553 single chip microcomputer is used for integrating data acquired by the data acquisition module 101 and the inclinometer module 102, generating a digital signal and sending the digital signal to the MSP430G2553 single chip microcomputer, and the MSP430G2553 single chip microcomputer receives the digital signal, performs calculation processing, and sends the calculated digital signal to the APP terminal 300 through the wireless communication module 200.

A surveying method for the multifunctional static sounding in-situ surveying system based on the APP technology is characterized in that: comprises the following steps of (a) carrying out,

1) surveying the soil layer: the static sounding data acquisition device 100 is pressed into a soil layer by a mechanical penetration device, then the static sounding data acquisition device 100 is started, and the static sounding data acquisition device 100 carries out data acquisition on soil layer characteristics of the soil layer, wherein the data acquisition comprises specific penetration resistance, cone end resistance, side friction resistance, pore water pressure, an inclination angle and temperature;

2) human-computer interaction: a surveyor uploads a specific model of the used static sounding data collector 100 to a local data storage module 303 by operating the APP terminal 300, wirelessly connects the APP terminal 300 with the wireless communication module 200, and displays a data signal collected by the static sounding data collector 100 on the APP terminal 300 through the wireless communication module 200 or downloads the data signal into the local data storage module 303;

3) uploading a cloud: the data signal is uploaded to the cloud data server 400 through the internet, so as to facilitate data concentration.

The above embodiments are only preferred embodiments of the present invention, not all embodiments, and other embodiments obtained based on the above embodiments by those skilled in the art without any creative work shall fall within the protection scope of the present invention, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (7)

1. The utility model provides a multi-functional normal position survey system of static sounding based on APP technique which characterized in that: the static sounding data acquisition device comprises a static sounding data acquisition unit (100), a wireless communication module (200) and an APP terminal (300); the static sounding data collector (100) is connected with the wireless communication module (200) through a serial port, and performs data interaction with the APP terminal (300) through the wireless communication module (200);

static sounding data collection station (100) are used for surveying the soil layer characteristic information of soil layer to carry out data synthesis through the singlechip and calculate and send, and pass through wireless communication module (200) with data signal after calculating send to APP terminal (300), APP terminal (300) are used for with surveyor's human-computer interaction, in order to obtain the soil layer characteristic data information who surveys.

2. The APP technology-based static sounding multifunctional in-situ survey system according to claim 1, wherein: the system is characterized by further comprising a cloud data server (400) used for storing data information, and the APP terminal (300) sends the collected soil layer characteristic data information to the cloud data server (400) through the Internet.

3. The APP technology-based static sounding multifunctional in-situ survey system according to claim 2, wherein: APP terminal (300) have GPS orientation module (301), through the sensor system discernment of taking certainly and gather APP terminal (300) during operation real-time positional information and bind with the soil layer characteristic data information who gathers, this real-time positional information is geographical positional information when static sounding data collection station (100) data collection, APP terminal (300) send the soil layer characteristic data information and the positional information who gathers to high in the clouds data server (400) through the internet.

4. The APP technology-based static sounding multifunctional in-situ survey system according to claim 3, wherein: APP terminal (300) have time module (302), through the sensor system discernment of taking certainly and gather the time information of APP terminal (300) during operation and bind with the soil layer characteristic data information who gathers, this time information is experimental inception time and experimental end time when static sounding data collection station (100) data collection, APP terminal (300) send the soil layer characteristic data information and positional information, the time information who gathers to high in the clouds data server (400) through the internet.

5. The APP technology-based static sounding multifunctional in-situ survey system according to claim 4, wherein: the APP terminal (300) is provided with a local data storage module (303) and used for storing information of the static sounding data collector (100) of different models and soil layer characteristic data information collected by the static sounding data collector (100) of different models, and the APP terminal (300) sends collected soil layer characteristic data information, position information, time information and the IMEI code of the used static sounding data collector (100) to the cloud data server (400) through the Internet.

6. A multifunctional static sounding in-situ survey system based on APP technology according to any of claims 1-5, characterized by: the static sounding data collector (100) is a rod type static sounding probe, and the rod type static sounding probe comprises a data collecting module (101) for surveying soil characteristic signals inside a soil layer and outputting the soil characteristic data signals, an inclination measuring module (102) for detecting an inclination angle of the data collecting module (101) during inclination and outputting the inclination data signals, and a data processing module (103) for comprehensively processing the soil characteristic data signals collected by the data collecting module (101) and the inclination data signals collected by the inclination measuring module (102).

7. The APP technology-based static sounding multifunctional in-situ survey system according to claim 6, wherein: the data processing module (103) comprises an MSP430G2553 single chip microcomputer and an STM32F103VET6 single chip microcomputer, the MSP430G2553 single chip microcomputer is used for integrating data acquired by the data acquisition module (101) and the inclinometer module (102), generating digital signals and sending the digital signals to the MSP430G2553 single chip microcomputer, the MSP430G2553 single chip microcomputer receives the digital signals, performs calculation processing on the digital signals and sends the calculated digital signals to the APP terminal (300) through the wireless communication module (200).

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