CN102296583A - In situ test acquisition instrument with wireless transmitting function and wireless transmitting method thereof - Google Patents

Abstract

The invention discloses an in situ test acquisition instrument with a wireless transmitting function. A built-in GPRS (general packet radio service) module is added on the basis of a traditional in situ test acquisition instrument so as to ensure that the in situ test acquisition instrument has the wireless transmitting function, thus being capable of transmitting field in situ test data to a client electronic mailbox through a wireless network, therefore, the in situ test acquisition instrument is not required to be carried in a room or a portable computer is not required to be carried by a special person to a construction site for collecting data, thus the working efficiency can be greatly increased. The invention also discloses a wireless transmitting method of the in situ test acquisition instrument.

Description

The in-situ test Acquisition Instrument and the wireless transmission method thereof that possess wireless communication functions

Technical field

The present invention relates to the method and system of in-situ test, relate in particular to a kind of in-situ test Acquisition Instrument and wireless transmission method thereof that possesses wireless communication functions.

Background technology

In geotechnical investigation, in-situ test is important surveying method, the field operation test data adopts in-situ test Acquisition Instrument record, but the in-situ test Acquisition Instrument that uses does not have wireless communication functions at present, could manually be carried to the indoor computer that is input to after the data of field test collection can only be gathered by the time and be finished, or portable computer be taken to take to indoorly after collect the job site again, it is not prompt enough to collect data, the industry data to arrange is particularly very big to tight effect of project of duration in having a strong impact on.

Summary of the invention

Because the above-mentioned defective of prior art, technical problem to be solved by this invention provides a kind of in-situ test Acquisition Instrument and wireless transmission method thereof that the field operation test data can be sent to client's e-mail, significantly increase work efficiency by wireless network.

For achieving the above object, the invention provides a kind of in-situ test Acquisition Instrument that possesses wireless communication functions, comprise AD converting unit, single-chip microcomputer process chip, display screen and GPRS module, wherein: described AD converting unit is used to receive analog signal and described analog signal conversion is become data signal, then described data signal is sent to described single-chip microcomputer process chip, described analog signal comprises penetration resistance data and the corresponding ground depth data thereof that the in-situ test probe sensor acquisition arrives; Described single-chip microcomputer process chip is used to handle the field operation test data, wherein said field operation test data comprises Information Monitoring data, described penetration resistance data and corresponding ground depth data, and described Information Monitoring data comprise engineering name, job number, exploratory hole hole number and design hole depth; Described display screen is connected with described single-chip microcomputer process chip, is used to show the described field operation test data of handling through the single-chip microcomputer process chip; Described GPRS module is used for the described field operation test data of handling through the single-chip microcomputer process chip is sent to client's e-mail.

In the technique scheme, described AD converting unit is a multichannel AD converting unit.

In the technique scheme, described display screen is touch dot matrix display screen.

In the technique scheme, described touch dot matrix display screen also is used to show the data and curves of described field operation test data formation after described single-chip microcomputer process chip is handled.

In the technique scheme, described in-situ test Acquisition Instrument comprises that also exploratory hole information test data stores card, described exploratory hole information test data stores card and is connected with described single-chip microcomputer process chip, is used to store described field operation test data after the single-chip microcomputer process chip is handled.

In the technique scheme, described GPRS module also is used for described data and curves is sent to described client's e-mail.

In the technique scheme, described in-situ test Acquisition Instrument complete machine adopts the design of 3.3V voltage.

In the technique scheme, described single-chip microcomputer process chip is 8 low-power consumption high-speed microprocessors.

In the technique scheme, described AD converting unit is 24 AD conversions of multiplication factor high-acruracy survey able to programme special integrated chip of U.S. ADI company.

The present invention also provides a kind of wireless transmission method of in-situ test Acquisition Instrument, comprises the steps:

Start the in-situ test Acquisition Instrument, and the input Information Monitoring, described Information Monitoring comprises engineering name, job number, exploratory hole hole number and design hole depth;

Carry out in-situ test work: whenever go deep into ground Xcm by the in-situ test probe sensor and gather penetration resistance data, write down corresponding ground depth data simultaneously, and the described penetration resistance data of being gathered and the corresponding ground depth data mode with analog signal is sent in the AD converting unit, described X value is set according to different engineerings, and its scope is 8≤X≤12;

Described AD converting unit is a data signal with described analog signal conversion, and described data signal is sent to described single-chip microcomputer process chip handles;

The field operation test data is after described single-chip microcomputer process chip is handled, on the display screen that described in-situ test Acquisition Instrument carries, show, simultaneously send to client's e-mail by the GPRS module with the mode real-time radio of data signal, described field operation test data comprises described penetration resistance data and corresponding ground depth data and described Information Monitoring;

Described client's e-mail receives described field operation test data in real time.

In the technique scheme, described AD converting unit adopts multichannel AD converting unit.

In the technique scheme, described display screen is touch dot matrix display screen.

In the technique scheme, described in-situ test probe sensor whenever gos deep into ground 10cm and gathers penetration resistance data.

In the technique scheme, described field operation test data is stored in the exploratory hole information test data storage card that described in-situ test Acquisition Instrument carries after described single-chip microcomputer process chip is handled.

In the technique scheme, described field operation test data forms data and curves after described single-chip microcomputer process chip is handled, and described data and curves shows on described touch dot matrix display screen.

In the technique scheme, described data and curves sends to client's e-mail by described GPRS module with the mode real-time radio of data signal.

In the technique scheme, described in-situ test Acquisition Instrument complete machine adopts the design of 3.3V voltage.

In the technique scheme, described single-chip microcomputer process chip adopts 8 low-power consumption high-speed microprocessors.

The present invention loads built-in GPRS module on the basis of existing in-situ test Acquisition Instrument, make it have wireless communication functions, field operation in-situ test data can be sent in client's e-mail by wireless network, so just needn't take to the in-situ test Acquisition Instrument indoor again or the special messenger is with portable computer to collect data to the job site, can increase work efficiency greatly.

Be described further below with reference to the technique effect of accompanying drawing, to understand purpose of the present invention, feature and effect fully design of the present invention, concrete structure and generation.

Description of drawings

Fig. 1 is the workflow one-tenth figure of a preferred embodiment of the present invention.

The specific embodiment

As shown in Figure 1, the invention discloses a kind of in-situ test Acquisition Instrument that possesses wireless communication functions, comprise that multichannel AD converting unit, single-chip microcomputer process chip, exploratory hole information test data store card, touch dot matrix display screen and GPRS module; Described multichannel AD converting unit is used to receive analog signal and described analog signal conversion is become data signal, then described data signal is sent to described single-chip microcomputer process chip, described analog signal comprises penetration resistance data and the corresponding ground depth data thereof that the in-situ test probe sensor acquisition arrives; Described single-chip microcomputer process chip is used to handle the field operation test data and forms data and curves, and wherein said field operation test data comprises Information Monitoring and described penetration resistance data and corresponding ground depth datas such as engineering name, job number, exploratory hole hole number, design hole depth; Described exploratory hole information test data stores card and is connected with described single-chip microcomputer process chip, is used to store described field operation test data after the single-chip microcomputer process chip is handled; Described touch dot matrix display screen is connected with described single-chip microcomputer process chip, is used to show described field operation test data and the data and curves of handling through the single-chip microcomputer process chip thereof; Described GPRS module is used for the described field operation test data of handling through the single-chip microcomputer process chip and data and curves thereof are sent to described client's e-mail in the mode of data signal, and it is indoor to have realized that outdoor data in time is sent to, and has significantly improved operating efficiency.

The invention also discloses a kind of wireless transmission method of in-situ test Acquisition Instrument, comprise the steps:

Start the in-situ test Acquisition Instrument, and the input Information Monitoring, described Information Monitoring comprises engineering name, job number, exploratory hole hole number and design hole depth.

Carry out in-situ test work: with in-situ test probe injection ground, described in-situ test probe whenever gos deep into ground 10cm, penetration resistance data of sensor acquisition on the probe, the corresponding ground depth data of record simultaneously, and the described penetration resistance data of being gathered and the corresponding ground depth data mode with analog signal is sent in the multichannel AD converting unit.

Described AD converting unit is a data signal with described analog signal conversion, and described data signal is sent to described single-chip microcomputer process chip handles.

The field operation test data forms data and curves after described single-chip microcomputer process chip is handled, and on the touch dot matrix display screen that described in-situ test Acquisition Instrument carries, show, making things convenient for the field operation operating personnel to read, send to client's e-mail by the GPRS module with the mode real-time radio of data signal simultaneously; Described field operation test data is after described single-chip microcomputer process chip is handled, be stored in the exploratory hole information test data storage card that described in-situ test Acquisition Instrument carries, described field operation test data comprises described Information Monitoring and described penetration resistance data and corresponding ground depth data.

Described client's e-mail receives described field operation test data and data and curves thereof in real time.

In above-mentioned two technical schemes, wherein in-situ test Acquisition Instrument complete machine chip adopts the 3.3V low voltage designs, has reduced Overall Power Consumption, and wherein the single-chip microcomputer process chip is 8 low-power consumption high-speed microprocessors.And the AD converting unit is 24 AD conversions of multiplication factor high-acruracy survey able to programme special integrated chip of U.S. ADI company, helps improving acquisition precision.

More than describe preferred embodiment of the present invention in detail.The ordinary skill that should be appreciated that this area need not creative work and just can design according to the present invention make many modifications and variations.Therefore, all technician in the art all should be in the determined protection domain by claims under this invention's idea on the basis of existing technology by the available technical scheme of logical analysis, reasoning, or a limited experiment.

Claims (18)

1. in-situ test Acquisition Instrument that possesses wireless communication functions, comprise AD converting unit, single-chip microcomputer process chip, display screen and GPRS module, wherein: described AD converting unit is used to receive analog signal and described analog signal conversion is become data signal, then described data signal is sent to described single-chip microcomputer process chip, described analog signal comprises penetration resistance data and the corresponding ground depth data thereof that the in-situ test probe sensor acquisition arrives; Described single-chip microcomputer process chip is used to handle the field operation test data, wherein said field operation test data comprises Information Monitoring data, described penetration resistance data and corresponding ground depth data, and described Information Monitoring data comprise engineering name, job number, exploratory hole hole number and design hole depth; Described display screen is connected with described single-chip microcomputer process chip, is used to show the described field operation test data of handling through the single-chip microcomputer process chip; Described GPRS module is used for the described field operation test data of handling through the single-chip microcomputer process chip is sent to client's e-mail.

2. the in-situ test Acquisition Instrument that possesses wireless communication functions as claimed in claim 1, wherein, described AD converting unit is a multichannel AD converting unit.

3. the in-situ test Acquisition Instrument that possesses wireless communication functions as claimed in claim 1, wherein, described display screen is touch dot matrix display screen.

4. the in-situ test Acquisition Instrument that possesses wireless communication functions as claimed in claim 3, wherein, described touch dot matrix display screen also is used to show the data and curves of described field operation test data formation after described single-chip microcomputer process chip is handled.

5. the in-situ test Acquisition Instrument that possesses wireless communication functions as claimed in claim 1, wherein, described in-situ test Acquisition Instrument comprises that also exploratory hole information test data stores card, described exploratory hole information test data stores card and is connected with described single-chip microcomputer process chip, is used to store described field operation test data after the single-chip microcomputer process chip is handled.

6. the in-situ test Acquisition Instrument that possesses wireless communication functions as claimed in claim 4, wherein, described GPRS module also is used for described data and curves is sent to described client's e-mail.

7. the in-situ test Acquisition Instrument that possesses wireless communication functions as claimed in claim 1, wherein, described in-situ test Acquisition Instrument complete machine adopts the design of 3.3V voltage.

8. the in-situ test Acquisition Instrument that possesses wireless communication functions as claimed in claim 1, wherein, described single-chip microcomputer process chip is 8 low-power consumption high-speed microprocessors.

9. the in-situ test Acquisition Instrument that possesses wireless communication functions as claimed in claim 1, wherein, described AD converting unit is 24 AD conversions of multiplication factor high-acruracy survey able to programme special integrated chip of U.S. ADI company.

10. the wireless transmission method of an in-situ test Acquisition Instrument comprises the steps:

Start the in-situ test Acquisition Instrument, and the input Information Monitoring, described Information Monitoring comprises engineering name, job number, exploratory hole hole number and design hole depth;

Carry out in-situ test work: whenever go deep into ground Xcm by the in-situ test probe sensor and gather penetration resistance data, write down corresponding ground depth data simultaneously, and the described penetration resistance data of being gathered and the corresponding ground depth data mode with analog signal is sent in the AD converting unit, described X value is set according to different engineerings, and its scope is 8≤X≤12;

Described AD converting unit is a data signal with described analog signal conversion, and described data signal is sent to described single-chip microcomputer process chip handles;

The field operation test data is after described single-chip microcomputer process chip is handled, on the display screen that described in-situ test Acquisition Instrument carries, show, simultaneously send to client's e-mail by the GPRS module with the mode real-time radio of data signal, described field operation test data comprises described penetration resistance data and corresponding ground depth data and described Information Monitoring.

11. the wireless transmission method of in-situ test Acquisition Instrument as claimed in claim 10, wherein, described AD converting unit adopts multichannel AD converting unit.

12. the wireless transmission method of in-situ test Acquisition Instrument as claimed in claim 10, wherein, described display screen is touch dot matrix display screen.

13. the wireless transmission method of in-situ test Acquisition Instrument as claimed in claim 10, wherein, described in-situ test probe sensor whenever gos deep into ground 10cm and gathers penetration resistance data.

14. the wireless transmission method of in-situ test Acquisition Instrument as claimed in claim 10, wherein, described field operation test data is stored in the exploratory hole information test data storage card that described in-situ test Acquisition Instrument carries after described single-chip microcomputer process chip is handled.

15. the wireless transmission method of in-situ test Acquisition Instrument as claimed in claim 12, wherein, described field operation test data forms data and curves after described single-chip microcomputer process chip is handled, and described data and curves shows on described touch dot matrix display screen.

16. the wireless transmission method of in-situ test Acquisition Instrument as claimed in claim 15, wherein, described data and curves sends to described client's e-mail by described GPRS module with the mode real-time radio of data signal.

17. the wireless transmission method of in-situ test Acquisition Instrument as claimed in claim 10, wherein, described in-situ test Acquisition Instrument complete machine adopts the design of 3.3V voltage.

18. the wireless transmission method of in-situ test Acquisition Instrument as claimed in claim 10, wherein, described single-chip microcomputer process chip adopts 8 low-power consumption high-speed microprocessors.

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