CN201489348U - Intelligentized data acquisition and remote monitoring system of engineering dewatering - Google Patents

Abstract

The utility model relates to an intelligentized data acquisition and remote monitoring system of engineering dewatering, which relates to the technical field of engineering management risk control. The intelligentized data acquisition and remote monitoring system solves the technical problem of the conventional intelligentized data acquisition and remote real-time monitoring system. The system comprises at least one data acquisition device, an on-site computer and a remote control center computer, wherein the data acquisition device comprises at least one data acquisition sensor, an engineering data acquisition instrument and remote real-time monitoring instruments; a memory is arranged in the engineering data acquisition instrument, and a data acquisition interface of the engineering data acquisition instrument is connected with the data acquisition sensors; data input ports of the remote real-time monitoring instruments are connected with a data output port of the engineering data acquisition instrument; the on-site computer is used for setting the engineering data acquisition instrument and the remote real-time monitoring instruments; and the remote control center computer is used for remote real-time monitoring, and a data communication module of each remote real-time monitoring instrument is connected with a data communication module of the remote control center computer. The intelligentized data acquisition and remote monitoring system can perform the remote real-time monitoring.

Description

Engineering dewatering intelligent data acquisition and long distance control system

Technical field

The utility model relates to the technology of engineering management risk control, particularly relates to a kind of engineering dewatering intelligent data acquisition of engineering dewatering and technology of long distance control system of being used for.

Background technology

In the engineering construction process, in the especially underground base pit engineering, need understand the engineering construction situation by monitoring various project data, to guarantee engineering construction safety.With underground base pit engineering is example, and may relate to the project data that needs to monitor in the engineering construction process has the inspection well water level of dewatering project, the pore water pressure that the monitoring works surrounding enviroment change etc.The acquisition mode of traditional project data to the need monitoring generally all adopts manually, single-point, carry out data acquisition discontinuously, in data acquisition, exist to be easy to generate human error, acquisition time is asynchronous, precision is not high, image data is discontinuous, data volume is few defective, and the manpower of required input is also more.

The existing supervisory system that is used for the engineering dewatering process, the field engineering data all need usually through supplying its application by mode remote transmission such as Email, instant messaging or public servicer data upload to remote computer again after the artificial data arrangement, there is certain hysteresis quality in the long-range data of obtaining, it is dynamic to be not easy in time to understand each engineering site, does not solve the problem of remote real-time monitoring.

The utility model content

At the defective that exists in the above-mentioned prior art, technical problem to be solved in the utility model provides a kind of automatic continuous acquisition that can carry out project data, reduce hand labor intensity, and data precision height, data volume are many, can also carry out remote real-time monitoring, making can omnidistance engineering dewatering intelligent data acquisition and the long distance control system of understanding the working-yard project data away from the personnel of engineering site.

In order to solve the problems of the technologies described above, a kind of engineering dewatering intelligent data acquisition provided by the utility model and long distance control system, it is characterized in that: comprise at least one data collector, on-site computer and remote control center computing machine, the corresponding precipitation scene of each data collector;

Described data collector comprises at least one data sampling sensor, project data Acquisition Instrument and remote real-time monitoring instrument; Described project data Acquisition Instrument is provided with data acquisition mouth, data output and computer interface, and is built-in with the storer that is used to store institute's image data, and its data acquisition mouth connects each data sampling sensor; Described remote real-time monitoring instrument is provided with data input port, computer interface and data communication module, and its data input port connects the data output of project data Acquisition Instrument;

The software that is used for setting of project data Acquisition Instrument and the setting of remote real-time monitoring instrument is housed in the described on-site computer, and is provided with the equipment connection port that is used to connect project data Acquisition Instrument and remote real-time monitoring instrument;

The monitoring software of real time data demonstration and real time data processing is housed in the described remote control center computing machine, and is provided with data communication module, the data communication module of each remote real-time monitoring instrument connects the data communication module of remote control center computing machine.

Further, the data communication module of the data communication module of described remote real-time monitoring instrument and remote control center computing machine is the wireless communication data card.

Engineering dewatering intelligent data acquisition and long distance control system that the utility model provides are carried out the automatic continuous acquisition of project data by data sampling sensor and project data Acquisition Instrument, can reduce hand labor intensity, and data precision height, data volume are many; By the remote real-time monitoring instrument project data of being gathered is sent to the remote control center computing machine in real time and carries out remote real-time monitoring, make personnel can omnidistancely understand the working-yard project data away from engineering site.

Description of drawings

Fig. 1 is the engineering dewatering intelligent data acquisition of the utility model embodiment and the structural representation of long distance control system;

Fig. 2 is the connection layout of each parts of the engineering dewatering intelligent data acquisition of the utility model embodiment and long distance control system.

Embodiment

Below in conjunction with description of drawings embodiment of the present utility model is described in further detail, but present embodiment is not limited to the utility model, every employing analog structure of the present utility model and similar variation thereof all should be listed protection domain of the present utility model in.

As shown in Figure 1, a kind of engineering dewatering intelligent data acquisition and long distance control system that the utility model embodiment is provided, it is characterized in that: comprise at least one data collector 2, on-site computer 3 (referring to Fig. 2) and remote control center computing machine 1, each data collector 2 corresponding precipitation scene;

As shown in Figure 2, described data collector comprises at least one data sampling sensor 4, project data Acquisition Instrument 5 and remote real-time monitoring instrument 6; Described project data Acquisition Instrument 5 is provided with data acquisition mouth, data output and computer interface, and is built-in with the storer that is used to store institute's image data, and its data acquisition mouth connects each data sampling sensor 4; Described remote real-time monitoring instrument 6 is provided with data input port, computer interface and data communication module, and its data input port connects the data output of project data Acquisition Instrument 5;

The software that is used for project data Acquisition Instrument setting (frequency acquisition, acquisition precision, data layout etc.), remote real-time monitoring instrument setting (transmission data layout, data transmission central etc.), real time data demonstration and real time data processing is housed in the described on-site computer 3, and is provided with the equipment connection port that is used to connect project data Acquisition Instrument 5 and remote real-time monitoring instrument 6;

The monitoring software of real time data demonstration and real time data processing is housed in the described remote control center computing machine 1, and is provided with data communication module, the data communication module of each remote real-time monitoring instrument 6 connects the data communication module of remote control center computing machine 1.

The data communication module of the data communication module of described remote real-time monitoring instrument 6 and remote control center computing machine 1 is wireless communication data card (home control network communication protocol data cards such as GSM, CDMA).

Among the utility model embodiment, can select the data of different types pick-up transducers according to the needs of each engineering.

To monitor an engineering is example, and the utility model embodiment implementation step is as follows:

1) demand of gathering according to project data, (as water level observation well or pore water pressure observation station etc.) insert corresponding data sampling sensor respectively in each acquisition target of need image data;

2) each data sampling sensor is connected to the data acquisition mouth of project data Acquisition Instrument by data line;

3) make on-site computer and the interconnection of project data Acquisition Instrument by the equipment connection port of on-site computer and the computer interface of project data Acquisition Instrument, project data Acquisition Instrument (frequency acquisition, acquisition precision, data layout etc.) is set by on-site computer;

4) send start command of acquisition by on-site computer to the project data Acquisition Instrument, the project data Acquisition Instrument receives the data sampling sensor of controlling in each acquisition target by setup parameter the instruction back and carries out the project data collection, and the data that collect are handled according to the data layout of setting, be stored to again in the storer of project data Acquisition Instrument;

In the project data gatherer process, can keep on-site computer to be connected with the normal of project data Acquisition Instrument, dynamically show the real time data of being gathered by on-site computer, also can handle making it show the Real-time and Dynamic change curve to real time data;

In the project data gatherer process, also can remove being connected of on-site computer and project data Acquisition Instrument, the project data Acquisition Instrument still can keep normal project data collection, processing and storage by setup parameter under the situation that does not have on-site computer to show in real time;

5) make on-site computer and the interconnection of remote real-time monitoring instrument by the equipment connection port of on-site computer and the computer interface of remote real-time monitoring instrument, remote real-time monitoring instrument (remote transmission data layout, wireless data transmission center etc.) is set by on-site computer;

6) the data input port of remote real-time monitoring instrument is connected to the data output of project data Acquisition Instrument;

7) transmission parameter (data layout etc.) of teledata is set in the remote control center computing machine, again with remote real-time monitoring instrument and remote control center computing machine through separately data communication module interconnection;

The project data that the project data Acquisition Instrument is gathered through remote real-time monitoring instrument real-time Transmission to the remote control center computing machine, and, also can handle making it show the Real-time and Dynamic change curve to real time data by the real time data that the demonstration of remote control center computer dynamic is gathered;

The remote control center computing machine also can be stored in data in the project data Acquisition Instrument internal memory by remote real-time monitoring instrument remote download;

In the above step, step 4,5,6 can be carried out the order transposing according to practical operation.

Among the utility model embodiment, remote control center calculates function and monitors the precipitation scene of a plurality of precipitation risks than large-engineering simultaneously by a plurality of data collectors, reduces engineering risk and handling cost.

Claims (2)

1. engineering dewatering intelligent data acquisition and long distance control system is characterized in that: comprise at least one data collector, on-site computer and remote control center computing machine, the corresponding precipitation scene of each data collector;

Described data collector comprises at least one data sampling sensor, project data Acquisition Instrument and remote real-time monitoring instrument; Described project data Acquisition Instrument is provided with data acquisition mouth, data output and computer interface, and is built-in with the storer that is used to store institute's image data, and its data acquisition mouth connects each data sampling sensor; Described remote real-time monitoring instrument is provided with data input port, computer interface and data communication module, and its data input port connects the data output of project data Acquisition Instrument;

The software that is used for setting of project data Acquisition Instrument and the setting of remote real-time monitoring instrument is housed in the described on-site computer, and is provided with the equipment connection port that is used to connect project data Acquisition Instrument and remote real-time monitoring instrument;

The monitoring software of real time data demonstration and real time data processing is housed in the described remote control center computing machine, and is provided with data communication module, the data communication module of each remote real-time monitoring instrument connects the data communication module of remote control center computing machine.

2. engineering dewatering intelligent data acquisition according to claim 1 and long distance control system is characterized in that: the data communication module of the data communication module of described remote real-time monitoring instrument and remote control center computing machine is the wireless communication data card.

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