CN201915947U - Wireless data monitoring device - Google Patents

Abstract

The utility model discloses a wireless data monitoring devices, including pressure transmitter, data acquisition and wireless transmitting unit and well control device parameter record appearance, pressure transmitter is connected with the well control device, and pressure transmitter is connected with data acquisition and wireless transmitting unit and well control device parameter record appearance respectively, and data acquisition and wireless transmitting unit gather pressure signal and send pressure signal for well control device parameter record appearance. The utility model discloses can realize well control device pressure monitoring safely, effectively, can carry out data acquisition and control through wireless mode, ensure that well control device is safe effective, ensure safe well drilling.

Description

Wireless Data Monitoring Device

technical field

The utility model belongs to the technical field of oil and gas drilling well control device detection, in particular to a wireless data monitoring device of a well control device, which is used for pressure data collection during the pressure test of oil and natural gas drilling well control devices, and is also suitable for other needs. The field of data monitoring and control.

Background technique

At present, the drilling site mainly uses a high-pressure pump to pressurize, and then manually reads the pressure gauge for pressure testing. Due to the backward pressure test technology, the pressure test process is not standardized; there are great safety hazards for operators approaching the pressure test equipment; the pressure test results are not intuitive and have large errors. Some also use the method in the Chinese patent "200610022700.6". The application date of this patent is December 29, 2006, and the disclosure date is August 15, 2007. It includes a virtual instrument system for collecting, controlling and analyzing data. The virtual instrument system includes a hydraulic clamp, a hydraulic power station, a pressure test pump group, an industrial control computer, a data acquisition module, a data processing module, and an automatic control module; the virtual instrument system communicates with the hydraulic power station and the pressure test pump through the data acquisition module The electromagnetic valve and pressure temperature sensor installed on the group are connected to collect data, and after the data processing module processes, the automatic control module automatically controls the operation of the hydraulic power station and the pressure test pump group.

However, the above-mentioned patented technology and existing similar products generally can only measure the test pressure through wired methods, but the transmission distance is relatively short (generally no more than 30m), and wireless remote test pressure cannot be realized. At the same time, the functions of the existing products are simple and cannot realize single-machine multi-point measurement and equipment control functions; the test data cannot be transmitted through the network, which is not convenient for the management department to keep abreast of the site situation; the format of the test report cannot meet the latest pressure test standard requirements; the operation interface is not enough User-friendly, there are many loopholes in the software.

Utility model content

The purpose of this utility model is to overcome the above-mentioned problems existing in the detection of existing oil and gas drilling well control devices, and to provide a wireless data monitoring device. Acquisition and control to ensure the safety and effectiveness of well control devices and ensure safe drilling.

In order to achieve the above object, the technical scheme adopted by the utility model is as follows:

A wireless data monitoring device, characterized in that it includes a pressure transmitter, a data acquisition and wireless sending unit, and a well control device parameter recorder, the pressure transmitter is connected to the well control device, and the pressure transmitter is connected to the data The acquisition and wireless transmission unit is connected to the parameter recorder of the well control device, and the data acquisition and wireless transmission unit collects pressure signals and sends the pressure signal to the parameter recorder of the well control device.

The utility model also includes a remote management center for receiving the data transmitted by the parameter recorder of the well control device, querying and analyzing the data and making decisions through the data.

The pressure transmitter is connected with the pressure measurement and control interface of the well control device.

The data collection and wireless sending unit is provided with a wireless communication module and a serial communication interface.

The parameter recorder of the well control device is a touch-type micro-industrial computer equipped with a wireless data receiving module and a general-purpose computer interface.

The advantage of adopting the utility model is:

1. The pressure transmitter of the utility model is connected with the well control device, and the pressure transmitter is respectively connected with the data acquisition and wireless transmission unit and the parameter recorder of the well control device, which can safely and effectively realize the pressure monitoring of the well control device, and can pass Data collection and control are carried out wirelessly. The data collection and wireless transmission unit collects pressure signals and sends them to the parameter recorder of the well control device, which can ensure the safety and effectiveness of the well control device and ensure safe drilling.

2. The utility model can effectively extend the distance between the test equipment and the operator, the test process is safer, and the test results are more intuitive and accurate. At the same time, it can also improve the management level of the well control department, keep abreast of the on-site pressure test conditions, and make Making decisions can guarantee the authenticity of the pressure test process.

3. The effective wireless communication distance of the utility model can reach 300m, and the wired communication distance can reach 1500m. The test data can be displayed intuitively in the form of a curve, and it has an overpressure alarm function. It can also analyze and control in time according to the pressure situation on site. The start and stop of the high-pressure pump realizes the automatic control function, and at the same time, other on-site parameters, such as toxic and harmful gases, can be measured by replacing the sensor.

Description of drawings

Fig. 1 is a structural block diagram of the utility model.

Detailed ways

A wireless data monitoring device, comprising a pressure transmitter, a data acquisition and wireless transmission unit and a well control device parameter recorder, the pressure transmitter is connected to the well control device, and the pressure transmitter is connected to the data acquisition and wireless transmission unit respectively The unit is connected to the parameter recorder of the well control device, and the data acquisition and wireless sending unit collects pressure signals and sends the pressure signal to the parameter recorder of the well control device.

The utility model also includes a remote management center for receiving the data transmitted by the parameter recorder of the well control device, querying and analyzing the data and making decisions through the data.

In the utility model, the pressure transmitter is connected with the pressure measurement and control interface of the well control device. The data collection and wireless sending unit is provided with a wireless communication module and a serial communication interface. The parameter recorder of the well control device is a touch-type micro-industrial computer equipped with a wireless data receiving module and a general-purpose computer interface.

The utility model is described below:

The pressure vessel at the test site is a vessel that needs to be tested on site and is connected to a pressure transmitter. The pressure transmitter is connected with the data acquisition and wireless sending unit by wire for data acquisition. The data acquisition and wireless transmission unit has a built-in ultra-low-power single-chip microcomputer that can accurately collect pressure signals and send the signals to the parameter recorder of the well control device in a wireless manner. The data acquisition and wireless sending unit has a 433MHz wireless communication module and an RS485 serial communication interface. It can establish communication with the parameter recorder of the well control device in a wireless way, and can also communicate with it in a wired way through the RS485 serial port line in the case of strong interference. Its effective wireless communication distance can reach 300m, and the wired communication distance can reach 1500m. The parameter recorder of the well control device adopts a touch-type micro-industrial computer with a 433MHz wireless data receiving module and other general-purpose computer interfaces. It stores the raw data of the pressure signal collected on site. The parameter recorder of the well control device can query and analyze the stored data. The test data is displayed intuitively in the form of a curve, and has an overpressure alarm function. At the same time, it can also analyze and control the start and stop of the high-pressure pump in time according to the pressure situation on site, so as to realize the automatic control function.

The parameter recorder of the well control device can also send the original test data to the remote management center through the network. The management center can obtain the status of the on-site pressure test in time by querying and analyzing the data, and make correct decisions. At the same time, this method can also measure other field parameters, such as poisonous and harmful gases, etc. by replacing the sensor.

Claims (5)

1. A wireless data monitoring device, characterized in that: comprise a pressure transmitter, data acquisition and wireless transmission unit and a well control device parameter recorder, the pressure transmitter is connected with the well control device, and the pressure transmitters are respectively It is connected with the data acquisition and wireless transmission unit and the parameter recorder of the well control device, and the data acquisition and wireless transmission unit collects the pressure signal and sends the pressure signal to the parameter recorder of the well control device. 2. The wireless data monitoring device according to claim 1, further comprising a remote management center that receives the data transmitted by the parameter recorder of the well control device and queries, analyzes the data and makes decisions through the data. 3. The wireless data monitoring device according to claim 1 or 2, characterized in that the pressure transmitter is connected to the pressure measurement and control interface of the well control device. 4. The wireless data monitoring device according to claim 1 or 2, characterized in that: the data collection and wireless transmission unit is provided with a wireless communication module and a serial communication interface. 5. The wireless data monitoring device according to claim 1 or 2, characterized in that: the well control device parameter recorder is a touch-type micro-industrial computer equipped with a wireless data receiving module and a general-purpose computer interface.

Images