CN217760960U - Indicator diagram and vibration data testing device for beam-pumping well - Google Patents

Abstract

A power indicator diagram and vibration data testing device for a beam-pumping well is characterized in that a battery and a circuit board are installed in a shell, an inclination angle chip and a communication module are installed on the circuit board, an antenna on the outer side of the shell is connected with the communication module, a wiring socket fixed on the shell is connected with a load data processing circuit on the circuit board, magnetic steel is installed at the bottom of the shell, a vibration data processing circuit installed on the circuit board is connected with the communication module, and a vibration chip installed on the circuit board is connected with the vibration data processing circuit. When the testing device is used independently, angular displacement data and vibration data which are respectively collected by the inclination angle chip and the vibration chip are processed and then transmitted to the data measurement and control center; when the strain gauge is used in combination with a strain sensor, measured strain data is processed and then transmitted to a data measurement and control center. The data measurement and control center processes the vibration data to obtain a three-dimensional vibration curve of the rod-pumped well, processes the angular displacement data and the load data to obtain an indicator diagram of the rod-pumped well.

Description

Indicator diagram and vibration data testing device for beam-pumping well

Technical Field

The utility model relates to a rod-pumped well testing arrangement, specifically speaking are beam-pumping well indicator diagram and vibration data testing arrangement.

Background

The existing indicator diagram testing device for the beam-pumping well is formed by integrally connecting an angular displacement sensor and a strain transducer, is arranged on a beam of the pumping unit, can measure angular displacement data and load data of a polished rod, processes the data and transmits the data to a data measurement and control center, and further can obtain an indicator diagram of the beam-pumping well. The indicator diagram testing device can only test the load and displacement data of the polished rod of the oil pumping unit. In order to optimally design the power parameters of the rod-pumped well and judge faults, vibration data during the operation of the rod-pumped well needs to be obtained, and a vibration sensor is usually adopted for obtaining the vibration data. At present, a type of vibration sensor used on a pumping well is an independent individual, and the vibration sensor needs to be independently installed when used on the pumping well, so that the defects of troublesome installation and higher use cost exist. In addition, because the position of specially installing the vibration sensor is not designed on the pumping unit well, the vibration sensor is usually installed by utilizing a threaded hole at the lower part of the derrick, and therefore, the defects of unsatisfactory setting position and poor whole induction vibration effect exist.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a beam-pumping unit well indicator diagram and vibration data testing arrangement, this testing arrangement collect angle displacement data and vibration data's collection function as an organic whole, and can obtain indicator diagram data with dependent variable sensor combination use.

In order to achieve the above purpose, the utility model adopts the following scheme: a walking beam type oil pumping well indicator diagram and vibration data testing device is provided with a shell, a battery and a circuit board for processing data are arranged in the shell, the battery is connected with a power interface of the circuit board, an inclination angle chip and a communication module are arranged on the circuit board, an antenna is fixed on the outer side of the shell and connected with the communication module, a wiring socket is fixed on the shell and connected with a load data processing circuit on the circuit board, magnetic steel is arranged at the bottom of the shell, a vibration data processing circuit is arranged on the circuit board and connected with the communication module, a vibration chip is arranged on the circuit board and connected with the vibration data processing circuit.

The utility model provides a testing device when using alone, adsorb on beam-pumping unit walking beam top intermediate position through the magnet steel, gather the angle displacement data of walking beam by the inclination chip, gather the vibration data of walking beam by the vibration chip, the data of gathering is through the circuit board processing back, through wireless module and antenna transmission for data measurement and control center; when it and strain sensor combined use, strain sensor's signal output part meets with connection socket, and both adorn on walking beam top intermediate position, and strain sensor measures the strain data process of strain sensor for load data after, through wireless module and antenna transmission for data measurement and control center. The data measurement and control center processes the received vibration data to obtain a three-dimensional vibration curve of the pumping well, and processes the received angular displacement data and the load data to obtain an indicator diagram of the pumping well.

The utility model discloses rational in infrastructure, dependable performance, it uses flexibly, nimble, and the comprehensive cost is lower, and installs, maintains the convenience.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the following examples and accompanying drawings.

See FIG. 1

The utility model provides a beam-pumping unit well indicator diagram and vibration data testing arrangement has a casing 3, is equipped with battery 2 and the circuit board 13 of processing data in the casing 3. The circuit board 13 is provided with a load data processing circuit and an angular displacement data processing circuit, the circuit board is connected with an inclination angle chip 12 and a communication module 11, the inclination angle chip 11 is connected with the angular displacement data processing circuit, and the communication module 11 is connected with the load data processing circuit and the angular displacement data processing circuit. An antenna 15 is fixed on the outer side of the shell 3, and the antenna 15 is connected with the communication module 11. A connection socket 5 is fixed on the shell 3, the connection socket 5 is connected with a load data processing circuit on the circuit board, and the battery 2 is connected with a power interface of the circuit board 13. The above is the same as the prior art. The circuit board 13 is provided with a vibration data processing circuit which is connected with the communication module 11, and the circuit board 13 is provided with a vibration chip 8 which is connected with the vibration data processing circuit. The vibration chip 8 and the vibration data processing circuit are the same as those in the prior art. In addition, the arrangement of the load data processing circuit, the angular displacement data processing circuit, and the vibration data processing circuit on the circuit board as described above is a conventional technique that can be performed by those skilled in the art, and therefore, they will not be described in detail.

In the embodiment, a battery compartment 3a is arranged at the upper part in the shell 3, the battery 2 is arranged in the battery compartment 3a, a cover plate 1 is arranged at the upper port of the battery compartment 3a, and the cover plate 1 seals the battery compartment 3 a; the antenna 15 is arranged on an antenna seat 14, and the antenna seat 14 is fixed on the shell 3; the bottom end of the shell 3 is provided with an inward-recessed circuit board bin (not shown in fig. 1), the circuit board 13 is arranged in the circuit board bin, a base 10 is arranged at the lower port of the circuit board bin, and the base 10 is connected with the shell 3 to seal the circuit board bin. In addition, the magnetic steel 9 arranged at the bottom of the shell 3 is fixed on the base 10, the number of the magnetic steel 9 is two, and the base 10 and the shell 3 can be adsorbed on the walking beam of the oil pumping unit through the magnetic steel 9

In this embodiment, the battery 2 is a rechargeable battery, the housing 3 is fixed with a power socket 4, the battery 2 and the power socket 4 are connected with a charging circuit arranged on the circuit board 13, the power socket 4 is plugged with a plug 6, and the plug 6 is connected with a solar panel. Solar energy is collected by the solar panel 7 and the battery 2 is charged. The adoption of the rechargeable battery and the solar panel can ensure the continuity of work and reduce the use cost.

Claims (2)

1. The indicator diagram and vibration data testing device for beam-pumping unit well has a casing, in the casing a battery and a circuit board for processing data are mounted, the battery is connected with power supply interface of the circuit board, on the circuit board a dip angle chip and a communication module are mounted, on the outer side of the casing an antenna is fixed, and is connected with the communication module, on the casing a connection socket is fixed, and is connected with a load data processing circuit on the circuit board, and the bottom of the casing is equipped with magnetic steel, and its characteristics are: the circuit board is provided with a vibration data processing circuit, the vibration data processing circuit is connected with the communication module, the circuit board is provided with a vibration chip, and the vibration chip is connected with the vibration data processing circuit.

2. The beam-pumping unit well indicator diagram and vibration data testing device of claim 1, wherein: the battery is a rechargeable battery, a power socket is fixed on the shell, the battery and the power socket are connected with a charging circuit arranged on the circuit board, a plug is inserted on the power socket, and the plug is connected with a solar panel.

Images