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CN-224231021-U - Non-perception equipment self-adaptive configuration device based on environment perception technology and non-perception equipment

CN224231021UCN 224231021 UCN224231021 UCN 224231021UCN-224231021-U

Abstract

The utility model provides a non-sensing equipment self-adaptive configuration device and non-sensing equipment based on an environment sensing technology, which belong to the technical field of self-adaptive control, wherein the self-adaptive configuration device comprises an environment sensing unit, a configuration control unit and a communication unit which are integrated in a shell, and the non-sensing equipment comprises an equipment body and the self-adaptive configuration device; the on-site real-time environment parameters are obtained through the environment sensing unit, the configuration control unit dynamically adjusts and optimizes the actual operation configuration parameters of the non-sensing equipment to be configured based on the environment parameters, the defects that the conventional process configuration parameters are statically preset and cannot adapt to on-site environment changes are overcome, measurement drift and signal interference caused by environmental factors are effectively restrained, and the data acquisition precision and stability of the non-sensing equipment such as a transmitter, a power indicator and the like under complex working conditions such as an oil well are obviously improved.

Inventors

  • XIE XINYUE
  • SUN CHANGJIANG
  • ZHANG YONG
  • YANG JIANQUAN
  • HE LING
  • MA JUNHU
  • LI RUN
  • CHENG CHEN

Assignees

  • 新疆金牛能源物联网科技股份有限公司

Dates

Publication Date
20260512
Application Date
20260410

Claims (10)

  1. 1. The self-adaptive configuration device for the sensorless equipment based on the environment sensing technology is characterized by comprising an environment sensing unit (20), a configuration control unit and a communication unit, wherein the environment sensing unit (20) and the communication unit are respectively and electrically connected with the configuration control unit, the environment sensing unit (20), the communication unit and the configuration control unit are integrated in a shell (10), a detection end of the environment sensing unit (20) is exposed out of an opening (18) of the shell (10) to collect environment parameters, and mapping relations between all environment parameters and operation process parameters of the sensorless equipment and judgment thresholds corresponding to all environment parameters are prestored in the configuration control unit.
  2. 2. The device of claim 1, wherein the environmental awareness unit (20) comprises at least one of a temperature and humidity sensor and an electromagnetic interference sensor, and each sensor is pluggable to the configuration control unit via a standard mechanical interface (25) with integrated data transmission.
  3. 3. The device for adaptively configuring the sensorless equipment based on the environment sensing technology as set forth in claim 1, wherein a sealing cover (14) is arranged at the end of the opening (18) of the housing (10), the sealing cover (14) comprises a cover body (141) and a nesting part (142) which are integrally formed, an orifice from which the detection end extends is arranged in the center of the cover body (141), the outer ring is an everting lip, the environment sensing unit (20) is in interference fit with the opening (18), and the nesting part (142) is embedded between the inner wall of the opening (18) and the environment sensing unit (20) so as to seal the opening (18).
  4. 4. The device for adaptively configuring a sensorless equipment based on the environment awareness technology according to claim 1, wherein the configuration control unit comprises at least a memory module (21) and a processing module (22), and the memory module (21) and the processing module (22) are electrically connected by adopting a board-to-board connector.
  5. 5. The device for adaptively configuring a sensorless equipment based on the environment awareness technology according to claim 4, wherein the mapping relation between the environmental parameters and the operation process parameters of the sensorless equipment and the judgment threshold corresponding to the environmental parameters are stored in the storage module (21), and the processing module (22) at least comprises an amplifying circuit, a filtering circuit and a logic comparison circuit, so as to determine the actual operation configuration parameters according to the acquired environmental parameters.
  6. 6. The device-less adaptive configuration apparatus based on the context awareness technology according to claim 1, characterized in that the communication unit comprises a physical communication interface (24) and/or a near field wireless communication interface, which is connected to the configuration control unit by means of wires (19) or board-to-board connectors; When the device is a physical communication interface (24), the physical communication interface (24) is positioned at one end of the shell (10) and can be plugged and plugged with a non-sensing device for data transmission and power taking; In the case of a near field wireless communication interface, the near field wireless communication interface may be located at any position of the housing (10) and may be in contactless connection with a sensorless device.
  7. 7. The device-less adaptive configuration apparatus according to claim 1, wherein the communication unit supports at least one of Modbus protocol, TCP/IP protocol, loRa protocol and Zigbee protocol.
  8. 8. The device for adaptively configuring a sensorless equipment based on the environmental awareness technology according to claim 1, wherein a fixed ear plate (15) is provided at one end of the housing (10).
  9. 9. The non-perception device is characterized by comprising a device body and the non-perception device self-adaption configuration device based on the environment perception technology, wherein the device body is internally provided with a parameter receiving module which can be connected with a communication unit of the self-adaption configuration device and is used for receiving actual operation configuration parameters and configuring the device body based on the actual operation configuration parameters.
  10. 10. The sensorless apparatus of claim 9, wherein the configuration control unit further comprises a periodic trigger module (23), and the periodic trigger module (23) is a timing control chip, and is configured to trigger the adaptive configuration device to start according to a preset period.

Description

Non-perception equipment self-adaptive configuration device based on environment perception technology and non-perception equipment Technical Field The utility model belongs to the technical field of self-adaptive control, and particularly relates to a non-perception device self-adaptive configuration device and non-perception device based on an environment perception technology. Background In the whole process of oil well exploration, development, production and operation and maintenance, precision measurement equipment such as a transmitter (such as a pressure transmitter and a displacement transmitter), a dynamometer and the like is a core monitoring component, and is widely applied to accurate acquisition and transmission of key parameters such as oil well load, displacement, wellhead pressure, flow, water injection quantity and the like, and the measurement precision directly determines the reliability of oil pumping unit operation state diagnosis, oil well yield measurement, underground working condition research and judgment and production efficiency. Along with the deployment and application of the Internet of things equipment, the premise of ensuring the normal operation of the precise measurement equipment is that the complete configuration of network parameters and process parameters is finished in advance, the traditional configuration mode depends on manual operation, a technician needs to manually write parameters one by one through tools such as a notebook computer, a handheld configurator and the like, the problems of large workload, high repetition rate and low efficiency exist, the professional capability of the operator is definitely required, and the configuration error is easily caused by human negligence. In order to solve the defect of manual configuration, in the prior art, a non-perception configuration method based on an internet of things tag (such as interface connection, passive RFID, passive NFC and the like) appears, a terminal with configuration parameters stored therein is newly added at an equipment installation position, after the terminal is connected with equipment through a specific interface, the equipment is automatically identified and preset configuration parameters are transmitted, so that the configuration flow is simplified to a certain extent, the manual intervention is reduced, however, the existing non-perception configuration technology still has obvious limitations: The oil well site is usually in a field environment, the working condition is extremely complex, the surface temperature can reach more than 60 ℃ in summer, the surface temperature can be reduced to-40 ℃ in winter, the underground deep temperature can be obviously increased along with the increase of depth, the working performance of the precision measurement equipment is extremely easy to be interfered by environmental factors such as site temperature and humidity, electromagnetic interference and the like, the influence of external temperature and humidity, electromagnetic interference and the like on the acquisition precision is reduced by arranging a passive mode such as a sealed shell and the like, but the mode can only weaken the influence of the environmental interference, the measurement error problem caused by the dynamic change of the environmental parameters can not be fundamentally solved, the existing configuration parameters are mainly preset static data, the environment sensing capability is lacked, the dynamic adjustment according to the environmental change can not be realized, for example, under the high-temperature environment, the equipment can cause overheat damage if the original sampling frequency is maintained, and the fixed communication power can cause the increase of the data transmission packet loss rate in the scene with stronger electromagnetic interference. Therefore, the prior art does not deeply integrate the structural design of the environment sensing and configuration device, and cannot achieve the purpose of adaptive configuration, so that there is a need for an adaptive configuration device for non-sensing equipment based on the environment sensing technology. Disclosure of utility model The utility model aims to provide a non-sensing equipment self-adaptive configuration device and non-sensing equipment based on an environment sensing technology, which can adaptively adjust process configuration parameters based on sensed oil well field environment data, overcome the defects that the process configuration parameters are statically preset and cannot adapt to a dynamic environment in the traditional technology, and effectively improve the data acquisition precision of the non-sensing equipment in an oil well scene. The utility model provides a no perception equipment self-adaptation configuration device based on environment perception technique, including environment perception unit, configuration control unit and communication unit, environment perception uni