CN110879823A - Wireless monitoring devices of mechanical vibration - Google Patents

Abstract

The invention discloses a mechanical vibration wireless monitoring device, which comprises a vibration parameter sensing node and a PC (personal computer) provided with an XBee wireless communication module; the system comprises a PC (personal computer) and a plurality of vibration parameter sensing nodes, wherein each vibration parameter sensing node is internally provided with a three-dimensional attitude sensor, the PC is internally provided with an operation data post-processing system which comprises a data local storage module, a data analysis and evaluation module, a GSM (global system for mobile communications) early warning module and an operation process visual playback module, the data analysis and evaluation module can automatically finish data analysis, during analysis, data characteristic extraction is realized based on a CCIPCA (central control and internet protocol encryption algorithm) algorithm, then a corresponding algorithm is called to realize evaluation result acquisition, the obtained evaluation result and a mechanical state trajectory graph line are filled into a prefabricated latex template, and then a latex compiler is used for compiling to generate a pdf. The invention can realize the real-time acquisition and analysis of mechanical vibration data, has higher accuracy and can realize the visual analysis of the mechanical operation condition.

Description

Wireless monitoring devices of mechanical vibration

Technical Field

The invention relates to the field of mechanical monitoring, in particular to a mechanical vibration wireless monitoring device.

Background

At present, to the maintenance monitoring of machinery, the mode that adopts maintenance personnel periodic detection to go on basically, when wasting time and energy, the universal poor defect of real-time nature to unable timely discovery mechanical potential safety hazard, simultaneously, the in-process of current people for detecting, to the most single vibration sensor that relies on of mechanical vibration's monitoring detects, it does not consider the influence of vibration sensor self attitude information, thereby makes the error of testing result great to a certain extent.

Disclosure of Invention

In order to solve the problems, the invention provides a mechanical vibration wireless monitoring device which can realize real-time acquisition and analysis of mechanical vibration data, has higher accuracy and can realize visual analysis of mechanical operation conditions.

In order to achieve the purpose, the invention adopts the technical scheme that:

a mechanical vibration wireless monitoring device comprises a vibration parameter sensing node and a PC (personal computer) provided with an XBee wireless communication module; the vibration parameter sensing nodes are used for acquiring vibration parameters and feeding back the acquired data to the PC in real time, and each vibration parameter sensing node is internally provided with a three-dimensional attitude sensor for acquiring attitude information of the vibration parameter sensing node; the PC is internally provided with an operating data post-processing system which comprises a data local storage module, a data analysis and evaluation module, a GSM early warning module and an operating process visual playback module, wherein vibration parameter data and corresponding attitude data are stored in a local database by adopting a MySQL tool kit in python, the data analysis and evaluation module can automatically finish data analysis, during analysis, data characteristic extraction is realized based on a CCIPCA algorithm, then the corresponding algorithm is called to realize the acquisition of an evaluation result, the obtained evaluation result and a mechanical state trajectory graph line are filled into a prefabricated latex template, then a latex compiler is used for compiling to generate a pdf report, and when the obtained evaluation result falls into an early warning threshold, the GSM early warning module is started to realize the sending of early warning short messages; the operation process visual playback module builds a corresponding simulation model based on Simulink to realize playback of the mechanical operation process.

Furthermore, a self-organizing network is formed inside the vibration parameter sensing node through a ZigBee chip, so that multi-parameter dynamic sensing and data fusion can be realized; and the vibration parameter sensing node transmits data to the PC through a dynamic routing and multi-hop transmission mode.

Further, each vibration parameter is fused with corresponding vibration sensor attitude information.

Further, the data analysis and evaluation module realizes risk evaluation of the vibration parameters based on the LSSVM, and then outputs corresponding maintenance measures according to risk evaluation results by adopting a nearest neighbor classifier.

Further, the data analysis and evaluation module realizes drawing of a mechanical state trajectory graph line according to the data characteristics based on a drawing module.

Furthermore, each vibration parameter sensing node is provided with a storage battery, a storage battery electric quantity monitoring module is loaded in the PC and used for monitoring the residual electric quantity of the storage battery in each vibration parameter sensing node, and when the detected electric quantity falls into a preset threshold, the GSM early warning module is started to realize the sending of the early warning short message.

Furthermore, a heat insulation pad and a heat dissipation pad are installed between each vibration parameter sensing node and the machine, the heat insulation pad is arranged close to the lower bottom surface of each vibration parameter sensing node, and the heat dissipation pad is arranged close to the heat insulation pad.

The invention has the following beneficial effects:

1) the real-time acquisition and analysis of mechanical vibration data can be realized, and the visual analysis of the mechanical operation condition can be realized while the accuracy is higher.

2) Each evaluation result carries a mechanical state trajectory graph, so that a user can intuitively know the current mechanical state.

3) The monitoring of the electric quantity of each vibration parameter sensing node is realized, so that the monitoring data loophole caused by insufficient electric quantity can be avoided.

Drawings

Fig. 1 is a system block diagram of a mechanical vibration wireless monitoring device according to an embodiment of the present invention.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that variations and modifications can be made by persons skilled in the art without departing from the spirit of the invention. All falling within the scope of the present invention.

As shown in fig. 1, a mechanical vibration wireless monitoring device according to an embodiment of the present invention is characterized by including a vibration parameter sensing node, a PC equipped with an XBee wireless communication module; the vibration parameter sensing nodes are used for acquiring vibration parameters and feeding back the acquired data to the PC in real time, and each vibration parameter sensing node is internally provided with a three-dimensional attitude sensor for acquiring attitude information of the vibration parameter sensing node; the PC machine is internally loaded with an operating data post-processing system which comprises a data local storage module, a data analysis and evaluation module, a GSM early warning module and an operating process visual playback module, vibration parameter data and corresponding attitude data are stored in a local database by adopting a MySQL tool kit in python, the data analysis and evaluation module can automatically complete data analysis, when in analysis, the denoising processing of the data is realized on the basis of a wavelet soft threshold method, then the extraction of data characteristics is realized on the basis of a CCIPCA algorithm, then the risk evaluation of the vibration parameters is realized on the basis of a trained LSSVM, then a nearest neighbor classifier is adopted to output corresponding maintenance measures according to the risk evaluation result, then the drawing of a mechanical state track graph line is realized on the basis of a drawing module according to the data characteristics, and the obtained evaluation result and the mechanical state track graph line are filled into a prefabricated latex template together, then, compiling by a latex compiler to generate a pdf report, starting a GSM early warning module when an obtained evaluation result falls into an early warning threshold, and realizing the sending of an early warning short message, wherein the early warning short message is sent in an automatic editing mode, and during editing, firstly calling a corresponding short message module according to the evaluation result, and then filling the evaluation result and the currently obtained pdf report into a corresponding space together to send to a specified mobile terminal; the operation process visual playback module builds a corresponding simulation model based on Simulink to realize playback of the mechanical operation process.

In the embodiment, a self-organizing network is formed inside the vibration parameter sensing node through a ZigBee chip, so that multi-parameter dynamic sensing and data fusion can be realized; the vibration parameter sensing node transmits data to the PC through a dynamic route and a multi-hop transmission mode, attitude information of the vibration sensor corresponding to the vibration parameter sensing node is fused in each vibration parameter, and the acquisition of the attitude information can realize the acquisition of the attitude information of the vibration sensor and timely discover whether the vibration sensor has offset or not.

In this embodiment, every vibration parameter perception node all disposes a battery, and carries a battery power monitoring module in the PC for the residual capacity of battery in each vibration parameter perception node is monitored, when the electric quantity that detects falls into the threshold of predetermineeing, GSM early warning module starts, realizes the sending of early warning SMS, thereby reminds people in time to carry out the change of battery, and battery power monitoring module realizes the calculation of residual capacity based on following formula: remaining charge = total charge-power consumption per hour x operating time.

In this embodiment, install heat insulating mattress and cooling pad between every vibration parameter perception node and the machinery, the lower bottom surface setting of vibration parameter perception node is hugged closely to the heat insulating mattress, and the cooling pad is hugged closely the setting of heat insulating mattress to can reduce the influence that the heat that the machinery operation gived off produced vibration parameter perception node.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (7)

1. The mechanical vibration wireless monitoring device is characterized by comprising a vibration parameter sensing node and a PC (personal computer) provided with an XBee wireless communication module; the vibration parameter sensing nodes are used for acquiring vibration parameters and feeding back the acquired data to the PC in real time, and each vibration parameter sensing node is internally provided with a three-dimensional attitude sensor for acquiring attitude information of the vibration parameter sensing node; the PC is internally provided with an operating data post-processing system which comprises a data local storage module, a data analysis and evaluation module, a GSM early warning module and an operating process visual playback module, wherein vibration parameter data and corresponding attitude data are stored in a local database by adopting a MySQL tool kit in python, the data analysis and evaluation module can automatically finish data analysis, during analysis, data characteristic extraction is realized based on a CCIPCA algorithm, then the corresponding algorithm is called to realize the acquisition of an evaluation result, the obtained evaluation result and a mechanical state trajectory graph line are filled into a prefabricated latex template, then a latex compiler is used for compiling to generate a pdf report, and when the obtained evaluation result falls into an early warning threshold, the GSM early warning module is started to realize the sending of early warning short messages; the operation process visual playback module builds a corresponding simulation model based on Simulink to realize playback of the mechanical operation process.

2. The mechanical vibration wireless monitoring device of claim 1, wherein a self-organizing network is formed inside the vibration parameter sensing node through a ZigBee chip, so that multi-parameter dynamic sensing and data fusion can be realized; and the vibration parameter sensing node transmits data to the PC through a dynamic routing and multi-hop transmission mode.

3. The wireless mechanical vibration monitoring device as claimed in claim 1, wherein each vibration parameter is fused with its corresponding vibration sensor attitude information.

4. The wireless monitoring device for mechanical vibration according to claim 1, wherein the data analysis and evaluation module implements risk evaluation of vibration parameters based on LSSVM, and then outputs corresponding maintenance measures according to the risk evaluation result by using a nearest neighbor classifier.

5. The wireless mechanical vibration monitoring device as claimed in claim 1, wherein the data analysis and evaluation module is based on a drawing module to draw a mechanical state trace according to the data characteristics.

6. The wireless mechanical vibration monitoring device as claimed in claim 1, wherein each vibration parameter sensing node is configured with a storage battery, and the PC is loaded with a storage battery power monitoring module for monitoring the remaining power of the storage battery in each vibration parameter sensing node, and when the detected power falls within a preset threshold, the GSM warning module is activated to send a warning message.

7. The wireless mechanical vibration monitoring device as claimed in claim 1, wherein a heat insulation pad and a heat dissipation pad are installed between each vibration parameter sensing node and the machine, the heat insulation pad is disposed in close contact with the lower bottom surface of the vibration parameter sensing node, and the heat dissipation pad is disposed in close contact with the heat insulation pad.

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