Vibration data collecting and processing apparatus and method

US 4,885,707 A
Filed: 02/19/1987
Issued: 12/05/1989
Est. Priority Date: 02/19/1987
Status: Expired due to Term

First Claim

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1. A method of predictive maintenance of a plurality of machines by collecting and analyzing vibration data comprising the steps of:

providing at each of a plurality of stations of a plurality of machines a predetermined electro-optically readable code identifying the vibration data collection station thereon;

storing in an electronic memory contained within a portable vibration data collection and processing apparatus, addressable machine file data containing preprogrammed data collection and data processing parameters for each of the plurality of data collection stations;

collecting vibration data from each of said stations by temporarily attaching a vibration sensor to an indexing mount at the machine station, reading said code adjacent the data collection station, using said code to address the electronic memory for retrieving machine file data stored for each of such stations and receiving vibration signals from the vibration sensor, conditioning such signals by filtering and converting same in accordance with said predetermined data collection and data processing parameters, into discrete time domain digital data representing machine vibration as a function of time;

transforming said discrete time domain digital data representing machine vibration at each station into frequency domain digital data representing machine vibration in the frequency domain;

temporarily storing said discrete time domain digital data in a common battery powered random access memory with said frequency domain digital data using address areas in opposing storage regions of said common random access memory, and providing said common random access memory with a moving partition means for separating said discrete time domain digital data from said frequency domain digital data; and

transferring the stored discrete time domain and/or frequency domain digital data to a host computer for predictive maintenance analysis of such data.

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Abstract

In a system for predictive maintenance of machinery based on vibration data history, a portable battery operated vibration data collector and processor unit (10) is equipped with an electro-optical wand (18) for reading a bar code affixed to each data collection station (22) on the machinery that is to be tested. The vibration of the machinery is sensed by electro-mechanical transducers (16) temporarily attached by an operator to permanent indexing mounts (24) at each test station. The bar code (26) identifies the station and automatically initiates a predetermined sequence of vibration data collection, processing and data storage operations. Within the portable unit there are four modules (or boards) interconnected by a serial data bus and unique input/output interface: a central control module (board C) is the brain of the system and initiates data collection in response to the bar code reader and determines the operating sequence of the other modules; an analog-to-digital conversion module (board A) conditions analog signals received from the transducers and converts same to digital time domain data; a fast Fourier transform (FFT) module (board F) receives the digital time domain vibration data and converts it into frequency domain vibration data; and a mass memory module (board D) receives and stores the frequency domain data. When data has been collected from a number of stations, the stored frequency domain data is transfered (uploaded) from the portable unit via a charger/interface (12) into a host computer (14) where the data is further processed to support predictive maintenance scheduling.

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7 Claims

1. A method of predictive maintenance of a plurality of machines by collecting and analyzing vibration data comprising the steps of:
- providing at each of a plurality of stations of a plurality of machines a predetermined electro-optically readable code identifying the vibration data collection station thereon;
  
  storing in an electronic memory contained within a portable vibration data collection and processing apparatus, addressable machine file data containing preprogrammed data collection and data processing parameters for each of the plurality of data collection stations;
  
  collecting vibration data from each of said stations by temporarily attaching a vibration sensor to an indexing mount at the machine station, reading said code adjacent the data collection station, using said code to address the electronic memory for retrieving machine file data stored for each of such stations and receiving vibration signals from the vibration sensor, conditioning such signals by filtering and converting same in accordance with said predetermined data collection and data processing parameters, into discrete time domain digital data representing machine vibration as a function of time;
  
  transforming said discrete time domain digital data representing machine vibration at each station into frequency domain digital data representing machine vibration in the frequency domain;
  
  temporarily storing said discrete time domain digital data in a common battery powered random access memory with said frequency domain digital data using address areas in opposing storage regions of said common random access memory, and providing said common random access memory with a moving partition means for separating said discrete time domain digital data from said frequency domain digital data; and
  
  transferring the stored discrete time domain and/or frequency domain digital data to a host computer for predictive maintenance analysis of such data.

2. A portable vibration data collection and processing apparatus for predictive maintenance of a plurality of machine stations by collecting, processing and storing vibration data, comprising:
- central control module having a microprocessor means, a memory storing a control program for said microprocessor means, and a random access memory for storing digital machine file data on each of the plurality of machine stations;
  
  code reading means for reading a station identification code associated with each station, said code reading means including means for producing a digitally encoded address signal representing said station identification code, said random access memory being responsive to said code reading mean to access said machine file data in response to said digital signal representing said station identification code;
  
  vibration sensor means attached to an indexing mount at each machine station for producing electrical analog signals representing machine vibration at that station;
  
  vibration signal conditioning means for filtering the electrical analog signals produced by said vibration sensor means and for converting the filtered electrical analog signals into digital time domain vibration data representing machine vibration as a function of time;
  
  a data processing module having a memory for storing a control program controlling the operation of said microprocessor means, and a random access memory, said data processing module operating in response to its control program stored in memory to transform said digital signals representing vibration as a function of time into frequency domain vibration data, said memory of said data processing module serves as a scratch pad memory for temporary storage of said digital time domain data during said transform;
  
  a serial bus for communicating control and data signals between said central control module and said data processing module;
  
  input/output interface means coupling said serial bus to each of said module; and
  
  vibration data memory means for storing said frequency domain vibration data and/or said time domain vibration data and corresponding machine file data for subsequent predictive maintenance analysis of such data.

3. A portable vibration data collection and processing apparatus for predictive maintenance of a plurality of machines by collecting, processing and storing of vibration data, comprising:
- central control module having first microprocessor means, a memory storing a control program for said first microprocessor means and a random access memory for providing file memory means for storing digital machine file data on the plurality of machines;
  
  code reading means for reading a preprogrammed station identification code adapted to be affixed to each station, said code reading means including means for producing a digitally encoded address representing said station identification code, said file memory means being responsive to said code reading means to access said file data in response to said digital signal representing said station identification code;
  
  vibration sensor means adapted to be attached to an indexing mount at each station for producing electrical analog signals representing machine vibration;
  
  vibration signal conditioning means for filtering the electrical analog signals produced by said vibration sensor means and for converting the filtered electrical analog signals into digital signals representing machine vibration as a function of time;
  
  a data processing module having a second microprocessor means and a memory for storing a program controlling an operation of said second microprocessor means for transforming said digital signals representing vibration as a function of time into frequency domain vibration data, said memory of said data processing module serves as a scratch pad memory during said transforming;
  
  a serial bus for communicating control and data signals between said central control module and said data processing module;
  
  input/output interface means coupling said serial bus to each of said modules; and
  
  vibration data memory means for storing said time domain and/or frequency domain vibration data and corresponding machine file data for subsequent predictive maintenance analysis of such data.
- View Dependent Claims (4, 5, 6, 7)
- - 4. The apparatus of claim 3 wherein said serial bus is a single conductive line and said input/output interface means comprises:
    - a receiving lead connected from said single conductive line to a binary data receiving port on each of said central control and data processing modules; and
      
      a buffered transmitting circuit including a pair of cascaded, opposite polarity transistors connected from a binary data transmitting port on each of said central control and data processing modules to said single conductive line.vibration data memory means for storing said frequency domain vibration data and corresponding machine file data for subsequent predictive maintenance analysis of such data.
  - 5. The apparatus of claim 4 wherein said vibration data memory means further comprises a data memory module having a third microprocessor means, a read only memory storing a program for controlling said third microprocessor means and a battery operated dynamic random access storage memory for storing said time domain and said frequency domain vibration data;
    - said serial bus and said input/output interface means are coupled to said data memory module for communicating control and digital data to and from said data memory module.
  - 6. The apparatus of claim 5 wherein said random access storage memory of said data memory module was addressable storage area from lowest end to highest end addresses, and means for loading said time domain data into memory from one end of said addresses and loading said frequency domain data into memory from the opposite end of said addresses.
  - 7. The apparatus of claim 3 wherein said vibration signal conditioning means comprises a vibration signal module having a microprocessor, a read only memory storing a program for controlling the operation of such microprocessor and a random access memory;
    - said serial bus and said input/output interface means are coupled to said vibration signal module for communicating control and data signals between said serial bus and vibration signal module.

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Current Assignee
DLI Corporation Bainbridge Island Washington
Original Assignee
DLI Corp.
Inventors
Grant, Robert B., Faddis, Charles T., Nichol, Robert E.
Primary Examiner(s)
Lall, Parshotam S.
Assistant Examiner(s)
MELNICK, STEVEN A

Application Number

US07/016,272
Time in Patent Office

1,020 Days
Field of Search

364/508, 364/550, 364/551.01, 364/551.02, 364/574.04, 73/660, 73/652, 340/683, 235/462, 235/375, 235/376
US Class Current

702/56
CPC Class Codes

G01H 1/003 of rotating machines G01H1/...

Vibration data collecting and processing apparatus and method

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

267 Citations

7 Claims

Specification

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Vibration data collecting and processing apparatus and method

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

267 Citations

7 Claims

Specification

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Use Cases

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Others