ASTM F2137-2016 Standard Practice for Measuring the Dynamic Characteristics of Amusement Rides and Devices《娱乐骑座设备和娱乐设备动力特性测量的标准实施规程》.pdf

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1、Designation: F2137 16Standard Practice forMeasuring the Dynamic Characteristics of AmusementRides and Devices1This standard is issued under the fixed designation F2137; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of la

2、st revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This practice covers acquisition of data related to thedynamic characteristics of amusement rides and devices.1.2 This p

3、ractice also defines the specific requirements of aStandardized Amusement Ride Characterization Test (SARCTest) for use in characterizing the dynamic motion of anamusement ride or device.1.3 The values stated in inch-pound units are to be regardedas standard. The values given in parentheses are math

4、ematicalconversions to SI units that are provided for information onlyand are not considered standard.1.3.1 ExceptionThe values are reversed in Section 13since EN standards primarily use SI units.2. Referenced Documents2.1 ASTM Standards:2F747 Terminology Relating to Amusement Rides and De-vices2.2

5、SAE Standard:3SAE J211 Instrumentation for Impact Tests2.3 EN Standard:4EN 13814 Fairground and amusement park machinery andstructures - Safety3. Terminology3.1 Definitions:3.1.1 aliasinga phenomenon associated with sampled datasystems, wherein a signal containing significant energy atfrequencies gr

6、eater than one half of the system sample fre-quency manifests itself in the sampled data as a lowerfrequency (aliased) signal. Aliasing can be avoided only bylimiting the frequency content of the signal prior to thesampling process. Once a signal has been aliased, it is notpossible to reconstruct th

7、e original signal from the sampleddata.3.1.2 calibration constantthe arithmetic mean of the sen-sitivity coefficients, evaluated at frequencies that are evenlyspaced on a logarithmic scale between FLand FH.3.1.3 calibration valuethe ratio of the reference calibra-tion system output, in engineering u

8、nits relevant to thetransducer, to the data channel output, in volts, as measured atconstant excitation frequency and amplitude.3.1.4 channel frequency class (CFC)a frequency responseenvelope that conforms to Fig. 1 and is referred to by the valueFHin hertz. The CFC frequency response envelope is de

9、finedby the boundaries shown in Fig. 1 and the following charac-teristic frequencies:FLPass band lower limit (hertz). Always equal to zero(0.0) hertz.FHPass band upper limit (hertz). The CFC designator.FNThe corner or knee of the frequency response envelope.Always equal to or greater than 1.667 FH.F

10、SThe minimum sample frequency for a sampled datasystem that corresponds to the designated CFC. Always equalto or greater than 12 FH.3.1.4.1 DiscussionFL, FH, FN, and FSare always specifiedin hertz. While the characteristics of the CFC may be appliedto individual components of a data channel, the CFC

11、 is, bydefinition, the frequency response envelope of the entire datachannel from the mounted transducer to the final representationof the acquired data.3.1.5 coordinate systemthree orthogonal axes that inter-sect at an origin whose positive directions correspond to theright-hand rule.3.1.5.1 measur

12、ement coordinate systema coordinate sys-tem that provides the reference axes and sign convention forthe test data record(s).3.1.5.2 patron coordinate systema coordinate system thatis fixed with respect to the human upper torso and oriented asin Fig. 2.1This practice is under the jurisdiction ofASTM

13、Committee F24 on AmusementRides and Devices and is the direct responsibility of Subcommittee F24.10 on TestMethods.Current edition approved Oct. 15, 2016. Published November 2016. Originallyapproved in 2001. Last previous edition approved in 2015 as F2137 15a. DOI:10.1520/F2137-16.2For referenced AS

14、TM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.3Available from Society of Automotive Engineers, 400 Commonwealth Drive,Warrend

15、ale, PA 15096.4Available from European Committee for Standardization, http:/www.cen.eu/.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States13.1.5.3 vehicle coordinate systema coordinate system thatis fixed with respect to the ride or devi

16、ce being tested.3.1.6 data channelthe entire instrumentation system for asingle channel of data acquisition; from the transducer to thefinal representation of the data, including all post-acquisitiondata processing that may alter the amplitude or frequencycontent of the data.3.1.7 data channel full

17、scalethe maximum usable value,in units of the physical phenomenon being measured, that maybe represented by a data channel. This value is determined bythe data channel component with the lowest full-scale range.3.1.8 free-run timea period of time during the ride cyclewhen no energy is added to the r

18、ide vehicle.3.1.9 full-scalethe maximum usable value, in units of thephysical phenomenon being measured, which may be repre-sented by a data channel or some component thereof.3.1.10 “g”the standard acceleration due to gravity at thesurface of the earth. Defined as 32.2 ft/s/s or 9.81 m/s/s.3.1.11 no

19、nlinearitythe ratio, in percent, of the maximumdifference between a calibration value and the correspondingvalue determined from the straight line defined by the sensi-tivity coefficient and zero bias.3.1.12 reference calibration systemthe entire calibrationinstrumentation system from the reference

20、transducer to theoutput device that provides the calibration excitation value inengineering units appropriate to the physical phenomenonbeing measured.3.1.13 resolutionthe lowest magnitude data channel out-put value that can be identified as non-zero.3.1.14 sensitivity coeffcientthe slope of the str

21、aight linerepresenting the best fit, as determined by the method of leastsquares, to calibration values generated at a single frequencyand at various amplitudes within the data channel full scalerange. In the special case where only a single calibration valueis considered, the sensitivity coefficien

22、t and the calibrationvalue will be equal.3.1.15 standardized amusement ride characterization test(SARC Test)an instrumented test of an amusement ride ordevice that is done in conformance to the general specificationsof this standard and the particular specifications of Section 12.3.1.16 test data re

23、cordthe uninterrupted time record ofdata channel value(s) that results from a data acquisitionsession. the length of a data acquisition session is not specified.The data acquisition session is considered complete (or inter-rupted) when data is not recorded for a time interval longerthan the sampling

24、 period of the data recorder. Both a strip chartpaper record and a computer data file containing periodicallysampled data channel values are typical forms of a test datarecord.3.1.17 test documentationthe entire body of documenta-tion pertaining to a test performed in compliance with thispractice, i

25、ncluding, but not limited to, the test data record(s),data channel specifications and other test specifications, andinformation as provided in this practice (see Section 11 and12.1.9).3.1.18 transducerthe device at the front end of the datachannel that converts a physical phenomenon, such asaccelera

26、tion, to a calibrated electrical signal that may be inputto the remainder of the data channel.3.1.19 transverse sensitivitythe sensitivity of a rectilineartransducer to excitation along an axis that is perpendicular toits nominal sensitive axis.FIG. 1 Frequency Response EnvelopeF2137 1623.1.20 zero

27、biasthe magnitude of the data channel outputwhen the transducer input is zero or static.4. Significance and Use4.1 This practice is intended for use whenever the dynamiccharacteristics of an amusement ride or device are to bedetermined. The existence of this practice is not intended toimply that the

28、re is a requirement to perform specific testing onamusement rides or devices.4.2 The general provisions of this practice provide instru-mentation specifications, data acquisition and testingprocedures, and documentation requirements that when appliedwill improve the repeatability, reliability, and u

29、tility of the testresults.4.3 Based on the general provisions of this practice, theSARC Test specifications, when followed, will yield standard-ized test results regarding the patron-related, dynamic motionof amusement rides or devices. The SARC Test will facilitateboth the meaningful comparison of

30、the dynamic motion ofdifferent amusement rides or devices and the tracking ofchanges, if any, in the dynamic characteristics of a given rideor device.5. Data Channel Performance Specifications5.1 CFC DefinitionsThe following channel frequencyclasses are defined as standard:CFC10ACFC60BFL0.0 Hz 0.0 H

31、zFH10.0 Hz 60.0 HzFN16.7 Hz 100 HzFS120 Hz 720 HzACFC10 should be used when the data channel is being used for acquisition oflower frequency events.FIG. 2 Patron Coordinate SystemF2137 163BCFC60 should be used when the data channel is being used for acquisition ofhigher frequency events.5.1.1 Other

32、channel frequency classes may be defined asneeded or desired by the user of this practice. The proportionalrelationship between FH, FN, and FSshall be maintained for allchannel frequency classes.5.2 Minimum data channel resolution shall be 2 % of thedata channel full scale.5.3 Maximum nonlinearity s

33、hall be 2.5 % of the datachannel full scale.5.4 Minimum time base resolution shall be 1/FS(s).5.5 Maximum relative delay or time shift between datachannels that are nominally acquired simultaneously shall be1/FS(s).6. Transducer Performance Specifications6.1 Transducer selection shall be consistent

34、with the in-tended test objectives and generally accepted instrumentationand engineering practice.6.2 The transducer frequency response curve shall conformto the CFC frequency response envelope from FLthrough2FHand exhibit no more than +6 dB of peaking at thenatural frequency of the transducer.6.3 M

35、aximum transverse sensitivity shall be 3 %.7. Recorder Performance Specifications7.1 Analog Data Recorders:7.1.1 The analog data recorder shall provide a method bywhich the zero bias, if any, can be reduced to less than the datachannel minimum resolution prior to acquiring any test data.7.1.2 Minimu

36、m amplitude resolution shall be two 2 % of thedata channel full scale.7.1.3 Paper tape recorders (or their equivalent) shall providea minimum paper speed, in mm/s, of 1.5 FH(Hz).7.2 Digital Data Recorders:7.2.1 All data shall be acquired with a minimum CFC of ten.7.2.2 Minimum amplitude resolution s

37、hall be 0.10 % of thedata channel full scale.7.2.3 Minimum sample rate shall be FS(Hz) for the chosenCFC.7.2.4 Protection from aliasing errors in the sampled datashall be accomplished by pre-sample filtering that conforms tothe specified CFC frequency response envelope for the datachannel.7.2.4.1 Al

38、ternate protection from aliasing errors may beaccomplished by providing appropriate pre-sample, anti-aliasfiltering in conjunction with a higher-than-FSsample rate anddigital post-acquisition filtering such that the frequency re-sponse envelope of the data channel conforms to the desiredCFC frequenc

39、y response envelope. The anti-alias filter charac-teristics shall be such that the maximum possible signalamplitude at one half the sampling frequency is less than thedata channel minimum resolution.8. Calibration Specifications8.1 For transducers, data recorders, or any other data chan-nel componen

40、t that is subject to calibration changes over time,the calibration constant and frequency response shall bedetermined and documented annually.8.2 Reference calibration instrumentation used as a second-ary standard in the calibration of a data channel or anysubsystem thereof shall have current certif

41、icates of calibrationthat are traceable to accepted national standards.8.3 The reference calibration system and calibration meth-ods shall not introduce a calibration error greater than 1.5 % ofthe data channel full scale.8.4 To establish a data channel or data channel componentfrequency response an

42、d calibration constant, sensitivity coef-ficients shall be determined from calibration values measuredat a minimum of one signal amplitude that represents at least50 % of the full scale range of the data channel or componentbeing calibrated and throughout a range of frequencies from FLto 10 FHfor a

43、given CFC. A minimum set of five sensitivitycoefficients establishes the frequency response of a data chan-nel or component. The minimum set of sensitivity coefficientsshall be generated at frequencies that nominally correspond tothe following CFC specifications:FL, FH, FN,23 FH, and 10 3 FN8.5 To e

44、stablish nonlinearity, a minimum of one sensitivitycoefficient shall be determined from calibration values gener-ated at a minimum of three signal amplitudes that nominallycorrespond to the following percentages of the minimumfull-scale range of the data channel or data channel componentbeing calibr

45、ated: Less than 20 % of full scale, 50 % of fullscale, and 80 % of full scale. For the minimum requirement ofa single sensitivity coefficient, the nominal frequency shall behalfway between FLand FH.9. Transducer Location and Mounting9.1 General Instrumentation:9.1.1 Transducer location, orientation,

46、 and mountingmethod shall be consistent with the intended test objectives andgenerally accepted instrumentation and engineering practice.9.1.2 Transducers shall be mounted such that the anglebetween the sensitive axis (axes) of the transducer and thecorresponding axis (axes) of the selected coordina

47、te systemshall be no greater than 5.9.2 General Accelerometry:9.2.1 MountingTo avoid distortion in the data channelvalues, accelerometers shall be mounted so as to minimizerelative motion between the transducers and the instrumentedsurface.When deemed appropriate, an analytical or experimen-tal eval

48、uation of transducer mounting effects on the datachannel should be provided (see 11.1.6).9.2.2 When multi-axis accelerations at a point are to bemeasured, the center of seismic mass of each accelerometershall be within 60 mm of that point. Each accelerometer axisshall be within one degree of orthogo

49、nal relative to the otheraxes.F2137 16410. Procedure10.1 The unique characteristics of a particular amusementride or device or other special circumstances may be such thatit is not reasonably possible to test in strict conformance withone or more provisions of this practice. Any deviation(s) fromthe provisions of this practice shall be recorded so as to clearlyprovide a description of the specific deviation(s).10.2 Field Calibration:10.2.1 Where practical, all data channels should be sub-jected to a field calibration procedure to establ

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