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本文(ASTM C1238-1997(2012) Standard Guide for Installation of Walk-Through Metal Detectors 《内置穿过式金属探测器的安装标准指南》.pdf)为本站会员(王申宇)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ASTM C1238-1997(2012) Standard Guide for Installation of Walk-Through Metal Detectors 《内置穿过式金属探测器的安装标准指南》.pdf

1、Designation: C1238 97 (Reapproved 2012)Standard Guide forInstallation of Walk-Through Metal Detectors1This standard is issued under the fixed designation C1238; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last revis

2、ion. 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 Some facilities require that personnel entering desig-nated areas be screened for concealed weapons and othermetallic materials.

3、 Also, personnel exiting designated areas areoften screened for metallic shielding material and other typesof metallic contraband. Walk-through metal detectors arewidely used to implement these requirements. This guidedescribes various elements to be considered when planning toinstall walk-through m

4、etal detectors.1.2 This guide is not intended to set performance levels, noris it intended to limit or constrain operational technologies.1.3 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is theresponsibility of the user of this standard to

5、establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use.2. Referenced Documents2.1 NRC Document:NUREG-1329 Entry/Exit Control At Fuel Fabrication Fa-cilities Using or Possessing Formula Quantities of Strate-gic Special Nuclear Materi

6、al22.2 U.S. Government Documents:DOE 5632.2A Physical Protection of Special Nuclear Ma-terials and Vital Equipment, February 9, 19883DOE 5633.3 Control and Accountability of Nuclear Mate-rials, February 3, 198832.3 National Fire Protection Associations (NPA) Life SafetyCode Handbook:NFPA-101-1988, C

7、hapter 28, Industrial Occupancy42.4 ANSI Standard:Z41.1-PT-1983 Class 50 and 75For Non-ferrous andFerrous Safety Footwear52.5 National Institute of Law Enforcement and CriminalJustice (NILECJ) Standard:0601.00 For Design, Performance, andAllowable MagneticField Strength33. Terminology3.1 Definitions

8、 of Terms Specific to This Standard:3.1.1 continuous-wave-type metal detectora system gen-erally employing one or more pairs of closely coupled coils.One coil is electrically energized to establish an electromag-netic field; the other detects disturbances in that field. Inoperation, the coils are co

9、nfigured so that the person or objectbeing screened passes through the field. When metal passesthrough the field, the field is modified by the magnetic andelectrical properties of the metal. Any change in the field issensed by measuring one or more of many possible parameters,including mutual induct

10、ance, power loss, phase shift, fre-quency shift, permeability, etc.3.1.2 nuisance alarman alarm not caused by a weapon orshielding material but by other causes such as outside interfer-ence or other operationally or environmentally induced stimu-lus. In practice, these alarms are a nuisance because

11、they arenot obvious and must be investigated and the cause eliminated.3.1.3 pulse-wave-type metal detectorsa system in whichbrief current pulses are generated in transmitter coils when theyare switched on. The electromagnetic field generated by thesepulses induces eddy currents in metallic objects i

12、n the field.The eddy currents decay when the transmitter coils are shut off.The decay of the eddy currents produces secondary voltages inthe receiver coils, which are switched on only when thetransmitter coils are switched off. The voltages induced in thereceiver coils are processed and compared aga

13、inst a bias orbackground level.3.1.4 shieldinga metallic material configured as a crediblegamma-radiation shield for special nuclear materials (SNM).1This guide is under the jurisdiction of ASTM Committee C26 on Nuclear FuelCycle and is the direct responsibility of Subcommittee C26.12 on SafeguardAp

14、plications.Current edition approved Jan. 1, 2012. Published January 2012. Originallyapproved in 1993. Last previous edition approved in 1997 as C1238 - 97(2003).DOI: 10.1520/C1238-97R12.2Available from the U.S. Nuclear Regulatory Commission, Washington, DC20555.3Available from U.S. Government Printi

15、ng Office Superintendent of Documents,732 N. Capitol St., NW, Mail Stop: SDE, Washington, DC 20401, http:/www.access.gpo.gov.4Available from National Fire Protection Association (NFPA), 1 BatterymarchPark, Quincy, MA 02169-7471, http:/www.nfpa.org.5Available from American National Standards Institut

16、e (ANSI), 25 W. 43rd St.,4th Floor, New York, NY 10036, http:/www.ansi.org.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.3.1.5 throughputthe actual rate at which a metal detectorand system can screen personnel for a given applicati

17、on.3.1.6 walk-through metal detectora free-standing screen-ing device having an electromagnetic field within its portalstructure (aperture) for detecting metallic objects, includingsome nuclear shielding materials, carried by persons walkingthrough the aperture.3.1.7 weapona device intended to do da

18、mage to personnelor equipment without intentionally harming the attacker, butrequiring the attacker to physically activate or use the device.4. Significance and Use4.1 This guide is intended for use by the designers, evalu-ators, and users of walk-through metal detectors to be installedto screen per

19、sons entering or leaving a controlled access area.This guide is not meant to constrain design liberty but is to beused as a guide in the selection of location and installation ofwalk-through metal detectors.5. Safety Considerations5.1 Warning signs should be posted if the metal detectorselectromagne

20、tic field strength is of such a magnitude thatpersonal medical devices may be affected or damaged whenthey pass through the portal. See NILECJ Standard 0601.00.5.2 Local fire and safety codes should be reviewed concern-ing requirements for areas selected for metal detector installa-tion. Metal-detec

21、tor installations needing exemption from thefire and safety requirements should be approved in advance.6. Throughput Consideration6.1 The rate at which persons may be screened is generallyan important factor in security applications. Metal-detectorsystems should be capable of dealing with large tran

22、sient trafficflow such as found during shift changes.6.1.1 Throughput varies from one metal detector model tothe next. Throughput also varies from one application to thenext. Applications that require high-sensitivity settings willhave lower throughput.6.1.2 Once the application specific throughput

23、for a detectormodel has been established, the number of detector lanesrequired to achieve system throughput at peak times can becalculated. See 9.2.7. Other Considerations7.1 Review applicable regulatory orders and policies ofappropriate regulatory agencies and facilities for informationpertinent to

24、 metal detector installation and operation.7.2 Examine the power capability of the building electricalsystem to ensure that it is adequate to support the metal-detector system, especially current, voltage, and voltage sta-bility.7.3 Confirm that the available primary and emergencypower are free of n

25、oise and transients. If not, install a filteringor regulating system, or both.An uninterruptable power systemcan provide both filtering and emergency power.7.4 Establish where the metal-detector alarms are to betransmitted and who will be responsible for alarm assessment.7.5 Provide a means for rela

26、ted functions such as space fornearby door opening and closing, door latching, and additionalaudible or visual alarms, or both, as needed to meet all safetyand security requirements.7.6 Where it is necessary to operate metal detectors in closeproximity to each other, they should be of the same manuf

27、ac-turer and model so that the coils can be synchronized oroperated at different frequencies in accordance with the manu-facturers recommendations. If it is necessary to operate metaldetectors of different models or manufacturers, a test should beconducted for interference before the detectors are i

28、nstalled.Where metal detectors are not compatible it may be necessaryto isolate the fields of each detector by as much as 20 to 30 ft.7.7 If all electronic equipment is not designed for outdooruse, provide cover and protect the equipment from the ele-ments, especially high temperature and high humid

29、ity. Ad-equate ventilation should also be provided. Make sure themetal-detector system is stable over a wide range of environ-mental factors (temperature, humidity, etc.).All metal detectorsare sensitive to changes in the surrounding electromagneticenvironment, and that should be the only factor aff

30、ecting stableoperation.8. Layout of the Installation Site8.1 The site layout for walk-through metal-detector instal-lation should be designed to minimize the guard force person-nel required and to avoid processing delays. The site may be ina new area or building, or in an existing area modified to h

31、ousesecurity screening devices.8.2 It is good practice to channel people through separateentry and exit lanes. In areas where more extensive outboundscreening is required, separate lanes and equipment are evenmore desirable so that equipment can be optimized for detec-tion of the specified objects o

32、n entry or exit.8.3 If alarms are remotely monitored, the response tactic(guards action, intercept corridors, lockdown schemes, etc.) toalarms must be considered early in the design process to ensureeffective and efficient interdiction.8.4 Installation of equipment should be arranged to mini-mize nu

33、isance alarms from outside interference. If nuisancealarms are too numerous, the guard force will lose confidencein the equipment, and security may be compromised.8.5 Security equipment often must fit into a space-criticalsite, but adequate space is the single greatest asset for asecurity screening

34、area. Maintaining a well-defined screeningarea is essential so that when an alarm occurs, the securityinspector can clearly identify and isolate the person that causedthe alarm.8.5.1 Layout of the area selected for installation of awalk-through metal detector should provide adequate space forcalibra

35、tion and maintenance of the metal detector.8.5.2 Locate equipment in a manner to clear doors, ductwork, piping, and other equipment.8.5.3 The site layout should provide an alternate means toscreen personnel while the metal detector is out of service. SeeAppendix X1.8.5.4 The layout should also provi

36、de adequate ventilationfor the electronic equipment.8.6 Since metal-detector portal width is typically less thanthe minimum doorway width required by the Life SafetyC1238 97 (2012)2Codes, bypass routes that meet the Life Safety Codes require-ments should be included in the layout design. (See NFPA-1

37、01.)8.7 Metal detector coil assemblies should be securely an-chored to prevent swaying or tip over. The floor should be solidand not prone to transfer vibration to the metal detector. Areinforced concrete floor is recommended. The concrete shouldbe free of steel except for grounded reinforcing bars

38、andelectrical conduit which should be grounded. Raised computerroom floors are not solid and should be avoided.8.8 A metal detector will respond to nearby moving metalobjects, but its sensitivity is less for moving material outsidethan inside the detection zone. To minimize alarms fromoutside moving

39、 metal objects, the distance from the metaldetector to the nearest outside metal object should be at least 3ft. The exact minimum distance may vary and must be verifiedexperimentally because response to external moving metal isdependent on the size configuration and type of metal in theobject.9. Ope

40、rational Factors9.1 Verify that metal-detector by-pass facilities, nonmetallicpass-around table, and operational procedures are in placebefore starting operation of a metal detector.9.2 During off-hours and between shift changes, facilitydesign of multi-detector systems should allow some entry andex

41、it lanes to be closed to reduce manpower requirements.9.3 Alarms caused by metallic items that people carry maydecrease as people learn to limit these routine items. Thislearning process can be reinforced by recirculating the peoplethat cause an alarm, having them remove metal items andtrying again

42、rather than hand-searching them. Recirculatingthese individuals will delay their entry and exit and encouragethem to carry less metal on their person. It will also familiarizethem with the objects that cause alarms.9.4 Before starting operation of a site, procedures should bein place that address th

43、e response to different types of metalobjects that cause an alarm. Specifically shoes that containmetal toe caps or metal arch supports and medically implantedmetal should be addressed in these procedures. (See ANSIZ41.1PT.)9.5 Screening areas should have guard force personnelphysically located in t

44、he area where people are to be screenedso they can observe and respond. Guard force personnel shouldhave good visual and audible interaction with both the equip-ment and the personnel.10. Interferences to Metal Detector Operations10.1 If two or more metal detectors are operating in closeproximity, t

45、hey should be synchronized or operated at separatefrequencies according to the manufacturers recommendations.See 7.6.10.2 Very large metal objects such as metal plates or sheets,within 3 ft of the metal detector coil can reduce its detectionsensitivity. If a large metal object is relocated near a me

46、taldetector, then recalibration and sensitivity testing is required.See Appendix X1.10.3 A significant problem can be caused if the metal-detector assembly moves and causes alarms. To eliminate thispossible cause of nuisance alarms, anchor the detector assem-bly firmly to the floor.10.4 For high-sen

47、sitivity operations, extra caution must betaken to avoid the adverse influence of external moving metalsurfaces. Examples of the moving metal objects are doors,conveyors, fans, elevators, walls, vehicles, and metal carts.10.5 Electrical interference to metal detectors, both radiatedand conductive, m

48、ay be caused by electric motors, relaycontact opening and closing, nearby high-voltage equipment,radio transmitters, computer cables, public-address systemsand speakers, tube-type CCTV cameras and monitors, fluores-cent lights, electric welders, and similar electrical equipment.10.5.1 Electric inter

49、ferences can be decreased by increasingthe distance between a metal detector and the interferingsource, rotating the position of the metal detector in relation tothe interference, or by suppressing or shielding the source ofthe interference and the metal detector, or both.11. Selecting and Installing Equipment11.1 When selecting and installing walk-through metaldetectors, the physical and electrical compatibility of the metaldetector with other equipment that may be installed nearby,such as X-ray equipment, explosive detectors, and specialnuclear materials detectors must

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