ANSI ASTM F1703-2013 Standard Guide for Skating and Ice Hockey Playing Facilities.pdf

1、Designation: F1703 13 An American National StandardStandard Guide forSkating and Ice Hockey Playing Facilities1This standard is issued under the fixed designation F1703; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of l

2、ast revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.INTRODUCTIONIce skating and ice hockey have evolved as a result of a convergence of ideas from Canada, theUnited States, and Europe

3、. As a result of differing influences, there are a wide variety of skating andice hockey-playing facilities currently in use.Attention is called to the dimensions of the ice surface. The majority of facilities in Europe complywith those of the International Olympic Committee, 200 ft (60 m) in length

4、 and 100 ft (30 m) in width,while in NorthAmerica, the majority of facilities are 200 ft (60 m) in length and 85 ft (26 m) in width,with both having as near as possible to 28 ft (8.53 m) radius corners. However, variations may exist.In the interest of future standardization, it is recommended that i

5、ce surface dimensions of all newfacilities are those found in this guide.It is recognized that skating and ice hockey-playing facilities are also used for figure skating, speedskating, pleasure skating, and for the sports of broomball, curling, sledge hockey, and ringette.Organizers of these sports

6、may adopt the present guide as written, or modify the guide in accordancewith their special interests.1. Scope1.1 The intent of this guide is to provide consistent consid-erations for the design, construction, and retrofitting of iceskating and ice hockey playing facilities. It is intended toestabli

7、sh guidelines that will provide a level of functionality forrecreational skating, conformity for the purpose of competitionand reduce potential hazards to skaters, players, game officials,spectators, and employees.1.2 This guide should be taken into consideration byowners/operators, architects, plan

8、ners, engineers, equipmentmanufacturers, construction companies, constructioncontractors, and appropriate inspectors who may be involved inthe design and construction of new ice skating/hockey playingfacilities. Whenever possible, environmental sustainability andenergy efficiency should be taken int

9、o consideration in theplanning and design of facilities. This guide applies only to theconstruction and development of new ice skating/hockeyplaying facilities. Portions, however, may be useful for reno-vation projects, such as, replacing worn out dasherboards.1.3 Every arena is unique in material,

10、architecture, andengineering, and therefore will require technical review. Thisguide is not meant to provide an architectural prototype, but isa guide to set forth measures for the development of safer icearena venues.1.4 The values stated in inch-pound units are to be regardedas the standard.The va

11、lues given in SI units are for informationonly.1.5 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 establish appro-priate safety and health practices and determine the applica-bility of regu

12、latory limitations prior to use.2. Referenced Documents2.1 ASTM Standards:2A53/A53M Specification for Pipe, Steel, Black and Hot-Dipped, Zinc-Coated, Welded and SeamlessA60 Specification for Chromium-Vanadium Steel Bars forSprings3A185/A185M Specification for Steel Welded WireReinforcement, Plain, f

13、or Concrete (Withdrawn 2013)41This guide is under the jurisdiction of ASTM Committee F08 on SportsEquipment, Playing Surfaces, and Facilities and is the direct responsibility ofSubcommittee F08.66 on Sports Facilities.Current edition approved Jan. 1, 2013. Published March 2013. Originallyapproved in

14、 1996. Last previous edition approved in 2004 as F1703 04. DOI:10.1520/F1703-13.2For referenced ASTM 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

15、onthe ASTM website.3Withdrawn. The last approved version of this historical standard is referencedon www.astm.org.4The last approved version of this historical standard is referenced onwww.astm.org.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. Un

16、ited States1C150 Specification for Portland CementC260 Specification for Air-Entraining Admixtures for Con-creteC494/C494M Specification for Chemical Admixtures forConcreteC578 Specification for Rigid, Cellular Polystyrene ThermalInsulationD412 Test Methods for Vulcanized Rubber and Thermoplas-tic E

17、lastomersTensionD1056 Specification for Flexible Cellular MaterialsSponge or Expanded RubberD1667 Specification for Flexible Cellular MaterialsPoly(Vinyl Chloride) Foam (Closed-Cell)2.2 ANSI Standards:5ANSI Z87.1 Occupational and Educational Personal Eyeand Face Protection DevicesANSI Z97.1 Specific

18、ation for GlassANSI Z535 Specification for SignsANSI Z535 Warning Labels2.3 Other Standards:6MIL-STD-810F Environmental Engineering ConsiderationsLaboratory Tests3. Terminology3.1 Definitions of Terms Specific to This Standard:3.1.1 backerpanel, nwood or high-density polyethylenematerial to enclose

19、the back of the dashers for aesthetic orcleanliness.3.1.1.1 DiscussionThey can be mechanically fastened tothe dasher frame or a quick release type for multi-purposefacilities.3.1.2 board cap, caprail, or rail, nwood, plastic, or otherhigh impact material matching the frame width of the boardsincludi

20、ng the facing (and backer panel, if used).3.1.2.1 DiscussionIt should be attached at right angles tothe top of the boards with bullnosed-raidiused edges.3.1.3 dasher boards, nwood, steel, aluminum or fiberglassframed enclosure with wood or other high-impact (high-density polyethylene) facing materia

21、l that surrounds the icesurface and is part of the playing area. Also called the boards.3.1.4 design, nconceptual detail and configuration of thespaces within and around the ice rink/arena.3.1.5 facility, nbuilding which also accommodates anartificial ice surface and is used for ice activities or no

22、n-iceactivities. Also known as the arena.3.1.6 rink, nplaying area consisting of a horizontal icesurface surrounded by a vertical enclosure used for ice sportsand activities.3.1.7 game lines, ncolored lines drawn below the icesurface that divide the playing surface into various areas asdescribed in

23、the rules of play.3.1.8 goal, ncombination of the goal frame and goalnetting and can also include the bottom and vertical padding ofthe frame.3.1.8.1 anchoring of goal, ngoal should not have any typeof screwed in pipe fastening system. A type of anchoringsystem should be used so that the goal post m

24、ay be dislodgedwhen hit by a player sliding into the goal post and does notmove upon impact of the puck.3.1.8.2 goal frame, ntwo rounded, rigid metal posts con-nected at the top by a straight crossbar of similar material withrounded ends and placed on the ice surface on the goal line,rising vertical

25、ly 4 ft (1.3 m) and set 6 ft (1.83 m) apartmeasured from the inside of the posts.3.1.8.3 goal net, nnet of appropriate mesh and cord size torestrict the penetration of a high velocity puck shot, connectedto the posts and the crossbar.3.1.9 ice dam, nhigh impact material (typically steel orpolyethyle

26、ne) that is anchored to the concrete floor and acts asa curb to contain the ice surface when the boards are removed.3.1.9.1 DiscussionThis ice dam should be used in anyfacility that takes the dasher boards out for non-ice events toeliminate any breaking or tearing of the ice along the perimeterof th

27、e ice surface. The ice dam should match the length andwidth of each dasher panel and be anchored independentlyfrom the dasher panel sitting on top.3.1.10 kick-plate, nthat portion of the boards that contactsthe ice surface, made of a high-impact material and also part ofthe playing surface.3.1.11 sh

28、ielding, ntransparent, shatter-resistant glass,plastic, or similar material that is also part of the playingsurface and extends above the boards.3.1.12 netting, nflexible mesh material suspended in frontof viewing areas to contain the puck.3.1.13 other barrier materials, nin some facilities, it mayb

29、e necessary to use other materials, such as chain link fence orwelded wire fabric as shielding.4. Building Structures and Environment4.1 DesignThe ice skating facility (arena), rink and otherinterior and exterior components should be designed andengineered by a registered, professional architect and

30、 engineer preferably with industry-specific knowledge and experience.It is also recommended that an owner/operator representativebe involved in the design process.4.1.1 Handicapped Accessibility- Designers, architects,engineers, equipmant manufacturers and installers shall takeinto considerations al

31、l Americans With Disabilities (A.D.A.)regulatory requirements.4.1.2 DocumentationDocumentation of the specifications,designs, installation, blueprints, records, permits, catalogs, andmanuals from the arenas professional consultants, suppliers,manufacturers, and inspectors of the venue equipment syst

32、emsshould be provided to the owner/operator.4.1.3 SelectionMany factors, including climate, can influ-ence the selection of ice rink systems and other components.5Available from American National Standards Institute (ANSI), 25 W. 43rd St.,4th Floor, New York, NY 10036.6Available from Standardization

33、 Documents Order Desk, Bldg. 4 Section D, 700Robbins Ave., Philadelphia, PA 19111-5094, Attn: NPODS.F1703 132Consideration must be given to such factors in the selection,specification, design, installation, and maintenance of the icerink/arena systems.4.2 Building Configuration:4.2.1 The fire capaci

34、ty of the building, classification of use,and intensity of patron use should be considered in the designprocess.4.2.2 Physical DimensionsThe length, width, and icerink/arena configuration should be considered in relationship tothe site location on the property.4.2.3 Columns and BeamsThe clear span s

35、hould have noobstacles and their placement should not become obstructive toplayers, patrons, or spectators.4.2.4 Construction MaterialsThe durability, strength,wind shear, snow load and fire resistance of materials should bestipulated on all construction plans and specifications inaccordance with st

36、ate and local building codes.4.2.5 Windows, Size, and LocationThermal sound modu-lating glazing should be considered in the design process.4.2.6 Doors, Size, and LocationThe type and use of doorsshould be considered in the design process.4.3 SpacesThe ice arena may include various spaces forthe cond

37、uct of the business such as mechanical room, entryarena, participant changing areas, spectator, and administrativeareas.4.4 Ice Rink AreaThis area should be large enough so thatbuilding walls or bleacher systems do not contact the dasherboard system. There should be a minimum of 20 ft (6.1 m)above t

38、he ice surface. Building utility lines should not beinstalled under the ice surface area. A drain should be installedat the ice resurfacer entrance outside of the ice surface.4.5 Ice Resurfacer Storage AreaThis area should bedesigned requiring the least amount of turning for the iceresurfacer. The c

39、eiling height should provide enough clearanceto operate the snow tank of ice resurfacer being used in the“raised” snow dump position. Turning radius of machinesshould be considered. A snow dump pit may be constructed tohold up to of 125 ft3volume per ice sheet. The pit should beable to melt 125 ft3o

40、f snow per hour per ice sheet. All garagedoors to this area should be a minimum 9 by 9 ft wide (2.74 by2.74 m). Also, this area should be constructed to be used as arepair garage and meet the appropriate building codes. Thisarea should provide adequate ventilation. This room should beheated and have

41、 adequate floor drains.Aminimum of electricalequipment should be located near the ice resurfacer room sinceit is a wet environment and water may be splashed in this area.Entry area should be designed to allow access only to employ-ees.4.5.1 Asnow melt pit may be designed to use the waste heatfrom th

42、e refrigeration system.4.5.2 A hot water heating system should be included in thedesign to allow the operator of the ice resurfacer to meet hotwater temperature requirements for ice making.4.5.3 Water treatment for ice making water should beconsidered if there is more than 150 ppm of all total disso

43、lvedsolids in the water content and no more than five total grains ofhardness. Water treatment for the refrigeration/cooling systemmust be considered regardless of water quality.4.5.4 Fuel Handling and StorageFossil fuel machinesbeing used in the facility gas detection devices and properventilation

44、should be installed. Levels of carbon monoxide(CO) and nitrogen dioxide (NO2) need to be kept at levelsbelow 30 ppm CO and 0.5 ppm NO2. Fuel storage, handling,and refueling areas to be determined and built accordingly.Sources of ignition should not be in these areas. Always wearpersonal protective e

45、quipment when refueling machines (thatis, gloves, goggles, long sleeve shirt).4.5.5 Battery PrecautionsFacilities using battery operatedmachines should have proper equipment installed. Batteriesshould be stored and worked on in well-ventilated areas. Thehydrogen concentration should not exceed1%byvo

46、lume.Acid neutralizing solutions and shower stations should beinstalled in these areas. Sources of ignition should not be inthese areas. Always wear personal protective equipment ANSIZ87.1 (US Standard) approved face shield and splash proofgoggles when working on or near batteries with acid resistan

47、tclothing (that is, gloves, apron, long sleeve shirt). Please referto the manufacturers recommendations prior to handlingbatteries. If the electrolyte is splashed into an eye or takeninternally, get prompt medical attention.4.6 Seating AreaSeating should be designed to accommo-date the average expec

48、ted attendance for the majority of theevents conducted in the arena. Bleachers should not beaccessible to anyone wearing skates.4.6.1 Height and LocationBleacher height, location, andprotection shall meet the regulations of the Consumer ProductSafety Commission (CPSC) and bleacher industry standards

49、.4.6.2 Spectator Area HeatingHeaters should be installedso as to not adversely affect the ice surface. Thermostats ortimers should be installed to prevent continuous running andshould not be accessible to the general public.4.7 Rest RoomsRest rooms shall meet current local codes.4.7.1 Public rest rooms shall be separate from player lockerrooms.4.8 Skate Changing AreaAdequate skate changing areasshould be provided and have non-slip protective flooring.4.9 Locker RoomsAn ice rink/arena should have at leastfive team rooms per ice sheet. Each