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本文(ASTM D6804-2002(2015) 4108 Standard Guide for Hand Hole Design in Corrugated Boxes《波纹箱把手设计的标准指南》.pdf)为本站会员(ideacase155)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 D6804-2002(2015) 4108 Standard Guide for Hand Hole Design in Corrugated Boxes《波纹箱把手设计的标准指南》.pdf

1、Designation: D6804 02 (Reapproved 2015)Standard Guide forHand Hole Design in Corrugated Boxes1This standard is issued under the fixed designation D6804; the number immediately following the designation indicates the year oforiginal adoption or, in the case of revision, the year of last revision. A n

2、umber in parentheses indicates the year of last reapproval. Asuperscript epsilon () indicates an editorial change since the last revision or reapproval.1. Scope1.1 This standard provides guidelines for designing pre-cutapertures intended for use as hand holes in corrugated boxesduring manual handlin

3、g of boxed cargo.1.2 LimitationsThis standard offers guidance for packagedevelopment and for subsequent testing of boxes to measureperformance. It is not intended to provide specific informationon the design of hand holes.1.3 The values stated in inch-pound units are to be regardedas the standard. T

4、he SI units are for information only.1.4 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 regulatory req

5、uirements prior to use.2. Referenced Documents2.1 ASTM Standards:2D585 Practice for Sampling and Accepting a Single Lot ofPaper, Paperboard, Fiberboard, and Related Product(Withdrawn 2010)3D996 Terminology of Packaging and Distribution Environ-mentsD1974 Practice for Methods of Closing, Sealing, and

6、 Rein-forcing Fiberboard BoxesD4332 Practice for Conditioning Containers, Packages, orPackaging Components for TestingD5276 Test Method for Drop Test of Loaded Containers byFree FallE4 Practices for Force Verification of Testing MachinesE122 Practice for Calculating Sample Size to Estimate, WithSpec

7、ified Precision, the Average for a Characteristic of aLot or Process3. Terminology3.1 DefinitionsGeneral definitions for packaging and dis-tribution environments are found in Terminology D996.3.2 Definitions of Terms Specific to This Standard:3.2.1 hand holesapertures, pre-cut in corrugated boxes by

8、box manufacturers, as requested by box purchasers. Theseapertures facilitate manual handling during distribution andimprove grip during handling.4. Significance and Use4.1 It may be desirable at times to provide hand holes incorrugated boxes. Package designers use hand holes to solveergonomic and ha

9、ndling problems associated with large orawkward containers. This guide provides an aid for properhand hole design and use.4.2 Ergonomics:4.2.1 In studying and applying ergonomic principles, ofprimary concern is the need to provide a safe work environ-ment for material handlers who may be required to

10、 lift ortransport packages. A safe work environment is difficult todefine and varies with the package in question. Severalergonomic safety issues involve repetitive motions and spineloading in the lifting process. Other issues involve finger andfoot protection.4.2.2 In distribution centers or wareho

11、uses, low back disor-ders have been identified as areas of elevated risk. Low backproblems continue to represent the most common and costlymusculoskeletal disorders in the work place.44.2.3 One method used to reduce the concern of distance oflift (spinal loading) is to bring the reach of the materia

12、lhandlers hands closer to the body. With large or awkwardboxes, placing hand holes in a more advantageous position cansolve this problem.4.3 NIOSH:4.3.1 The National Institute for Occupational Safety andHealth (NIOSH) has published Work Practices Guide for1This guide is under the jurisdiction ofASTM

13、 Committee D10 on Packaging andis the direct responsibility of Subcommittee D10.27 on Paper and PaperboardProducts.Current edition approved Oct. 1, 2015. Published October 2015. Originallyapproved in 2002. Last previous edition approved in 2011 as D6804 02 (2011).DOI: 10.1520/D6804-02R15.2For refere

14、nced 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 onthe ASTM website.3The last approved version of this historical standard is referenced onw

15、ww.astm.org.4“Effects of Box Features on Spine Loading during Warehouse Order Selecting,”Marras, Granata, Davis, Allread, and Jorgensen, The Institute for Ergonomics, OhioState University.Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United State

16、s1Manual Lifting.5This document may be of assistance indeveloping proper hand holes and their placement for a specificpackage.4.4 Improper Use of Hand Holes:4.4.1 Because of past lawsuits involving the use and misuseof hand holes, the corrugated box industry prefers the termaccess hole instead of ha

17、nd hole on specifications. Thisterminology may have to be agreed upon between supplier anduser.Fig. 14.4.2 Since all end use conditions and requirements cannotbe foreseen and since designing for worst case scenario for allapplications is prohibitively expensive, designers should fol-low best practic

18、es. The prudent designer will consider productand package weight when deciding the proper use of a handhole.5. General Design Considerations5.1 Hand holes can take many forms (see Fig. 1). They can:5.1.1 Be a simple hole in a box,5.1.2 Be a complex molded handle with a reinforcementmounted at the at

19、taching point,5.1.3 Incorporate rope handles, and5NIOSH Technical Report No. 81-122 from the US Department of Health andHuman Sevices.FIG. 1 Common Hand Hole TypesD6804 02 (2015)25.1.4 Be reinforced by the box maker with reinforcing tapeapplied above them.5.2 If possible, position hand holes so that

20、 product andinternal cushioning material can add support for carrying (seeFig. 2). If the box must bear all the weight, it is best to positionthe hand holes at least two (2) in. below the horizontal scoreline of end panels to distribute the compressive forces andavoid failure. When placing hand hole

21、s, consider productbalance and box closure method.5.3 Some closure methods, such as taping, can affect handhole placement. When a hand hole is to be used with a boxstyle such as an RSC, which is to have a tape closure (seePractice D1974), it is best to allow enough room (2 to 212-in.)for the end-leg

22、 of the tape (see Fig. 3). For a Bliss style box,hand holes should be placed just below the top flange (see Fig.4).5.4 Several methods are used to reinforce a box above thehand hole. For example, pressure sensitive, heat activated, andadhesive based products can be used. Some have fiberglass orpolye

23、ster yarn reinforcement, some are tensilized, and someare made of heavy kraft paper (see Fig. 5).5.5 When possible, use curved type hand holes: they willnot tear as easily as the straight top design (see Fig. 4). Thecurved design eliminates a sharp edge at the corners, resultingin a more evenly dist

24、ributed lifting force across the surface.Note that a different type of grasping device will be requiredwhen testing curved hand holes as opposed to straight ones (seeX1.3, Apparatus).6. Evaluation6.1 The test methods in Appendix X1 are not ASTMstandards, but are evaluation methods to assist in deter

25、miningthe relative performance of hand holes during handling in theFIG. 2 Box with Internal Cushioning Material, showing location above Hand Hole to provide Added Support for CarryingFIG. 3 RSC Style Box with Tape Closure, showing location ofHand Hole 2.5 in. below top edge of boxD6804 02 (2015)3dis

26、tribution environment. The methods, in experimental trials,were shown to have high variability between laboratories;however, within laboratories the methods were useful indetermining relative performance.7. Keywords7.1 corrugated boxes; distribution environment; hand holes;manual handlingFIG. 4 Blis

27、s Style Box showing Curved Hand Hole located just below the Top FlangeFIG. 5 RSC Style Box showing placement of Reinforcement Material around perimeter of box, just above Hand HoleD6804 02 (2015)4APPENDIX(Nonmandatory Information)X1. EVALUATION OF PERFORMANCE OF HAND HOLES IN CORRUGATED BOXESX1.1 Su

28、mmary of MethodsX1.1.1 Method A, Jerk TestUses free-fall drop test appa-ratus in conjunction with a support apparatus and graspingdevice(s), imparting a sudden sharp arrested motion (jerk) tothe hand hole area of a corrugated box. A grasping devicesimilar to that shown in Fig. X1.1 provides contact

29、with thehand hole.X1.1.1.1 This method is applicable for testing both one- andtwo-hand lifting of boxes. It is not intended for horizontalpulling of the box (see Method B, Tensile Test).X1.1.2 Method B, Tensile TestUses tensile testing ma-chines having a constant free-running crosshead speed orconst

30、ant extension rate to determine the maximum load carry-ing ability of the hand hole(s) in the tested box. Contact withthe hand hole is provided by the same type of grasping deviceused for Method A, and the box is fixed to the stationaryportion of the machine.X1.1.2.1 With proper fixturing, this meth

31、od is applicable totesting one- and two-hand lifting, and horizontal pulling ofboxes.X1.2 Significance and UseX1.2.1 These test methods will assist in determiningwhether hand holes in corrugated boxes will perform tospecific level(s) of handling force(s) expected in the distribu-tion environment dur

32、ing manual handling. These forces can bestatic, that is, a box picked up slowly, or dynamic, a box pickedup or moved with a jerking motion. These methods may beused to compare different types of hand hole/box construction,or to measure performance to a specified level.X1.2.2 During testing, forces a

33、re applied in directions mostfrequently seen in normal manual handling. In addition to thenormal direction of force (usually vertical), other directionscould be diagonal (such as when lifting a box with one hand)and at 90 (such as when boxes are pulled by the hand holerather than lifted).X1.3 Appara

34、tusX1.3.1 Grasping Device:X1.3.1.1 The grasping device shall be similar to that shownin Fig. X1.1. The width should be modified to match the widthof the straight portion of the hand hole, up to a maximum widthof 4 in. Hand holes having a curved top edge may requirespecial designs, to be determined b

35、y the user.X1.3.1.2 For a vertical jerk or tensile test, two graspingdevices are used, each connected to a spreader bar that supportsthe two devices at a distance such that the devices hangvertically when lightly engaging both hand holes (see Fig.X1.2).X1.3.1.3 The user must be sure that the graspin

36、g devices,spreader bar, and connecting hardware are of sufficient strengthto safely hold the load.X1.3.2 Method A, Jerk Test (see Fig. X1.2):X1.3.2.1 Drop Test Apparatus, with a platform or otherfeature which supports a corrugated box, such that the box maybe released for free-fall from a specified

37、height. Supportapparatus for the grasping device must suspend the box at least6 in. (150 mm) above the floor or test apparatus base. Thesupport apparatus must secure the grasping device(s) soessentially no yielding or elastic stretch occurs when the boxfalls and its motion is arrested by the device(

38、s). A chain orflexible steel cable suspended from a rigid support or overheadhoist may be used for this purpose.X1.3.2.2 An elastic cord may be used to take up the slack inthe chain or cable to make sure the grasping device(s) stays inthe hand hole(s). The cord shall be stiff enough to just supportt

39、he weight of the fixture at the desired drop height and yetimpart no significant additional force at the bottom of travel,that is, when there is no slack in the chain.X1.3.3 Method B, Tensile Test (see Fig. X1.3):X1.3.3.1 A tensile testing machine capable of producing aconstant cross-head speed or r

40、ate of extension shall be used.X1.3.3.2 Machines used for tensile testing shall conform tothe requirements of Practice E4. The forces used in determin-ing the tensile strength shall be within the verified forceapplication range of the testing machine as defined in PracticeE4.X1.3.3.3 A method to det

41、ermine and record the maximumforce applied during the test shall be provided.NOTE X1.1It may be of interest to record the amount of energyrequired to cause failure.X1.4 Sampling and Test SpecimensX1.4.1 Selection of a sampling plan depends on the purposeof the testing. The sampling plan from Appendi

42、x X2.2.2 ofPractice D585 is recommended for acceptance criteria. Forpurposes other than acceptance criteria, Practice E122 isrecommended.X1.4.2 Pack the box with either the actual contents, or adummy load simulating the contents with respect todimensions, weight, center of gravity, moment of inertia

43、, andflow characteristics. Close the box the same way it will be usedfor shipment.X1.4.2.1 For tensile tests, fixturing may make it impossibleto use actual contents.The weight, center of gravity, moment ofinertia, and flow characteristics of the contents are not signifi-cant parameters for tensile t

44、ests. However, fixturing andcontents must be such that the deformation of the box andstrength of the hand holes are not affected.X1.5 ConditioningX1.5.1 All test specimens shall be preconditioned,conditioned, and tested in accordance with Practice D4332,orother special conditions as required.D6804 0

45、2 (2015)5FIG. X1.1 Grasping DeviceD6804 02 (2015)6FIG. X1.2 Jerk Test ConfigurationsD6804 02 (2015)7FIG. X1.3 Tensile Test ConfigurationsD6804 02 (2015)8X1.6 ProcedureX1.6.1 Method A, Jerk Test:X1.6.1.1 Insert the grasping device(s) in the hand hole(s),and raise the filled box so that it is suspende

46、d at least 6 in. (150mm) above the floor or drop apparatus base. Note the distancefrom the floor or base to the box, and then use the drop testapparatus to raise the box to the desired free-fall drop height,relative to the free suspended position. An elastic cord may beused to take up the slack in t

47、he chain or cable to hold thegrasping device(s) in the hand hole(s). Refer to Fig. X1.2 forgraphic descriptions of the test configuration.X1.6.1.2 The spreader bar (see Fig. X1.2) must remain in ahorizontal and level position during the test.X1.6.1.3 When conducting the One-Hand Jerk test, the boxcl

48、osure method must be the same as intended for actual use.X1.6.1.4 Release the drop test apparatus, allowing the boxto free-fall for the desired drop height until stopped by thegrasping device(s). (WarningWhen a hand hole fails ineither a two-hand or one-hand test, the box and graspingdevices may mov

49、e in a violent and unpredictable manner.X1.6.1.5 Perform the jerk tests to a prescribed sequence,using a single or multiple constant drop height procedure, or aprogressive drop height procedure. Refer to Test MethodD5276 Annex A2 for guidance on drop test cycles andprocedures. Typical drop heights for jerk testing range from 0.5to 8 in. (13 to 200 mm), sufficient to produce 40 to 60 in.-lbf(4.5 to 6.8 J) of energy (gross weight drop height). Energylevels may be lower for multiple drop sequences, perhaps aslow as 5 in.-lbf (0.6 J) for repeated drops of a light

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