ANSI ASABE S331.6-2015 Implement Power Take-Off Drive Shaft Specifications.pdf

1、 ANSI/ASAE S331.6 AUG2015 Implement Power Take-Off Drive Shaft Specifications American Society of Agricultural and Biological Engineers ASABE is a professional and technical organization, of members worldwide, who are dedicated to advancement of engineering applicable to agricultural, food, and biol

2、ogical systems. ASABE Standards are consensus documents developed and adopted by the American Society of Agricultural and Biological Engineers to meet standardization needs within the scope of the Society; principally agricultural field equipment, farmstead equipment, structures, soil and water reso

3、urce management, turf and landscape equipment, forest engineering, food and process engineering, electric power applications, plant and animal environment, and waste management. NOTE: ASABE Standards, Engineering Practices, and Data are informational and advisory only. Their use by anyone engaged in

4、 industry or trade is entirely voluntary. The ASABE assumes no responsibility for results attributable to the application of ASABE Standards, Engineering Practices, and Data. Conformity does not ensure compliance with applicable ordinances, laws and regulations. Prospective users are responsible for

5、 protecting themselves against liability for infringement of patents. ASABE Standards, Engineering Practices, and Data initially approved prior to the society name change in July of 2005 are designated as “ASAE“, regardless of the revision approval date. Newly developed Standards, Engineering Practi

6、ces and Data approved after July of 2005 are designated as “ASABE“. Standards designated as “ANSI“ are American National Standards as are all ISO adoptions published by ASABE. Adoption as an American National Standard requires verification by ANSI that the requirements for due process, consensus, an

7、d other criteria for approval have been met by ASABE. Consensus is established when, in the judgment of the ANSI Board of Standards Review, substantial agreement has been reached by directly and materially affected interests. Substantial agreement means much more than a simple majority, but not nece

8、ssarily unanimity. Consensus requires that all views and objections be considered, and that a concerted effort be made toward their resolution. CAUTION NOTICE: ASABE and ANSI standards may be revised or withdrawn at any time. Additionally, procedures of ASABE require that action be taken periodicall

9、y to reaffirm, revise, or withdraw each standard. Copyright American Society of Agricultural and Biological Engineers. All rights reserved. ASABE, 2950 Niles Road, St. Joseph, Ml 49085-9659, USA, phone 269-429-0300, fax 269-429-3852, hqasabe.org ANSI/ASAE S331.6 AUG2015 Copyright American Society of

10、 Agricultural and Biological Engineers 1 ANSI/ASAE S331.6 AUG2015 Revision approved August 2015 as an American National Standard Implement Power Take-Off Drive Shaft Specifications Proposed by the Engineering Policy Committee of the Farm and Industrial Equipment Institute; approved by the ASAE Power

11、 and Machinery Division Standards Committee; adopted by ASAE as a Recommendation December 1969; reconfirmed December 1970; revised December 1971, December 1972; reconfirmed December 1976; reclassified as a Standard March 1978; revised March 1981; approved as an American National Standard December 19

12、82; reconfirmed December 1985; revised February 1990; revision approved by ANSI April 1991; revised March 1995; revision approved by ANSI January 1996; reaffirmed by ASAE December 1999; reaffirmed by ANSI June 2000; reaffirmed by ASAE February 2005; reaffirmed by ANSI March 2005; reaffirmed by ASABE

13、 January 2010; reaffirmed by ANSI February 2010; revised and approved by ASABE and ANSI August 2015. Keywords: Drive shaft, Implement, Power take-off 1 Purpose 1.1 The purpose of this Standard is to establish multiple categories of universal joint drive shafts with two subsets of telescoping members

14、 each, one heavy duty, HD, and one regular duty, RD 1.2 The intended use of the drive shafts is between tractor power take-off (PTO) shafts and power input connections (PIC), or any universal joint application within the implement. The PTO drive shaft from the tractor PTO to the (PIC) is considered

15、a part of the implement. 1.3 This Standard does not provide for dimensional interchangeability from one implement to another. 2 Normative References The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For un

16、dated references, the latest edition of the referenced document (including any amendments) applies. ANSI/ABMA 11-2014, Load Ratings and Fatigue Life for Roller Bearings ANSI/ASABE AD5673-1, Agricultural tractors and machinery Power take-off drive shafts and power-input connection Part 1: General man

17、ufacturing and safety requirements ANSI/ASABE S604.1 SEP2014, Safety for Power Take-off (PTO), PTO Drive Shafts, and Power Input Connection (PIC) for Agricultural Equipment 3 Requirements 3.1 Seals used shall not be subject to damage from over lubrication. 3.2 Drive shafts, when lubricated shall be

18、designed to permit lubrication of all sides of the telescoping members. ANSI/ASAE S331.6 AUG2015 Copyright American Society of Agricultural and Biological Engineers 2 3.3 Provisions shall be made in the telescoping members to assure correct phasing of the universal joints. 4 Test Specifications 4.1

19、Drive shafts shall meet the requirements of the static and dynamic tests. Separate assemblies shall be used for each test. 4.2 Static torsional tests 4.2.1 Torsional yield test for cross and bearing kit and yokes. With zero angularity, cross, bearings, and yokes shall withstand the static torque sho

20、wn in Table 1 without failure. Failure is defined as a break, crack or permanent deformation greater than a 50% change in the slope of the torque deflection curve. 4.2.2 Torsional yield test for connecting members. Telescoping members between universal joints shall withstand the static torque shown

21、in Table 1 without failure. Failure is defined as any break, crack or permanent deformation exceeding 1 degree per 305 mm of length (1 degree per lineal foot). This does not apply to torque limiters used between joint centers. Table 1 Static torsional requirements Category Cross, Bearing, and Yoke A

22、ssemblies Connecting Members Regular Duty Heavy Duty Nm lbfin. Nm lbfin. Nm lbfin. 1 1 130 10 000 560 5, 000 790 7 000 2 1 810 16 000 1 130 10, 000 1 580 14 000 3 2 490 22 000 1 580 14, 000 2 150 19 000 4 3 950 35 000 1 920 17, 000 2 940 26 000 5 5 650 50 000 2 940 26, 000 4 180 37 000 6 7 340 65 00

23、0 3 730 33, 000 5 420 48 000 7 9 600 85 000 4 860 43, 000 7 000 62 000 8 12 430 110 000 6 780 60, 000 9 040 80 000 9 16 160 143 000 8 080 78 000 11 750 104 000 10 21 000 185 900 10 500 101 400 15 280 135 200 11 27 300 241 700 13 650 131 800 19 860 175 800 12 35 500 314 200 17 750 171 400 25 800 228

24、500 4.3 Dynamic torsional tests 4.3.1 Constant angle durability test for needle bearing universal joints Yokes, crosses, bearings and telescoping members shall operate with 10 degree angularity per joint under the constant torque values defined in Table 2 for an equivalent of 1 000 000 revolutions o

25、f the bearing cap on the cross. Table 3 defines operating speeds and corresponding durations that result in the equivalent of 1 000 000 revolutions. (This test may be run at any of the three listed speeds.) Note 1: Due to the 10 degree joint angle, the bearing cap will oscillate a total of 40 degree

26、s relative to the cross during a complete revolution of the drive shaft. ANSI/ASAE S331.6 AUG2015 Copyright American Society of Agricultural and Biological Engineers 3 An L10 life level, as defined in ANSI/ABMA 11-2014, shall be used for crosses and bearings. Failure of a cross and bearing kit will

27、be determined by the temperature of the needle cups. A temperature in excess of 178 C (350 F) is a failure. This test may be run without stopping, or in segments of 8 h. Joints may be regreased during the test at 8 h intervals or per the manufacturers recommendations. Table 2 Dynamic torsional requi

28、rements Category Constant Angle Bearing Durability Test Fully Reversed Torsional Fatigue Test Regular Duty Heavy Duty Nm lbfin. Nm lbfin. Nm lbfin. 1 140 1 200 200 1 800 230 2 000 2 270 2 400 400 3 500 450 4 000 3 380 3 400 560 5 000 680 6 000 4 540 4 800 850 7 500 930 8 200 5 810 7 200 1 020 9 000

29、1 240 11 000 6 1 080 9 600 1 530 13 500 1 690 15 000 7 1 410 12 500 1 980 17 500 2 200 19 500 8 1 810 16 000 2 540 22 500 2 820 25 000 9 2 350 20 800 3 300 29 250 3 670 32 500 10 3 060 27 040 4 300 38 025 4 770 42 250 11 3 970 35 200 5 590 49 400 6 210 54 900 12 5 160 45 700 7 260 64 300 8 070 71 40

30、0 Table 3 Test Parameters Rotational Speed Duration r/min hours 540 277 1 000 150 1 300 115 4.3.2 Drive shaft fully reversed torsional fatigue test. With zero angularity, yokes, crosses, bearings, and telescoping members (excluding torque limiters) must withstand 375 000 fully reversed cycles under a torsional load shown in Table 2. An L10 life level shall be used. A failure is defined as a break or crack.