ImageVerifierCode 换一换
格式:PDF , 页数:11 ,大小:336.02KB ,
资源ID:431965      下载积分:5000 积分
快捷下载
登录下载
邮箱/手机:
温馨提示:
如需开发票,请勿充值!快捷下载时,用户名和密码都是您填写的邮箱或者手机号,方便查询和重复下载(系统自动生成)。
如填写123,账号就是123,密码也是123。
特别说明:
请自助下载,系统不会自动发送文件的哦; 如果您已付费,想二次下载,请登录后访问:我的下载记录
支付方式: 支付宝扫码支付 微信扫码支付   
注意:如需开发票,请勿充值!
验证码:   换一换

加入VIP,免费下载
 

温馨提示:由于个人手机设置不同,如果发现不能下载,请复制以下地址【http://www.mydoc123.com/d-431965.html】到电脑端继续下载(重复下载不扣费)。

已注册用户请登录:
账号:
密码:
验证码:   换一换
  忘记密码?
三方登录: 微信登录  

下载须知

1: 本站所有资源如无特殊说明,都需要本地电脑安装OFFICE2007和PDF阅读器。
2: 试题试卷类文档,如果标题没有明确说明有答案则都视为没有答案,请知晓。
3: 文件的所有权益归上传用户所有。
4. 未经权益所有人同意不得将文件中的内容挪作商业或盈利用途。
5. 本站仅提供交流平台,并不能对任何下载内容负责。
6. 下载文件中如有侵权或不适当内容,请与我们联系,我们立即纠正。
7. 本站不保证下载资源的准确性、安全性和完整性, 同时也不承担用户因使用这些下载资源对自己和他人造成任何形式的伤害或损失。

版权提示 | 免责声明

本文(ANSI ASME B94.53-1978 Solid Steel Rectangular Metal Cutting Squaring Shear Knives Dimensional Tolerances《实心钢制矩形金属切割方形剪切刀尺寸公差》.pdf)为本站会员(刘芸)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!

ANSI ASME B94.53-1978 Solid Steel Rectangular Metal Cutting Squaring Shear Knives Dimensional Tolerances《实心钢制矩形金属切割方形剪切刀尺寸公差》.pdf

1、AMERICAN NATIONAL STANDARD Solid Steel Rectangular Metal Cutting Squaring Shear Knives DimensionaI Tolerances ANSI 694.53 - 1978 SECE TARIA T THE AMERICAN SOCIETY OF MECHANICAL ENGINEERS THE AMERICAN SOCIETY OF MECHANICAL United Engineering Center 345 East 47th Street New PUBLISHED BY ENGINEERS fork

2、, N. Y. 1 O01 7 ,- i. -. r;L . -_- ASME 874-53 78 0757670 0048570 8 9 No part of this document may be reproduced in any form, in an electronic retrieval system or otherwise, without the prior written permission of the publisher. Copyright O 1978 by THE AMERICAN SOCIETY OF MECHANICAL ENGINEERS All Ri

3、ghts Reserved Printed in U.S.A. ASME 894.53 78 m 0759670 0048591 T m FOREWORD The Metal Cutting Knife Association appointed the “Standards Committee” of the Association to re- view the possibility of standardizing “Squaring Shear Knives.” After reviewing this program the committee notified the membe

4、rs of Technical Committee #17 about this proposed standard and meetings were held on October 8, 1974, April 8, 1975, October 7, 1975, March 9,1976, September 21,1976, December 7, 1976 and March 22, 1977. On May 6, 1977 this Standardization Program was forwarded to the Chairman of the B94 Standards C

5、ommittee, Technical Committee 17 for review and with anticipation of having it adopted as an American National Standard. This Standard was approved as an American National Standard on April 5, 1978. iii 0757670 0048572 L AMERICAN NATIONAL STANDARDS COMMITTEE B94 Standardization of Cutting Tools, Hol

6、ders, Drivers and Bushings OF FICERS Richard K. Buckley, Secretary Harry McLinden, Chairman A. M. Mezey, Vice-chairman AMERICAN GEAR MANUFACTURERS ASSOCIATION, THE P. M. Dean, Jr., Mechanical Technology, Inc., Latham, New York G. L. Scott, Alternate, American Gear Manufacturers Association, Washingt

7、on, D.C. M. E. Merchant, Dr., Cincinnati Milacron, Inc., Cincinnati, Ohio G. M. Monacelli, General Electric Company, Detroit, Michigan C. J. Oxford, Jr., National Twist Drill & Tool Company, Rochester, Michigan AMERICAN SOCIETY OF MECHANICAL ENGINEERS, THE CEMENTED CARBIDE PRODUCERS ASSOCIATION J. A

8、. Woodward, Teledyne Firth Sterling, Pittsburgh, Pennsylvania A. P. Wherry, Alternate, Cemented Carbide Producers Association, Cleveland, Ohio E. J. Czopor, Falcon Tool Company, Detroit, Michigan C. W. Jatho, Alternate, Cutting Tool Manufacturers Association, Birmingham, Alabama W. R. Wacker, Genera

9、l Services Administration, Washington, D.C. Richard Schrade, Clemson Brothers, Inc., Middletown, New York C. M. Stockinger, Alternate, Hack & Band Saw Manufacturers Association of America, Cleveland, Ohio CUTTING TOOL MANUFACTURE8S ASSOCIATION GENERAL SERVICES ADMINISTRATION HACK AND BAND SAW MANUFA

10、CTURERS ASSOCIATION OF AMERICA METAL CUTTING TOOL INSTITUTE W. A. Wagner, CIeveland Twist Drill Company, Cleveland, Ohio R. M. Byrne, Alternate, Metal Cutting Tool Institute, New York, New York To Be Appointed To Be Appointed G. F. Wilson, General Electric Company, Worthington, Ohio E. J. Loeffler,

11、Alternate, National Machine Tool Builders Association, McLean, Virginia C. H. Lang, c/o Society of Carbide Engineers, Bridgeville, Pennsylvania K. A. Lundell, The Producto Machine Company, Jamestown, New York Harry McLinden, Caterpillar Tractor Company, Peoria, Illinois W. N. Moore, The Ford Motor C

12、ompany, Dearbom, Michigan R. A. Agnew, Western Electric Company, Inc., Chicago, Illinois S. P. Rogacki, Alternate, Western Electric Company, Inc., Kearney, New Jersey To be appointed NATIONAL ASSOCIATION OF PUNCH MANUFACTURERS NATIONAL BUREAU OF STANDARDS NATIONAL MACHINE TOOL BUILDERS ASSOCIATION S

13、OCIETY OF CARBIDE ENGINEERS SOCIETY OF MANUFACTURING ENGINEERS TELEPHONE GROUP, THE U.S. DEPARTMENT OF THE AIR FORCE iv I ASME 874.53 78 m 0759670 0048593 3 m I. U.S. DEPARTMENT OF THE ARMY D. L. York, Liaison, General Thomas J. Rodman Laboratories, Rock Island, Illinois U.S. DEPARTMENT OF THE NAVY

14、J. R. Ruff, Liaison, Naval Ship Systems Command, Washington, D.C. U.S. MACHINE SCREW BUREAU Herman Muenchinger, Continental Screw Company, New Bedford, Massachusetts D. E. Chase, Alternate, Continental Screw Company, New Bedford, Massachusetts Harold Cooper, Chrysler Corporation, Detroit, Michigan K

15、enneth Hull, The Ingersoi Milling Machine Company, Rockford, Illinois A. M. Mezey, Richard Brothers Punch Company, Detroit, Michigan Lyle Storrer, Mohawk Tools, Inc., Montpelier, Ohio Anderson Ashburn, American Machinist, New York, New York INDIVIDUAL COMPANIES INDIVIDUAL MEMBERS TECHNICAL COMMITTEE

16、 17 ROTARY SLITTERS AND SHEAR KNIVES C. W. Murray, Chairman, Heppenstail Company, Pittsburgh, Pennsylvania W. W. Burns, Stamco, Inc., New Bremen, Ohio R. R. Ebbing, Detroit Edge Tool Company, Detroit, Michigan F. A. Krauss, The Yoder Company, Cleveland, Ohio S. A. Jacoby, American Shear Knife Compan

17、y, W. Homestead, Pennsylvania D. H. Turk, Production Machinery Corporation, Mentor, Ohio C. E. Pritchard, Republic Steel Corporation, Cleveland, Ohio i. C. Fischer, The Wapakoneta Machine Company, Wapakoneta, Ohio J. B. Randolph, Jr., Ohio Knife Company, Cincinnati, Ohio R. J. White, Cincinnati, Inc

18、., Cincinnati, Ohio R. Novy, Dreis and Krump Manufacturing Company, Chicago, Illinois V - ASIE 899.53 78 0757b70 0048574 5 M CONTENTS Page Scope . 1. Terminolo gy,., 1 Table 1 3 Dimensional Tolerances of Solid Steel Rectangular, Metal Cutting Squaring Shear Knives (Inch). Squaring Shear Knives (Metr

19、ic) Table 2 Dimensional Tolerances of Solid Steel Rectangular, Metal Cutting 5 vi O I l ASME B94-53 78 m 0759670 0048595 7 m ANSI 694.53-1978 AMERICAN NATIONAL STANDARD SOLID STEEL RECTANGULAR METAL CUTTING SQUARING SHEAR KNIVES DIMENSIONAL TOLERANCES 1. SCOPE This document specifies dimensions and

20、tolerances in inches and millimeters for solid steel metal cutting squaring shear knives used for shearing ferrous and non-ferrous metals. The dimensions and tolerances to- gether with the terminology represent within the in- dustry practice for the manufacture, assembly and use of shear knives cove

21、red in this standard. This document contains two separate series of shear knives, a customary unit series and a metric series. Themetric series are hard converted and not interchangeable with the customary product. 2. TERMINOLOGY 2.1 Gap Shear. A sheet or plate shear whose side housings have a throa

22、t or gap allowing the handling of material of a greater width than the width of the ma- chine. 2.2. Plate Shear. A shear to cut flat rolled material %“ (6 mm) and thicker. 2.3 Sheet Shear, A shear to cut flat rolled material less than ?4“ (6 mm) thick. 2.4 Squaring Shear. Shear used to square plates

23、 and sheets. 2.5 Shear Capacity. Capacity of the shear expressed in maximum thickness and length of cut in mild steel. (55,000 PSI Tensile) (380 MPa). 2.6 Solid Steel Shear Knife. Knife composed of one homogeneous grade of tool steel. 2.7 Four Edge Shear Knife. Straight rectangular in section, havin

24、g all four corners (edges) available for cutting. 2.8 Length. The straight line dimension from one end of the cutting edge to the other, and the greatest dimension. 2.9 Width. The second largest external dimension on a shear knife. 2.10 Thickness. The least of the three dimensions used to identify t

25、he size of a shear knife. 2.11 Parallelism. Two surfaces foliowing the same plane at an equal distance. The tolerances on paral- leiism indicate the degree of variation acceptable from the true parallel surfaces. 2.12 Squareness. Two adjacent surfaces being 90 to each other. 2.1 3 Tolerances. Allowa

26、ble deviation from nominal dimensions. 2.14 Bow. Variation from straight plane edgewise or flatwise over full length of knife. (See Table 1 .) 2.15 Flatness. Having an even surface witthout depres- sions or elevations when gauged along the same plane. Tolerance on flatness is the degree of variation

27、 ac- ceptable from the true flat surface. (See Table 1 .) BOLT HOLES 2.16 Angle of Countersink. The included angle formed by the two opposite sides of the countersink. (Meas- ured in degrees.) 2.17 Countersink. Enlarged conical part of a hole to allow for the head of a fastener. 2.18 Keyslot. Slot i

28、n or through hole and countersink to accommodate lug on plow bolt to prevent bolt from turning in knife. 2.19 Tapped Hole. A through-hole with internal threads to accept a thread fastener. AMERICAN NATIONAL STANDARD SOLID STEEL RECTANGULAR METAL CUTTING SQUARING SHEAR KNIVES Cross Section Recommenda

29、tions Width Thickness 2 112 3 314 3 1 4 1 5 1-118 5-1 12 1 -1 12 6-112 1-314 (in Inches) Lengths Recommended knife length should be the shearing length capacity of the shear plus the width of the knife: Example: 4“ x 1“ cross section on a 10 ft. shear would be 120“ plus 4“ or 124“ for knife length.

30、Similarly, a 5-1/2“ x 1-1/2“ cross section for 10 ft. shear would be 120“ plus 5-1/2“ or 125-1/2“ for knife length. Recommended maximum length or one piece knives should be nominal 168“. Longer knives should be sectional. 2 ANSI 894.53-1978 Holes diameter, and diameter of the bolt hole: The followin

31、g table shows knife thickness, bolt Knife Bolt Hole Diameter Thickness Diameter (in inches) (in inches) (in inches) 112 318 7/16 314 112 9/16 1 314 1311 6 1-1 I8 314 1311 6 1-1 I2 1 1-1/16 1314 1 1-1/16 Hole Spacing It is recommended that end holes should be no closer to end of knife than 1/2 the wi

32、dth of the knife. Example: 4“ wide knife, end holes to be 2“from end of knife minimum. Where feasible, holes to be on 8“ centers e O o ASME 874.53 78 m 0757670 0048577 O m AMERICAN NATIONAL STANDARD SOLID STEEL RECTANGULAR METAL CUTTING SQUARING SHEAR KNIVES ANSI 694.53-1978 SQUARENESS PARALLELICM f

33、 DGBEYjqSF HOLE TOLERANCE Table 1 Dimensional Tolerances in Inches of Solid Steel Rectangular Metal Cutting Squaring Shear Knives (Dimensions in Inches) Knife Lengths 12“ II Shorter Over 12“ to Over 36“ to 38“ 96“ Over 96“ to 126“ Over 126“ Length i 0.031 I0.062 f 0.125 + 0.126 - 0.187 + 0.126 - 0.2

34、50 Width + 0.000 - 0.031 + 0.000 - 0.031 + 0.000 - 0.031 + 0.000 - 0.031 + o.Oo0 - 0.031 Thickness + 0.000 - 0.016 + 0.000 - 0.016 + 0.000 - 0.015 + o.Oo0 - 0.015 + 0.000 - 0.015 Permissible Bow Flatwise 0.031 o .o62 0.093 0.125 0.250 PermissiMe Bow Edgewise 0.016 0.015 0.031 0.062 0.062 A Tolerance

35、 Between End Hdes i 0.031 f 0.062 f 0.125 f 0.187 i 0.260 B Tolerance Between Holes f 0.031 i 0.062 f 0.062 i 0.062 i 0.062 Squarenecs of edge to face of knife within 0.006“. Parallelism of Knife Faces: Within 0.003“ with no variation greater than 0.001 within any 12“ length throughout entire length

36、. Parallelism of Knife Edges: Within 0.006“ with no variation greater then 0.001 within any 12“ length throughout entire length. 3 ASME 894.53 78 m 0757670 0048578 2 m AMERICAN NATIONAL STANDARD SOLID STEEL RECTANGULAR METAL CUTTING SQUARING SHEAR KNIVES Cross Section Recommendations Width Thickness

37、 (in Millimeters) 50 12 75 20 75 25 1 O0 25 125 30 140 40 165 45 Lengths Recommended knife length should be the shearing length capacity of the shear plus the width of the knife: Example: 100 mm x 25 mm cross section on a 3048 mm shear would be 3048 mm plus 100 mm or 3150 mm for knife length. Simila

38、rly, a 140 mm x 40 mm cross section for 3048 mm shear wouldbe 3048 mm plus 140 mm or 3190 mm for knife length. Recommended maximum length or one piece knives should be nominal 4250 mm. Longer knives should be sectional. 4 ANSI 894.53-1978 Holes diameter, and diameter of the bolt hole: The following

39、table shows knife thickness, bolt Knife Thickness (in mm) 12 20 25 30 40 45 Bolt Diameter (in mm) 10 12 20 20 25 25 Hole Diameter (in mm) 12 14 22 22 27 27 Hole Spacing It is recommended that end holes should be no closer to end of knife than 1/2 the width of the knife. Example: 100 mm wide knife, e

40、nd holes to be 50 mm from end of knife maximum. Where feasible, holes to be on 200 mm centers. L - . . , . _ . . ASME 894.53 i8 m 0759670 0048597 4 m AMERICAN NATIONAL STANDARD SOLID STEEL RECTANGULAR METAL CUTTING SQUARING SHEAR KNIVES SQUARENESS PARAUELISM ANSI 894.53-1978 FDG&SF HOLE TOLERANCE Ta

41、ble 2 Dimensional Tolerances in Millimeters of Solid Steel Rectangular Metal Cutting Squaring Shear Knives (Dimensions in Millimeters) Knife Lensttir 300 mm & Shorter Over 300 mm to 1000 mm Over 1000 mm to 2600 rnm Over 2500 mm to 3200 .mm Over 3200 mm Length i 1.0 i 2.0 f 3.0 + 3.0 - 5.0 + 3.0 - 6.

42、0 Width +O - 1.0 +O - 1.0 +O - 1.0 +O - 1.0 +O - 1.0 Thickness +O - 05 +O - o5 +O - o5 +O - 0.5 +O - o5 Permissible Bow Flatwise 1 .o 1.5 2.5 3 .O 6 .O Pennissibie Bow Edgewise O .5 O .5 1 .o 15 1 5 A Tolerance Between End Holes B Tolerance Between Holes f 1.0 f 1.5 k 3.0 f 5.0 f 6.0 f 1.0 f 1.5 f 1

43、.5 f 1.5 2 1.5 Squareneu of edge to face of knife within 0.1 mm. ParalleiIsm of Knife Facer: Within 0.07 mm with no variation greater than 0.02 mm within any 300mm length through- out entire length. Paralieiirm of Knife Edger: Within 0.1 mm with no variation greater than 0.02 mm within any 300 mm length through- out entire length.

copyright@ 2008-2019 麦多课文库(www.mydoc123.com)网站版权所有
备案/许可证编号:苏ICP备17064731号-1