1、AN AMERICAN NATIONAL STANDARD Power Presses: General Purpose, Single Action, Straight Side Type ASME B5.61-2003Intentionally left blank ASME B5.61-2003 Power Presses: General Purpose, Single Action, Straight Side Type AN AMERICAN NATIONAL STANDARD Three Park Avenue New York, NY 10016Date of Issuance
2、: December 15, 2004 This Standard will be revised when the Society approves the issuance of a new edition. There will be no addenda or written interpretations of the requirements of this Standard issued to this edition. ASME is the registered trademark of The American Society of Mechanical Engineers
3、. This code or standard was developed under procedures accredited as meeting the criteria for American National Standards. The Standards Committee that approved the code or standard was balanced to assure that individuals from competent and concerned interests have had an opportunity to participate.
4、 The proposed code or standard was made available for public review and comment that provides an opportunity for additional public input from industry, academia, regulatory agencies, and the public-at-large. ASME does not approve, rate, or endorse any item, construction, proprietary device, or activ
5、ity. ASME does not take any position with respect to the validity of any patent rights asserted in connection with any items mentioned in this document, and does not undertake to insure anyone utilizing a standard against liability for infringement of any applicable letters patent, nor assume any su
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8、o 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. The American Society of Mechanical Engineers Three Park Avenue, New York, NY 10016-5990 Copyright 2004 by THE AMERICAN SOCIETY OF MECHANICAL E
9、NGINEERS All rights reserved Printed in U.S.A.CONTENTS Foreword v Committee Roster vi Correspondence With the B5 Committee vii 1 Scope, Purpose, and Application . 1 2 Definitions and Terminology . 1 3 Metric/U.S. Customary Rationalization . 1 4 Press Characteristics 1 5 Tooling Related Characteristi
10、cs . 3 6 Acceptance Conditions . 13 7 Health and Safety . 16 8 Information and Instructions . 16 9 Declaration of Manufacturers Compliance 19 10 Reference Standards 19 Figures 1 Slide Connections for Single-Point, Two-Point, and Four-Point Presses 2 2 Drives for Single-Point, Two-Point, and Four-Poi
11、nt Presses 3 3 Typical Construction of a Mechanical Press 4 4 Typical Construction of a Hydraulic Press . 4 5 Typical Bolster 15 6 Typical Slide 15 7 Headed Pressure Pin 17 8 Headed Pressure Pinhole 17 9 Pressure Pinhole Location Identification System 18 10 Establishing the Bed as the Datum Plane 18
12、 11 Bolster Flatness and Parallelism . 19 12 Checking Parallelism From Slide Face to Bed or Bolster Surface 19 13 Checking Squareness of Slide Travel . 20 14 Leveling the Slide Using Load Cells . 20 15 Press Data Plate: Mechanical Press. 21 16 Press Data Plate: Hydraulic Press 21 17 Counterbalance D
13、ata Plate 21 18 Die Cushion Data Plate . 22 19 Press Designation System . 22 20 Press Capability Graph (Metric) . 23 21 Press Capability Graph (U.S. Customary) 24 Tables 1 Standard Capacity Ratings 1 2 Standard Rating Points 2 iii3 Press Speed/Drive Motor Relationship 2 4 Usable Flywheel Energy. 3 5
14、 Stroke and Die Space Dimensions: Mechanical Power Press. 5 6 Bed and Slide Dimensions: Single-Point Press 5 7 Bed and Slide Dimensions: Two-Point and Four-Point Press 6 8 Bolster Locating Pin Dimensions 7 9 Spacing of Bolster Locating Pinholes: Single-Point Press 7 10 Spacing of Bolster Locating Pi
15、nholes: Two-Point and Four-Point Press 8 11 Bolster Mounting Slot Dimensions. 9 12 Spacing of Bolster Mounting Slots: Single-Point Press 9 13 Spacing of Bolster Mounting Slots: Two-Point and Four-Point Press. 10 14 Bolster Mounting Bolt Dimensions. 11 15 Bolster Handling Holes: Single-Point Press. 1
16、2 16 Bolster Handling Holes: Two-Point and Four-Point Press . 13 17 Bolster Handling Hook Dimensions . 14 18 Bolster Handling Hook Bolt Dimensions. 14 19 Number of T-Slots 16 20 Plain Pressure Pin. 16 21 Pressure Pinhole Patterns 17 22 Pressure Pinhole Plug . 18 Mandatory Appendices I Mechanical Pow
17、er Press Capacity Above Rating Point of 12.7 mm (0.5 in.) 25 II Mechanical Power Press Capacity Above Rating Point of 6.3 mm (0.25 in.) 26 III Mechanical Power Press Capacity Above Rating Point of 1.6 mm (0.06 in.) 27 IV Usable Flywheel Energy. 28 V Bed and Slide Deflection 29 VI Offset Loading of a
18、 Mechanical Press Slide 30 Nonmandatory Appendices A Metric/U.S. Customary Conversion 31 B Comparison of Capacity Ratings Between Historical JIC and ISO Standards 32 ivFOREWORD Recognizing the need for a standard for mechanical power presses, the ASME Committee on Machine Tools and Components (B5) e
19、stablished in December 1973, Technical Committee 30 to develop an American National Standard addressing the interchangeability of bolsters, press tooling, and mounting provisions between general purpose presses of comparable bed size, capacity, and type. The B5-TC30 membership consists of a balance
20、between manufacturers, users, accessory suppli- ers and others associated with power presses. The technical committees work was based on the Joint Industry Conference (JIC) Press Room Standards, once the most widely used document, to develop a standard for mechanical power presses, and basic data su
21、bmitted by U.S. manufacturers of power presses. In April 1983, the committee completed the final draft of “Standard for Straight Side Type Presses (Metric).” This draft was not submitted for approval before the committee became inactive. In 1995, Technical Committee 30 was reestablished to continue
22、the pursuit of the original objectives set forth in 1973. The scope of the Standard was expanded to include hydraulic power presses. ASME B5.61-2003 was approved by the American National Standards Institute on July 7, 2003. vASME B5 STANDARDS COMMITTEE Machine Tools Components, Elements, Performance
23、, and Equipment (The following is the roster of the Committee at the time of approval of this Standard.) OFFICERS C. T. Wax, Chair M. Lo, Secretary COMMITTEE PERSONNEL A. M. Bratkovich, The Association for Manufacturing Technology C. J. Gregorovich, C. J. Gregorovich & Associates D. King, Parlec M.
24、Lo, The American Society of Mechanical Engineers C. D. Lovett, National Institute of Standards and Technology TECHNICAL COMMITTEE 30 POWER PRESSES C. J. Gregorovich, Chair, C. J. Gregorovich & Associates W. S. Roorda, Secretary, Alcona Associates R. Boge, Smedberg Machine Corp. A. M. Bratkovich, The
25、 Association for Manufacturing Technology G. Clouse, Oak Products, Inc. D. L. Cota, Benchmaster, Inc. K. J. Koroncey, General Motors Corp. vi C. Nuccitelly, Parlec G. R. Rawlinson, Rawlinson & Associates W. S. Roorda, Alcona Associates R. C. Spooner, Powerhold, Inc. C. T. Wax, Scully-Jones Corp. S.
26、R. Otsuka, Verson, A Division of Allied Corp. G. R. Rawlinson, Rawlinson and Associates A. Sambel, Schuler Hydroforming, Inc. D. Speich, Clearing-Niagara E. D. Steinke, The Minster Machine Co. T. Werding, Schuler Hydroforming, Inc. L. A. Wood, Whirlpool Corp.CORRESPONDENCE WITH THE B5 COMMITTEE Gene
27、ral. ASME Standards are developed and maintained with the intent to represent the consensus of concerned interests. As such, users of this Standard may interact with the Committee by proposing revisions, and attending Committee meetings. Correspondence should be addressed to: Secretary, B5 Main Comm
28、ittee The American Society of Mechanical Engineers Three Park Avenue New York, NY 10016-5990 Proposing Revisions. Revisions are made periodically to the Standard to incorporate changes that appear necessary or desirable, as demonstrated by the experience gained from the application of the Standard.
29、Approved revisions will be published periodically. The Committee welcomes proposals for revisions to this Standard. Such proposals should be as specific as possible, citing the paragraph number(s), the proposed wording, and a detailed description of the reasons for the proposal, including any pertin
30、ent documentation. Attending Committee Meetings. The B5 Main Committee regularly holds meetings, which are open to the public. Persons wishing to attend any meeting should contact the Secretary of the B5 Main Committee. viiIntentionally left blank ASME B5.61-2003 POWER PRESSES: GENERAL PURPOSE, SING
31、LE ACTION, STRAIGHT SIDE TYPE 1 SCOPE, PURPOSE, AND APPLICATION 1.1 Scope This Standard applies to hydraulic and mechanical power presses commonly referred to by the metal- working industry as General Purpose, Single Action, Straight Side Type Power Presses that, by means of dies or tooling attached
32、 to the slide and bolster, are used to shear, punch, form, or assemble metal or other materials. The following types of presses are excluded from this Standard: (a) air (pneumatic) (b) bench (c) eyelet machines (d) forging (e) four slide machines (f) gap frame (g) knuckle joint (h) multiple action (
33、i) multiple slide (j) spotting (k) transfer feed (l) turret punching 1.2 Purpose The purpose of this Standard is to define and describe power presses and their interface, and to permit inter- changeability of bolsters, dies, and tooling components between presses of comparable type, size, and capaci
34、ty. 1.3 Application Any power press described herein and referred to as an American National Standard Power Press shall comply with the applicable requirements delineated in this Standard. 2 DEFINITIONS AND TERMINOLOGY Terms used in this Standard are defined in ASME B5.49, Glossary of Power Press Te
35、rms. 3 METRIC/U.S. CUSTOMARY RATIONALIZATION 3.1 Metrication All units of dimension and capacity stated herein are in accordance with ASME B5.51M, Preferred SI Units 1 Table 1 Standard Capacity Ratings Single-Point Press Two-Point Press Four-Point Press kN tons kN tons kN tons 2 5 0 3 0 . . . . 500
36、55 500 55 . . . . . . 1 000 110 1 000 110 . . . . . . 1 600 180 1 600 180 . . . . . . 2 000 225 2 000 225 . . . . . . 2 500 280 2 500 280 2 500 280 4 000 450 4 000 450 4 000 450 6 300 710 6 300 710 6 300 710 10 000 1,125 10 000 1,125 10 000 1,125 . . . . . . 16 000 1,800 16 000 1,800 . . . . . . 20
37、000 2,250 20 000 2,250 . . . . . . 25 000 2,810 25 000 2,810 for Machine Tools. Approximate U.S. Customary units are historical standards and are for reference only. Wher- ever used in this Standard, the unit tons denotes U.S. tons. 3.2 Metric/U.S. Customary Conversion Nonmandatory Appendix A provid
38、es conversion multipliers applicable to this Standard. 4 PRESS CHARACTERISTICS 4.1 Rated Capacity Standard capacity ratings shall be as specified in Table 1 (see also Fig. 1). See Nonmandatory Appendix B for historical comparison of capacity ratings. 4.2 Rating Points (Mechanical Power Press) (a) St
39、andard rating points shall be as specified in Table 2. (b) Drive design shall be based on providing the torque, which produces the rated press capacity at the rating point (see Fig. 2). (c) Press capacity at points other than the rating point are shown in (1) Mandatory Appendix I for presses rated a
40、t 12.7 mm ( 1 2 in.) (2) Mandatory Appendix II for presses rated at 6.3 mm ( 1 4 in.)ASME B5.61-2003 POWER PRESSES: GENERAL PURPOSE, SINGLE ACTION, STRAIGHT SIDE TYPE (a) Single-Point (b) Two-Point (c) Four-Point Fig. 1 Slide Connections for Single-Point, Two-Point, and Four-Point Presses Table 2 St
41、andard Rating Points Rating Point Press Type mm in. Flywheel drive 1.6 1 16 Single end drive 6.3 1 4 Twin end drive blanking press Eccentric gear blanking press Twin end drive 12.7 1 2 Eccentric gear (3) Mandatory Appendix III for presses rated at 1.6 mm ( 1 16 in.) 4.3 Energy Capacity (Mechanical P
42、ower Press) 4.3.1 Function of the Flywheel. The energy required for performing press operations is stored in the flywheel. During the working portion of the press cycle, the fly- wheel slows down as it supplies the required energy to the drive train. 4.3.2 Function of the Drive Motor. The drive moto
43、r restores flywheel energy during the nonworking portion of the press cycle, which may include the interval between press cycles for presses operating in single stroke modes. 4.3.3 Drive Motor Selection. The selection of the drive motor is dependent upon the energy requirements. Fac- tors determinin
44、g the energy requirements are: (a) rated capacity (b) press speed (strokes per minute) (c) press stroke Based on the optimum slide velocity for the material being worked, a longer stroke press will be required to operate at a slower speed than a shorter stroke press. The longer the stroke, the deepe
45、r the draw that can be made, and the greater the energy required to sustain the press through the depth of the draw. Table 3 specifies typical press speed/drive motor relationships. 4.3.4 Drive Motor/Flywheel Relationship. The usable energy that a flywheel can supply is a function of the ability of
46、the drive motor to tolerate slowdown without overheating. The usable flywheel energy, expressed as 2 Table 3 Press Speed/Drive Motor Relationship Press Speed, spm Type of Motor Required 10 spm or less Design D, 8% 13% slip Between 10 spm and 30 spm Design D, 5% 8% slip 30 spm or more Design B, 3% 5%
47、 slip a percentage of total flywheel energy, is a function of the motor slowdown. Table 4 specifies the properties of the three types of single speed drive motors that are most commonly used on mechanical power presses. Mandatory Appendix IV provides a method for calculat- ing the usable flywheel en
48、ergy. 4.3.5 Variable Speed Presses. Unless otherwise spec- ified by the purchaser, usable flywheel energy for vari- able speed presses shall be rated at one-half the maximum speed. IMPORTANT: The energy range for a variable speed press varies as the square of the speed range. For example, a speed ra
49、nge of 3:1 would provide an energy range of 9:1. For a press with a speed range of 20 spm to 60 spm, the following would be the energies available: SPM Energy Available, % 20 45 30 100 60 400 4.4 Structural Capacity (a) Bed and slide design shall be based on symmetri- cally distributed loading of the bed and slide over two- thirds of the left-to-right and front-to-back area dimen- sions of the bed and the slide, respectively. The bed size is normally the bolster area. NOTE: Tool design should be based on distributing full capacity loading of the press