ASME B5.61 2003 R2014
$98.04
ASME B5.61 Power Presses: General Purpose, Single-Action, Straight Side Type – Reaffirmed: 2014
| Published By | Publication Date | Number of Pages |
| ASME | 2003 | 44 |
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 to the slide and bolster, are used to shear, punch, form or assemble metal or other materials.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 5 | CONTENTS FIGURES TABLES |
| 6 | MANDATORY APPENDICIES NONMANDATORY APPENDICIES |
| 7 | FOREWORD |
| 8 | COMMITTEE ROSTER |
| 9 | CORRESPONDENCE WITH THE B5 COMMITTEE |
| 11 | POWER PRESSES: GENERAL PURPOSE, SINGLE ACTION, STRAIGHT SIDE TYPE 1 SCOPE, PURPOSE, AND APPLICATION 1.1 Scope 1.2 Purpose 1.3 Application 2 DEFINITIONS AND TERMINOLOGY 3 METRIC/U.S. CUSTOMARY RATIONALIZATION 3.1 Metrication 3.2 Metric/U.S. Customary Conversion 4 PRESS CHARACTERISTICS 4.1 Rated Capacity 4.2 Rating Points Mechanical Power Press 1 Standard Capacity Ratings |
| 12 | 4.3 Energy Capacity Mechanical Power Press 4.3.1 Function of the Flywheel. 4.3.2 Function of the Drive Motor. 4.3.3 Drive Motor Selection. 4.3.4 Drive Motor/Flywheel Relationship. 4.3.5 Variable Speed Presses. 4.4 Structural Capacity 1 Slide Connections for Single-Point, Two-Point, and Four-Point Presses 2 Standard Rating Points 3 Press Speed/Drive Motor Relationship |
| 13 | 4.5 Loading of a Press Slide 4.5.1 Mechanical Press. 4.5.2 Hydraulic Press. 5 TOOLING RELATED CHARACTERISTICS 2 Drives for Single-Point, Two-Point, and Four-Point Presses 4 Usable Flywheel Energy |
| 14 | 3 Typical Construction of a Mechanical Press 4 Typical Construction of a Hydraulic Press |
| 15 | 5.1 Stroke and Die Space Dimensions 5.2 Bed and Slide Dimensions 5.3 Bed Openings 5.4 Bolster Locating Pins 5 Stroke and Die Space Dimensions: Mechanical Power Press 6 Bed and Slide Dimensions: Single-Point Press |
| 16 | 7 Bed and Slide Dimensions: Two-Point and Four-Point Press |
| 17 | 5.5 Bolster Mounting Slots 5.6 Bolster Mounting Bolts 8 Bolster Locating Pin Dimensions 9 Spacing of Bolster Locating Pinholes: Single-Point Press |
| 18 | 5.7 Bolster Handling Holes 5.8 Bolster Handling Hooks 5.9 Die Attachment 10 Spacing of Bolster Locating Pinholes: Two-Point and Four-Point Press |
| 19 | 11 Bolster Mounting Slot Dimensions 12 Spacing of Bolster Mounting Slots: Single-Point Press |
| 20 | 5.10 Pneumatic Die Cushions 5.11 Hydraulic Die Cushions 13 Spacing of Bolster Mounting Slots: Two-Point and Four-Point Press |
| 21 | 5.12 Pressure Pins 14 Bolster Mounting Bolt Dimensions |
| 22 | 5.13 Knockouts 5.14 Counterbalance 5.15 Machining Specifications 5.15.1 Tolerances. 5.15.2 Surface Finish. 15 Bolster Handling Holes: Single-Point Press |
| 23 | 5.15.3 Chamfers. 6 ACCEPTANCE CONDITIONS 6.1 Press Accuracy 6.1.1 Acceptance Limits for Level. 6.1.2 Flatness: Bed and Slide Face. 6.1.3 Bolster Flatness and Parallelism. 6.1.4 Parallelism Between Slide Face and Bed or Bolster Surface. 16 Bolster Handling Holes: Two-Point and Four-Point Press |
| 24 | 6.1.5 Squareness: Slide Travel. 6.1.6 Parallelism: Die Cushion Pin Plate. 6.2 Bed and Slide Deflection 6.3 Slide Parallelism Under Load 17 Bolster Handling Hook Dimensions 18 Bolster Handling Hook Bolt Dimensions |
| 25 | 5 Typical Bolster 6 Typical Slide |
| 26 | 7 HEALTH AND SAFETY 7.1 Ergonomics 7.2 Safeguarding 8 INFORMATION AND INSTRUCTIONS 8.1 Identification 8.1.1 Press Data Plate. 8.1.2 Counterbalance Data Plate. 19 Number of T-Slots 20 Plain Pressure Pin |
| 27 | 8.1.3 Die Cushion Data Plate. 8.1.4 Clutch/Brake Data Plate. 8.1.5 Lubrication and Operating Fluid Data Plate. 8.1.6 Press Designation. 7 Headed Pressure Pin 8 Headed Pressure Pinhole 21 Pressure Pinhole Patterns |
| 28 | 8.1.7 Serial Number 8.2 Shipping and Assembly Provisions 8.3 Instruction Manual 9 Pressure Pinhole Location Identification System 10 Establishing the Bed as the Datum Plane |
| 29 | 9 DECLARATION OF MANUFACTURER’S COMPLIANCE 10 REFERENCE STANDARDS 10.1 Normative References 11 Bolster Flatness and Parallelism 12 Checking Parallelism From Slide Face to Bed or Bolster Surface |
| 30 | 10.2 Informative References 13 Checking Squareness of Slide Travel 14 Leveling the Slide Using Load Cells |
| 31 | 15 Press Data Plate: Mechanical Press 16 Press Data Plate: Hydraulic Press 17 Counterbalance Data Plate |
| 32 | 18 Die Cushion Data Plate 19 Press Designation System |
| 33 | 20 Press Capability Graph (Metric) |
| 34 | 21 Press Capability Graph (U.S. Customary) |
| 35 | I-1 Percent of Rated Capacity I MECHANICAL POWER PRESS CAPACITY ABOVE RATING POINT OF 12.7 mm 0.5 in. |
| 36 | II-1 Percent of Rated Capacity II MECHANICAL POWER PRESS CAPACITY ABOVE RATING POINT OF 6.3 mm 0.25 in. |
| 37 | III-1 Percent of Rated Capacity III MECHANICAL POWER PRESS CAPACITY ABOVE RATING POINT OF 1.6 mm 0.06 in. |
| 38 | IV-1 Duty Factor Chart IV-2 Motor Factor Chart IV USABLE FLYWHEEL ENERGY IV-1 EXPLANATION IV-2 CALCULATION IN METRIC UNITS IV-3 CALCULATION IN U.S. CUSTOMARY UNITS |
| 39 | V-1 Simulation of Bed and Slide Defection V BED AND SLIDE DEFLECTION |
| 40 | VI OFFSET LOADING OF A MECHANICAL PRESS SLIDE |
| 41 | A METRIC/U.S. CUSTOMARY CONVERSION |
| 42 | B1 Comparison of Capacity Ratings Between Historical JIC and ISO Standards B2 Standard Rating Points B COMPARISON OF CAPACITY RATINGS BETWEEN HISTORICAL JIC AND ISO STANDARDS |
