SDP/SI Home PageFree Catalogs Corner2.gif (1203 bytes)
main_logo2.gif (2264 bytes)


Product Finder

 logo_newblack.GIF (11050 bytes) 
SDP/SI Company ProfileSales Reps.New ProductsDWG DrawingsFree VideoRelated CompaniesTechno-IselTechno-Sommer Home Page .  Speed Reducers, Gear Trains, Motors, Constant Force Springs, Vibration Isolation

            SDP/SI
   Tech Library Data

The process of selecting small hard-to-find rotating components for new prototypes or for production applications just became easier with the publication by Stock Drive Products and Sterling Instrument of this comprehensive 250-page Technical Reference Section which covers the subjects of:

Gear Trains & Speed Reducers 
Motors 
Springs, Constant Force   
Vibration and Shock Mounts
Reference Tables 

 From the table of contents below, you can view the catalog page by page in either PDF or HTML. In order to view the PDF files, you will need a copy of Adobe Acrobat Reader. To download a free copy of Adobe Acrobat PDF Reader, click here.
 
Page# Contents  PDF HTML
T1 Index To Reference Tables    
T2 Decimal and Metric Equivalents 
T3 Conversion of Small Inch Measurements 
T4 Conversion of Small Metric Measurements 
T5 American / Metric Gear Equivalents 
T7 Functions of Numbers 
T9 Trigonometric Functions & Equations 
T10

Values of Trigonometric Functions 
T11 Solution of Triangles 
T12 Properties of the circle
T13 Circumferences and Areas 
T14 Dimensions of Circular Segments 
T15 Formulas of: Energy, Inertia, Torque, Power & Work 
T18 Inertia of Round Discs 
T19 Conversion of SI Units  
T20 Multipliers for SI Units  
T21 Hardness Conversion Charts 
T22 Fasteners 
T23 Standards for Inch Size Threads 
T24 Standards for Metric Threads  
T25 Screw Head Dimensions 
T26 Strength of Fasteners 
T27 Strength of Screws and Pins 
T28 Non-Metallic Fasteners
T29 Hub Fasteners 
T30 Index To  Technical Section
  Practical Design Hints    
T35 Machining
T35 Minimizing Tooling Cost
T36 Minimizing Machining
T37 Allowing Adequate Clearances for Cutting Tools
T38 Effective Clamping
T39 Simplifying Machining with Composite Assemblies
T41 Effective Turning and Boring
T42 Effective Drilling
T44 Efficient Milling
T45 Effective Broaching 
T46 Effective Grinding
T48 Effective Tapping
  Assembly    
T49 Avoiding Over specification of Dimensions of  Mating Parts
T53 Design Changes which Avoid the Need for Close Tolerances
T54 Allowing for Thermal Expansion
T54 Allowing for Wear
T55 Design for Ease of Assembly and Disassembly
T56 Design for Accessibility
T56 Design for Ease of Disassembly
  SPEED REDUCERS AND GEAR TRAINS 
A. BASIC CONCEPTS		    
  1. Velocities In Gear Trains    
T58 Single Gear Mesh
T60 Simple Spur Gear Trains
T61 Compound Spur Gear Trains
T62 Reverted Gear Trains
T62 Simple Planetary Spur Gear Trains
T64 Compound Planetary Spur Gear Trains
T65 Bevel Gear Differentials
  2. Force Transmission In Gear Trains    
T67 Tangential Forces in a Single Spur Gear Mesh
T68 Tangential Forces in the Simple Spur Gear Train
T69 Tangential Forces in Compound Spur Gear Trains
T70 Planetary Spur Gear Trains
T72 The Bevel Gear Differential
  3. Power Flow    
T75 Fundamentals: The Single Gear Mesh
T76 Simple and Compound Gear Trains
T77 Planetary Spur Gear Trains
  4. Gear Train Efficiency    
T78 General
T79 The Basic Principle of Power Loss Determination
T80 Power Loss in a Planetary Spur Gear Train
T82 5. Minimization Of Gear Train Inertia 
T83 Introduction to Gear Train Inertia Minimization
T86 The Single Mesh
T87 The Two-Mesh Gear Train
T88 The General Case (n-Mesh Train)
T89 Tradeoff Between Design for Minimum Backlash and Minimum Inertia
T89 Inertia Ratio
T89 Results of the Optimization
T93 Power Gear Trains
T93 6. Gear Train Backlash Computation
T94 7. Transmission Error In Gear Trains
T95 Gear Train Transmission Error Computation
T95 Integrated Position Error for a Train
T95 Statistics and Probabilistic Design
T96 Example of Backlash and Transmission Error Calculation
  B. CONFIGURATIONS AND DESIGN
8. Introduction		    
T101 General Description of this Section
T102 Precision Gearheads and Speed Reducers
  9. Basic Classification Of Speed Reducers    
T103 Shaft Configurations
T104 Gear Types
T106 Speed Reducer Selection and Design
  10. Parallel Shaft Arrangement    
T106 General Kinematic Characteristics
T107 Efficiency of Gears Connecting Parallel Shafts
T108 Numerical Example
T110 Efficiency of Gear Trains
T110 11. Center Distance And Speed Ratio
       Adjustments Using Parallel Helical Gears
T111 Compensating for Center Distance Variation
T112 Changing Gear Ratios
T112 12. Methods And Devices For Controlling
       Backlash In Parallel Shaft Drives
T113 Gear Design for Eliminating or Minimizing Backlash
  13. Right Angle Gear Systems    
T118 General Kinematic Characteristics
T119 Efficiency of Bevel, Worm and Crossed Helical Gears
T121 Crossed-Axis Helical Gears
  14. Gear Size And Ratio Adjustment Using 
       Crossed Helical Gears		    
T122 Adjustment of Gear Size While Maintaining Mesh Ratio
T124 Adjustment of Gear Ratio While Maintaining Center Distance
  15. Methods And Devices For Controlling
       Backlash In Right Angle Drives		    
T124 Bevel Gear Backlash Eliminator
T125 Hollow Worm Drive
  16. Differentials    
T125 Description of Differentials
T125 Precision Differentials
T126 Application of Differentials
  17. Worm Gear Drives    
T127 Worm Gears - General
T128 Worm Gear Speed Reducers and Drives
T130 18. Limit Stops
T131 Stop-Washer Type Limit Stop
T131 Screw-and-Traveling Nut Type of Limit Stop
T131 Pin-and-Gear Type of Limit Stop
T133 BASIC ELECTRICITY 
  MOTORS    
T140 Electric Motors - introduction
T141 Design Considerations
T144 Motor Characteristics
T149 General Guide For Selection Of Gear Motors
T151 Motor Speed Controls
T155 INTRODUCTION TO STEP MOTORS
T158 Primary Step Motor Performance Characteristics
T161 Damping
T162 Step Motor Driving And Control
T165 Considerations For Step Motor Applications
  IRONLESS ROTOR DC MICROMOTORS AND STEP MOTORS    
345 Index
347 UNIQUE FEATURES OF AN IRONLESS ROTOR MOTOR
349 CONSTRUCTION OF THE ESCAP® MICROMOTOR
351 PHYSICAL LAWS GOVERNING ESCAP® MOTOR APPLICATIONS
356 BASIC MOTOR PHYSICS
366 GEARBOXES APPLIED WITH ESCAP® MOTORS 
367 CONSIDERATIONS FOR THE CONTROL OF DC MICROMOTORS
376 TUTORIAL SELECTION OF MICROMOTOR APPLICATION PROBLEMS 
390 ESCAP® STEP MOTORS
401 References        
  NEG'ATOR® CONSTANT FORCE SPRINGS AND   SPRING MOTORS    
T167 Introduction
T173 Design Procedure
T182 Stock Neg'ator Springs
  Neg'ator® Constant Torque Spring Motors    
T183 introduction
T186 General Design Considerations
T193 Design Procedure
T194 Neg'ator Stock Spring Motors
  VIBRATION AND SHOCK ISOLATION      
T195 Fundamentals Of Vibration
T198 Basic Definitions And Concepts In Vibration Analysis
T206 Basic Definitions And Concepts In Vibration Analysis
T211 Design Of Vibration Mounts
T215 Mechanical System Characteristics
T221 Vibration Analysis of Basic Vibration-Mount and Shock-Mount Configurations...
T236 Design Problems

Top of Page
| Home | Free Catalogs || Company Profile | Sales Reps. |
New Products | DWG Drawings | Video | Recent Ads |
| Techno-Isel  | Techno-Sommer |

 

Stock Drive Products / Sterling Instrument
North American Inquiries E-Mail: SDP-SIsupport@sdp-si.com
Overseas Inquiries E-Mail: intsupport@sdp-si.com
Phone: 516-328-3300 
Fax:  516-326-8827
 
 

bottom_line.gif (80 bytes)