Threads and Fasteners - PowerPoint PPT Presentation

1 / 13
About This Presentation
Title:

Threads and Fasteners

Description:

... is used for screws, bolts, and nuts produced in quantity, and also for fastening ... Space them by eye to make them look good. ... – PowerPoint PPT presentation

Number of Views:103
Avg rating:3.0/5.0
Slides: 14
Provided by: august3
Category:

less

Transcript and Presenter's Notes

Title: Threads and Fasteners


1
Threads and Fasteners
  • Stuarts Draft High School
  • Technology Education Department
  • Technical Drawing

2
DEFINITION OF SCREW THREAD TERMS
Pitch
  • The pitch of a thread is the distance from one
    point on the thread form to the corresponding
    point of the next thread. Pitch is measured
    parallel to the thread's axis or centerline.
    Click to see a sample appear to the right

Notice the pitch can be measured from
crest-to-crest OR
Pitch
Root-to-Root
3
DEFINITION OF SCREW THREAD TERMS
  • The lead (pronounced "leed") is the distance that
    a threaded part (such as a nut) would move or
    travel in the horizontal direction if the screw
    thread was rotated 360 degrees.
  • Threads are always assumed to be right handed
    threads unless marked with the initials LH (Left
    Hand) at the end of the thread note.

4
SINGLE AND MULTIPLE THREADS
  •  Most screws have single threads. Assume single
    thread unless otherwise noted. Multiple threads
    are used where parts must screw together or apart
    quickly. For example, the compass adjustment bar
    and toothpaste tube caps have multiple threads.
    Notice in the picture above that
  • Single Thread - The lead is equal to the pitch.
  • Double Thread - The lead is twice the pitch
  • Triple Thread - The lead is three times the
    pitch.

5
THREAD SERIES
  • Screws of the same diameter are made with
    different pitches (number of threads per inch)
    for different uses. The various combinations of
    diameter and pitch have been grouped into
    screw-thread series. These series are listed in
    ANSI B1.1. Each is denoted by letter symbols, as
    follows
  • Coarse-thread Series (UNC or NC) In this series
    the pitch for each diameter is relatively large.
    This series is used for screws, bolts, and nuts
    produced in quantity, and also for fastening in
    general.
  • Fine-thread Series (UNF or NF) In this series,
    the pitch for each diameter is smaller (there are
    more threads per inch) than in the coarse- thread
    series. This series is used where a finer thread
    is needed, as in making automobiles and
    airplanes.
  • Extra-fine-thread Series (UNEF or NEF) In this
    series, the pitch is even smaller than in the
    fine-thread series. This series is used where the
    thread depth must be very small, as on aircraft
    gear or thin-walled tubes.

6
CLASSES OF FITS
  • Screw threads are also divided into screw thread
    classes based on their tolerances (amount of size
    different from exact size) and allowances (how
    loosely or tightly they fit their mating parts).
    You can get exactly the screw thread you need by
    choosing both a series and a class. In brief, the
    classes for Unified threads are
  • Class 1 has a large allowance (loose fit). They
    are used on parts that must be put together or
    taken apart quickly and easily.
  • Class 2 is the thread standards most used for
    general purposes, such as for bolts, screws,
    nuts, and similar threaded items.
  • Class 3 has stricter standards for fit and
    tolerance than the others. They are used where
    thread size must be more exact. Simply, a tighter
    fitting thread.

7
A Or B
  • The letter A following the fit class number
    (1,2, or 3) denotes external threads only the
    letter B following the fit class number denotes
    internal threads only.

8
READING A THREAD NOTE
  • Thread Note Definition of Meaning
  • .750 0.750 diameter (3/4)
  • 10 10 threads per inch
  • UNC Unified National Coarse thread
    series  
  • 2 Class 2 (Normal Fit)
  • A External Thread

9
READING A THREAD NOTE
  • You specify (call for) a particular screw thread
    by telling its diameter (nominal or major
    diameter), number of threads per inch, length of
    thread, initial letters of the series, and class
    of fit. Any thread you specify will be assumed to
    be both single and right hand unless you say
    otherwise. If you mean the thread to be left
    hand, include the letters LH after the class
    symbol. If you mean it to be double or triple,
    include "double" or "triple." Some examples using
    fractional sizes follow
  • 1 1/4-7UNC-1A means. 1 ¼ diameter, 7
    threads per inch, Unified National Course
    threads, class 1 fit, external threads.
  • 7/8-14UNF-2B means... 7/8 diameter, 14
    threads per inch, Unified National Fine threads,
    class 2 fit, internal threads.
  • 1 5/8-18UNEF-3B-LH means . 1 5/8 diameter, 18
    threads per inch, Unified National Extra-Fine
    threads, class 3 fit, internal, left hand threads.

10
Drilled and Tapped Holes
  • You specify tapped (threaded) holes by a note
    giving the diameter of the tap drill (21/64")
    depth of hole (1 3/8) thread information (½
    diameter, Unified National Course threads, Class
    2) and length of thread (1"), as

11
Drawing Screw-threads
  • A detailed representation approximates the real
    look of threads (Fig. 10-10). For this kind of
    drawing, you do not have to draw the pitch
    exactly to scale. Instead, just make it about the
    right size for the drawing. Draw the helixes as
    straight lines. Draw the threads as sharp Vs. In
    general, you do not usually use the detailed
    representation in working drawings, except where
    you need it for clearness. You also do not
    usually use it if the screw is less than 25 mm (1
    in.) in diameter.

12
Drawing Screw-threads
  • A schematic representation shows the threads with
    symbols rather than as they really look. For this
    kind of drawing, you leave out the Vs (Fig.
    10-11).You also need not draw the pitch to scale.
    Just make it about the right size for the
    drawing. Then draw the crest and root lines
    accordingly. Space them by eye to make them look
    good. These lines can be at right angles to the
    axis or slanted to show the helix angle (see Fig.
    10-17). The American National Standards calls for
    crest lines to be thin and root lines to be
    thick. However, you may make all your lines the
    same thickness to save time. This is especially
    so on regular pencil working drawings.

13
Drawing Screw-threads
  • A simplified representation is much like a
    schematic representation. In this case, however,
    you draw the crest and root lines as dotted
    lines, except where either of them would show as
    a visible solid line (Fig. 10-12 at A, C, F, G,
    H, I, and J). You save time by using the
    simplified representation because it leaves out
    useless details.
Write a Comment
User Comments (0)
About PowerShow.com