Linear Drawing and Lettering For Beginners
Linear Drawing and Lettering For Beginners
Linear Drawing and Lettering For Beginners
Class
Book
Copyright M.
fL-5_2__
COPYRIGHT DEPOSIT.
FISH,
Assoc.
M. Am.
Soc. C. E.
. .
THE LIBRARY OF
CONGRESS, Two Copied R ECEIYED
SEP. 23 1901
U?o|
Copyright ENTRY
l~-<
CLASS (X
n+m COPY
*
KXc. No.
PREFACE.
A
faithful
following of the
directions
will,
it
is
hoped,
furnish
the
student enough training in the use of drafting implements to enable pencil drawings, make clean-cut ink lines, and do legible lettering.
him
to
construct accurate
The work embraced in Chapters II and III constitutes the course of fifty working hours in Linear Drawing and Lettering in Stanford University, as it has been given during the past eight years as preparation for the drafting in the courses in Descriptive Geometry, Elementary Machine Drawing, Surveying, and Graphic Statics. I am indebted to Mr. C. B. Wing, Professor of Structural Engineering, and to Mr. G. H.
Marx, Associate Professor of Mechanical Engineering,
for
many
C. L.
FISH.
1901.
TABLE OF CONTENTS.
CHAPTER
T.
1.
Equipment.
1.
Divider, 33-35.
Compass, 36-38.
2.
Rubber
Rubber
pencil-eraser, 25.
Drawing-board, 2-4.
square, 5-7.
Triangle, 8-10.
Pumice-powder,
29.
CHAPTER
II.
A COURSE
IN
LINEAR DRAWING.
3.
6.
Plate 3a
Circles.
circles, 59.
To
Border
line, 50.
Pen
:
To
4. Plate 1
:
7.
Plate 4
Accurate Construction.
To divide a
parts, 62.
line
Medium
Lines.
Dot-lines, 54.
Dash-lines, 53.
Dash-dot-lines, 55.
60.
into
equal
To ink Plate
:
4, 63.
(j
5.
Plates 2 and 3.
Plate 3: Fine lines, 57.
8.
Plate 5
curve, 64.
Irregular Curve.
To construct Plate
5, 65.
Plate 2:
Heavy
lines, 56.
TABLE OF CONTENTS.
CHAPTER
III.
A COURSE
let-
IN LETTERING.
11. Vertical
9.
Required
67.
Work
in Lettering".
:
Plates 6 and 7
tering, 68.
Ordinary
Preliminary practice,
Plates 8-17
Titles, 09.
C DGJ
I
S U,
85.
80.
Details
Details
Z, 88.
h
f i
m n r u, 81.
j
B P R, of E F H
86.
lO. Vertical
ofAKMNVWXY
and
frac-
T, 87.
Details of
t,
82.
z, 83.
Details of k v
x y
Details of numerals
tions, 89.
Vertical
Details of capitals
Q, 84.
and Inclined
72.
lettering, 75.
Horizontal guides, I-guides, Individual pen-strokes, 73. O as a model for curve forms,
12. Titles.
and word-spacing,
77.
Common
faults in titles
made
74.
92.
CHAPTER
13.
Drafting, 93.
IV.
INTRODUCTION TO DRAFTING.
Scale.
14. Linear
Drawing Applied
to Drafting.
Choice of paper,
94.
97.
To draw
to scale, 95.
To make the
and
ures, 105.
letters
and
fig-
and position
of letters
figures, 104.
The
Equipment.
for the
1.
work
Draw-
1 1
1
1
1
sharpening pencils.
1 1 1
triangular
boxwood
scale, Architect's.
pencil-eraser, rubber.
ink-eraser, rubber.
K.
&
E. 19, T.
1 doz.
1
1
1
thumb-tacks or drawing-pins. drawing-board, not less than 17"x24". T square of same length as the board. bottle wa,ter-proof drawing-ink, black.
sheet
A.
1
&
Sons
Whatman's N.
as
stated
5V' ruling-pen, T.
A*
&
E.J 523^.
3T bow
5
J"
divider, T. A. 1580,
1
1
1
compass, T. A. 1434, metal case of leads. screw-driver and key-wrench (for adjusting instruments). The instruments named above and the pocket-case named below are necessary for the course in Linear Drawing. The instruments named below are desirable for the Linear Drawing course and necessary for the work in advanced engineering courses. 5" hair-spring divider, T. A. 1423, Kern 642, K. & E. 608. 3r bow pen, T. A. 1585, Kern 463, K. & E. 486. 3y bow pencil, T. A. 1582, Kern 464, K. & E. 487. leather folding pocket-case, made to hold the following instruments 2 5|" ruling-pens, 1 5^" hair-spring compass (fixed needle-leg, 3^" 3^" 3^" bow pen, 1 1 bow divider, 1 pen, pencil, lengthening bar), bow pencil, 1 screw-driver and key-wrench, 5" hair-spring divider, 1 1 metal case of leads.
HHHHHH
HHHHHH
* T.
A.
stands for
T.
Alteneder
" T.
&
Sons, 945
Every instrument
stamped
'T.
A.,''
f
or
& Co., Aarau, Swiss. Every first-class instrument stamped " Kern & Co." stands Keuffel K. & E. for & Esser Co., 127 Fulton street, New York. Every first-class instrument I stamped " K. & E. Co., N. Y., Paragon," or "Keuffel & Esser Co."
Alteneder
&
Sons."
purchase at the start, if possible, all the instruments named above as necessary or desirable, together with the case, which is made to hold all these and an adIf the student cannot afford to do this, he buys the necessary instruments ditional pen. for the Linear Drawing course, and the case, and fills the vacant spaces in his case as adTwo ditional instruments become necessary from time to time in his engineering courses. spaces in the case are made for pens, for a second pen will be needed before the first one
well to
is
discarded.
For
named
above.
2.
2.
Drawing-Board.
Drawing-boards
of soft wood in one piece. This is improved by lining each sawed end with a narrow strip of hard wood to prevent the warping of the board, and to give a smoother surface for the head of the T square to slide on. The best boards are made up of narrow strips of soft wood held together by cleats so attached to the back and each end is lined with a hardof the board that shrinkage can be taken up at any time wood strip. It is necessary that the left end of the board be a straight-edge, and desirable that the near edge of the board be straight, and perpendicular to the left edge.
;
different
sizes,
corresponding
to
* For a
fuller
knowledge
of
is
referred to
the cata-
4
3.
tation,
Care of Drawing-Board.
the
in
and
when not
warping.
4.
edges of the board should be kept free from indenupper surface smooth except for the holes made by thumb-tacks. The board, use, should lie on a flat surface or stand nearly vertical on one end to prevent
The
A rectangular piece of drawing-paper, cut to required of Drawing-Board. size, is placed on the board so that the edges of the paper are parallel to those of the board (as determined by the T square if the paper is small compared with the board), and each corner of the sheet is tacked down with a thumb-tack. It may be necessaiy to use additional thumbtacks on the paper edges to make it lie smooth. 5. T Square. See Fig. 1. The simple T square has its blade rigidly fastened to its head. Others have an adjustable connection which permits setting the blade at any angle with the head. The cheaper T squares are made of wood, the head of one piece and the blade of anThe better grades have the inner edge of the head (which slides in contact with the other. board) and both edges of the blade, lined with narrow strips of hard wood or celluloid. The best are made of metal throughout. 6. Care of T Square. The T square ought to lie flat on the drawing-board or be hung, head down, against the wall, when not in use. Keep the edges of the blade free from nicks. Do not use the T square as a hammer, nor the T blade as a guide for a knife. The blade of the T square is said to be less apt to soil the paper if it is covered on its lower side, to within a quarter-inch of each edge, with thin blotting-paper. 7. Use of T Square. The upper or far edge of the T blade may be used as a guide I'ny pen or pencil when drawing a straight line in any direction, but serves especially as a guide when drawing horizontal lines, i. e., lines perpendicular to the left edge of the drawing-board,
Use
a guide for one edge of the triangle while another edge is serving as a guide for the Press the T head firmly against the left edge of the board before beginning to or pencil. draw, and be sure that it remains there while drawing each horizontal or vertical line.
and pen
as
left
when
the
T head
is
edge of drawing-board being straight, all positions pressed firmly against, and moved along, the left
edge of the board. The T blade cannot be depended on to lie flat on the drawing throughout its length, nor While drawing a line from the head to midto keep its place without pressure from the hand. and when drawing a point of blade, bear the left hand on the quarter-point nearest the head line along the outer half of the blade, press the blade down, with the left hand, at the quarter;
Triangle.
Triangles
are of
many
forms.
Fig. 21
angles are 90, 60, and 30 (called a 30-60 triangle), and another whose angles are 90, 45, and 45 (called a 45 triangle). These are the forms most commonly used. Triangles are made in many sizes, and for those which have one 90 angle the size is given as the length of the
Written in the order of cost, triangles are made of the followwood, wood with lined edges, hard rubber, celluloid, German silver, aluminum,
and
the
Care of Triangle. The triangles should be kept well cleaned to prevent their soiling drawing-paper. To save the paper, the triangles should be moved over it as lightly as pos9.
If
sible.
thin
blotting-paper be
it
will
pasted on the triangle to within a quarter-inch of the inner This may not be desirable be less apt to slip and soil the paper.
it
triangles, as
may
to
transparency.
Triangles
6
should,
Do not use on a flat surface to prevent warping. a triangle as a guide for a knife when cutting paper or trimming plates. Any edge of a triangle will serve as a guide (a straight-edge) 10. Use of Triangle. The special use of a triangle is in drawing sets of to pen or pencil when drawing a straight line.
when
idle for
lie
The
altitude serves as
guide for
vertical
lines
when
the base
is
in
Sets
of lines,
triangles in
and the T head is pressed firmly against the left and 60 angles with the horizontal, can be connection with the T square, the head of which is pressed
blade
making
45, 30,
left
French curves are made of wood, hard rubber, and 11. Irregular, or French, Curve. One form is shown in Fig. 19, which is one-third of the actual size. of celluloid. 12. Care of French Curve. While idle, the curve should lie on a flat surface. Keep the edges of the curve free from indentations. Clean the curve often enough to prevent accumPasting strips of thin blotting-paper on ulations of oil and dirt, which rub off on the paper. but this device lessens the the under side of the hard rubber will prevent its soiling the paper
value of the celluloid as a transparent curve. This is explained in 64. 13. Use of French Curve.
14. Drawing-Paper. Drawing-papers are divided into three classes: I. "DrawingII. Detail-paper, and III. Tracing-paper and tracing-cloth. I. The term drawing-paper is usually reserved for the better grades of paper which are inIt is sold in sheets of tended for drawings that are to be finished directly in pencil or ink. It may be mounted (i. e., different sizes, and in continuous sheets, or rolls, of different widths. in made great variety of weight, surface, and quality, to or unmounted. is It muslin) backed by
paper,"
7
is
"
hot-pressed,
which has a
surface),
R." (which
is
rough-grained),
for
(which has a surface resembling a rough-surfaced egg-shell). II. Detail-paper is the name given to the cheaper papers, suitable
fine pencil drawings which are to be finished by tracing, if at all. obtained in sheets and rolls, and of many weights and surfaces. III. Tracing-paper is transparent, and sometimes used for tracing, in pencil or in ink, a design first drawn on a piece of detail-paper. Tracing-cloth is a transparent cloth (called also velIt may be oblum), and is the material generally used for tracings, because of its toughness. tained in sheets of different sizes and in rolls of different widths. There are several grades.
Sheets should lie flat when put away, or be rolled 15. Care of Drawing-Paper. loosely. The rolls should be kept free from pressure, which breaks the surface. The paper should at all times be kept from dust and moisture. Spread and tacked on the drawing-board, the paper should be protected from dust, and the instruments and hands should come in contact with the paper as little and as lightly as possible. There is always more or less perspiration on the hands, and the T square and triangles are seldom so clean that the paper may not be soiled by their rubbing. When making several drawings on one sheet, it is well to cover it with a protecting If paper from which a piece is cut to expose that drawing which is being made at the time.
intervals of hours or days are to elapse between periods of work, the paper should be protected,
removed from the board and put away. The hard erasing which is required to remove the dirt from a soiled drawing injures the surface of the paper and the ink-lines which have been drawn. A neat drawing is produced by
as above, or
If convenkeeping the paper so clean that there is no need of rubbing and scrubbing at the end. ient, the hands should be washed frequently during a drawing period, especially in warm weather. 16. Use of Drawing-Paper. The upper side of the paper is generally that which
The rough side of egg-shell paper is for shows the water-mark or trade-mark right side up. drawing. Many of the smoother and thinner papers are about the same on both sides. TracingSome draftsmen condemn the use of the rough side because cloth may be used either side up. Others use the rough ink-lines made on this side are ragged, and erasures cannot well be made. side, because drawings so made lie flat instead of rolling up, and pencil work can be done on If the smooth side is to be used for ink-lines, it should first be dulled by rubbing this side. with pumice powder. The powder must be thoroughly removed before inking the lines, for it
clogs the pen.
about to touch ruling- or common pen to paper at any place, press the paper flat against the board and keep it there till the line is done and the pen has been lifted from the Otherwise there will usually be made a blot or a tail at each end of the line. paper. pencil should be used for all or Koh-i-noor 17. Pencil. Faber's grade should be drawing in this course, except that for coarse work and lettering the No accurate drawing can be done without smooth lead of proper hardness. used.
When
HHHHHH
the
HHHHHH
Fig.
HHHH
14) cut away the wood at the end opposite the printing, to expose at least one-half inch of lead. Rub the exposed lead flatwise over fine-grained emery-paper while twirling the pencil between the thumb and fingers, till the sharptipped cone-point is formed. Next, rub the lead in a similar manner on rough-surfaced paper
For
cone-point
(see
until
the
tip
it
of
the
rest
cone-point,
when viewed
endwise,
is
invisible.
This point
is
easily
broken, and
must
little
The cone-
9
is
is
not as serviceable as
tracing-cloth.
for free-hand
the chisel-point
drawing
is
lines
The
dull cone-point
used for
which must be distinct enough to show through printing figures and descriptions on a drawing, and
curves.
For the chisel-point (Fig. 13), expose a half-inch of lead. Rub two opposite sides of the Next, repeat the rubbing on lead flatwise on the emery-paper, till a sharp chisel is formed. drawing-paper until the edge of the chisel is invisible. The chisel-point, when applied with pressure, rules a line which is fine enough for working-drawings, and yet distinct enough to show clearly through tracing-cloth. The cone-point, of equal sharpness and applied with the same pressure, either breaks, or wears away too rapidly. The cone-point admits of greater precision, and, for drawings which are to be redrawn directly in ink, rules sufficiently distinct lines. After drawing each long line, or a few short ones, examine the pencil-point, and if it reflects light when viewed endwise, resharpen by rubbing on a piece of drawing-paper. The emerypaper need be used only when resharpening on paper takes too much time. It is well to have in use two pencils, one with cone- and the other with chisel-point. Neither chew the pencil nor wet the lead in the mouth. 19. Use of Pencil. A hair-line is drawn with the sharp cone-point, with slight pressure. It is distinctly visible by diffused light, but may be invisible when the paper reflects light to the eye from a window. It is easily erased, leaving no trace. The intersection of two hair-
lines
needle-point or
and enclosed,
for
(A determined point should be marked faintly with ready finding, in a small circle drawn free-hand
constructed with hair-lines.
with pencil.)
are first
10
lines
may
be
made
heavier
but
when
make
a break in the
heavy
dicular
may
not be obliterated.
In accurate work, hold the pencil as carefully as the ruling-pen. Hold the pencil perpento the paper, with the exception of a slight slant in the direction of motion. When drawing any line, free-hand or otherwise, with the pencil, do not bear down enough to make a groove in the paper, unless absolutely certain that no part of the line will require erasure. The chisel-pointed pencil should be so held that the chisel edge has the direction of the line which it is ruling. If the guide is pressed firmly on the paper at every point as it is reached, the pencil may be given an outward slant to bring the tip of the lead against the lower edge of the guide. But if the pencil is thus held, and the guide is in contact with the paper only for portions of its length, the pencil point will trace a crooked line. Slant the pencil neither outward nor inward, reaching for a point through which the line is to be drawn but bring the guide to such a position that the pencil tip will precisely touch
;
when the pencil is held in correct position, against the guide. 20. Ruling-Pen. (Fig. 20.) Ruling-pens are made in three or more sizes. The simplest have fixed blades. The outer blade, in one form, is so made that its upper end acts as a spring The blades of the hinge-blade to throw the blades a little apart when released by the set-screw.
the point
pen may, on releasing the set-screw, be thrown open through an angle of 90 or more. Other pens are so made that the blades can be opened wide and again closed, without disturbing the set-screw. Some pen handles are made to unscrew, and carry a needle-point, which may be used for marking points with precision, and for transferring a drawing from one sheet to another, by pricking through the original. Pens are also made for special work, as the curve-pen for drawing
contours, the railroad-pen,
11
(Fig. 20.) The nibs of the ruling-pen should be of the of Ruling-Pen. when brought together, one nowhere overlaps the other. They should be so sharp that, when viewed endwise, they reflect no light, and yet not sharp enough to cut the paper. It is easy to break a piece from a sharp nib by careless handling. A roughness of the points may be invisible to the naked eye and yet make the pen scratch the paper (Fig. 25). When the pen scratches, or is dull (as shown by reflected light at the points), it should be sharpened by rubbing the outside surfaces of the nibs on a fine Arkansas oilstone, while holding the pen at an angle of about 20 with the stone. To make the points of equal length, draw the pen lightly across the stone, as in drawing a line on paper at the same time rock the pen, in the plane of motion, to round the nibs. Frequently examine the points through a magnifyingThe frequency of required sharpening depends on the hardness of the glass during the grinding. the use given the pen. Detail-paper wears a pen rapidly, and it is points, and on steel in the not economy to use such paper for drawings which are to be inked. In some offices a pen sharpened daily. Usually a beginner should practice grinding an old which is in constant use is pen before trying to sharpen a new one. An instrument-maker will properly sharpen a pen for
21. Care
about twenty-five cents. Do not let the ink ary in the pen. Before laying it aside for a few minutes, shake out the ink and wipe the nibs, inside and outside, with cloth or chamois. At the end of a period of work, wipe or wash off all traces of ink, and put the pen away with its nibs bright and thoroughly dry. Fig. 25 is an enlarged sketch of the inner face of the nib of a ruling-pen which has not been kept scrupulously clean. 22. Use of Ruling-Pen. The opening between the nibs of the pen is made, by means of the set-screw (Fig. 20), equal to the width, or thickness, of line to be drawn. When setting
12
the pen
fine
lines
Usually the be careful that the nibs are not made to touch each other. is determined by trial after the pen is filled with ink. Once
line,
width of
it
is
required to
is
draw
lines
piece
run
setting, to
thumb and
pen with ink: Take the pen to the bottle. Hold the pen, nibs up, between the finger, and the bottle (which rests on the table) between the little finger and palm, of the left hand. Remove the stopper from the bottle with the right hand, and, by means
To
fill
the
first
in the lower side of the stopper for the purpose, transfer the ink, drop
by
Move
if
necessary, to insure
spills
The pen
is
when
the ink
out on a
sudden motion of the pen. A little experience will determine the proper amount of ink put in the pen. Do not wait till the pen is empty to refill it, for the width of the line ruled changes slightly with the supply of ink. Always keep the exterior of the nibs absolutely free from ink otherwise ink will come into contact with, and run under, the guide, making a blot. Furthermore, ink, wet or dry, on the exterior of the nibs, interferes with the ruling of clean-cut lines. To rule a line Hold the pen perpendicular to the paper, with the axis of the set-screw perpendicular to the direction of the line to be drawn, and with the screw head on the far side of The weight of the hand is carried by the third and the pen. Move the pen from left to right. fourth fingers, which rest upon, and move along, the guide. Do not press the pen against the In beginning to draw a line, after the pen has guide, for this tends to close the pen opening.
to
;
starting-point, put
the head
directly in
front of the
pen,
to
see
that
the
13
handle has no slope to right or left. Then, place the head in such a position that the eyes are about ten inches above the guiding edge, and about ten inches to the left of the pen. With
the head in this position, the inside faces of the
axis
is
blades
are
equally visible
when
the
set-screw
perpendicular to the direction of the line to be drawn. In moving the pen to the right hand should swing neither about the elbow nor shoulder, as a pivot. Simply
the body to the right, carrying the hand and arm with it. Beginners usually make the mistake of placing the head directly above the pen nibs, to see which then requires the pen handle to be thrown to the right. See Figs. 40, 41. Reach neither in nor out, with the pen, to make the nibs pass through a given point but bring the guide to such a position that the nibs will pass precisely through the point while the pen is held correctly, in contact with the guide. Study Figs. 6, 7, 8, 9, 10, and 11 in connection with this article. 23. Ink. Formerly all drawing-ink was prepared for use, day by day, by rubbing stick India-ink on the bottom of a dish wet with a small quantity of water. Now, ready-made liquid drawing-inks are most commonly used. These are made water-proof and non-water-proof, in black and in colors. Water-proof ink should be used for most drawings. Non-water-proof may flow a little more freely than the water-proof ink, but a drawing made with the former is easily smeared by handling. Do not waste time and make poor lines in attempting to economize by using the dregs of an old bottle. 24. Care and Use of Ink. Keep the bottle well corked at all times when not actually taking out ink, which rapidly deteriorates by evaporation. Keep the bottle off the drawing. The ink may be thinned by adding some drops of water, alcohol, or ammonia, when it has become too thick, but this mixture is not as good as new ink. Remove ink at once from all
move
14
surfaces to
has come by accident. Leave ink to dry neither on the ruling- nor letteringFlies take up ink, and should be kept from pen, as it corrodes, and thus injures, the nibs. drawings, especially those made on tracing cloth, while ink-lines are wet. To supply the ruling-pen with ink, follow directions under 22. The lettering-pen is dipped in the ink as in ordinary writing, but the stopper must be replaced in the bottle after each dip. 25. Rubber Pencil-Eraser. The best eraser is that which wears away so rapidly as always to present a fresh surface. Erasers harden with age, and finally injure the paper without properly removing pencil lines. Before applying it to a drawing, the end of the eraser is cleaned by rubbing it on a piece of fresh paper. Erase gently, especially over ink lines. Too energetic The rubbing should be done in the erasing dulls ink lines and roughens the paper surface. If, in spite of care, a drawing becomes grimy, direction of ink lines rather than across them. clean it with stale bread (26). 26. Stale Bread. Stale bread does not erase pencil marks well, but removes grime from a drawing, while leaving the ink lines brighter, and the paper surface fresher, than when rubber is used. The soft interior of the loaf is broken out in handfuls and rubbed over the drawing, fresh pieces being added as that in use becomes soiled or crumbles from under the hand, which is held nearly flat. 27. Rubber Ink-Eraser. This should be cleaned at the working end, before it is applied to the drawing, by rubbing on a piece of fresh drawing-paper. The ink to be removed should have been drying for an hour, preferably a day. As the ink-eraser cuts the paper rapidly, care should be taken to rub as little as possible beyond the ink surface to be removed. For erasing lines it is a good plan to make a stencil of heavy paper or very thin sheet-metal, The rubber ink-eraser is generally used after the through a slit in which the erasing is done.
which
it
15
ink-eraser or
The erased surface should be put in condition to take ink, by means of pumice powder (29). 28. Steel Ink-Eraser. This is used to remove ink which has been placed on a drawA sharp pocket-knife serves the same end. It should be held so ing by accident or mistake. that the blade stands nearly perpendicular to the paper, and with the edge almost parallel to the ink line to be erased. It should be held firmly, so that, if possible, in moving backward and forward along the line over a short space, it will remove the crust of ink and leave the paper surface beneath and at the sides of the line undisturbed. The ink should have dried at
an hour before using the eraser. It ruins the paper surface to try to erase while the paper is yet moist from the ink. A dull eraser injures the paper without satisfactorily removing the ink. Pumice powder (29) is better than steel for erasing ink from tracing-cloth. 29. Pumice Powder. This is used to remove ink from tracing-cloth, to prepare the glossy side of tracing-cloth for drawing, and to resurface drawing-paper where it has been roughened by the ink-eraser. To use as an ink-eraser, rub the powder over the ink to be removed with the finger or soft rubber. Supply fresh powder as that in use becomes soiled. The powder must be thoroughly removed from the cloth before applying the pen. Apply the powder, by means of a soft rubber or piece of paper, to resurface roughened drawing-paper. 30. Scale. The ordinary two-foot rule is a scale divided naturally, i. e., each unit (one
least
divided into halves, quarters, eighths, sixteenths, thirty-seconds, or sixty-fourths. The engineer's scale is divided decimally. Each unit (which may be one inch, or one-half, one-third,
inch)
is
of an
inch)
is
divided
into
ten
equal
The
architect's
inch, three
one-half, three-
16
fourths, or three-halves of
The form of
scale (rule)
section,
most commonly used by students, and known as the triangular scale, has a triangular crossand is made of boxwood, boxwood faced with celluloid, or metal. It is used in preference to a flat scale only because, by its form, it presents a greater number of edges for graduation. The best scales are engine-divided the cheaper scales are stamped. 31. Care of Scale. Use a scale as a guide for neither pen nor pencil. Such use of the scale injures its edges, which, with the graduation faces, should be kept free from marks and indentations. 32. Use of Scale. Only the natural scale need be used in the work outlined in this course. To lay off a given distance from a given point on a given line Place the triangular on the paper so that the edge which is divided to sixteenths of an inch lies parallel, and scale as near as possible, to the given line, and the zero mark of this edge is precisely at the given point. Then make with the needle-point, or cone-pointed pencil, a minute mark on the given line precisely under that mark of the scale which lies at the given distance from the zero mark. To be sure that a scale mark is precisely at a given point on the paper, or vice versa, the head must be placed above the scale, so that you look directly along the scale mark. The utmost precision is required in laying off and measuring distances when aiming at extreme accuracy, as when drawing Plate 4. The divider should not be used to transfer distances from scale to paper nor from paper to scale, for this practice involves loss of time and accuracy (35). 33. Divider. Dividers are made in different forms and sizes. One form is shown in Fig. 23. The set-screw, near the middle of one leg, controls the hair-spring, the action of which is shown in Fig. 22 and explained in 36. 34. Care of Divider. Draw no circles with the divider. The divider legs should open
17
with only sufficient friction to hold the legs, with careful handling, at any desired opening. The friction at the head joint is regulated by means of the screw-driver provided for that purpose. The adjustment should be carefully made, to avoid injuring the screw threads. Wipe the steel surfaces of the divider dry with soft cloth or chamois when replacing them in the case. Keep the divider, when not in use, in the case, to prevent accident to the points. 35. Use of Divider. The divider is used to transfer distances from place to place on
and from one drawing to another. Its chief use is in laying off a given distance a number of times, and in dividing a given line into a given number of equal parts (62). Transferring distance by means of the divider from scale to paper and paper to scale is now poor practice, though formerly the awkward form of the scale used made it necessary. Do not push the divider points into the paper farther than is necessary to make the smallest visible hole, which may be readily found again if it is enclosed with a pencil mark. Work requiring a small divider opening is best done with the bow divider (41-43). 36. Compass. Compasses are made in three or more sizes and of many forms, one The compass set includes all the parts shown in this figure, of which is shown in Fig. 22. which should be studied in connection with the instruments themselves. On turning the setscrew which controls the hair-spring, the needle leg moves toward the opposite compass leg. By this means a minute change in the opening (or spread) of the compass is easily made. The pen leg, pencil leg, and the lengthening-bar may be inserted in, and removed from, the compass leg at will. The needle leg, in the style of compass here shown, is fixed to its compass leg. The point of the needle, which is clamped in the foot of the needle leg, serves as the pivot about which the compass rotates when drawing a circle. One end of the needle is a cone-point and the other a shoulder-point. Use the shoulder-point. The lengthening-bar is inserted between
a drawing,
.
IM
it,
the distance
between needle-
point and marking-point would not be sufficient to draw a circle of given radius.
37. Care of Compass. The friction of the head joint is regulated in the manner deThe steel surfaces of the compass and parts should be wiped dry with soft cloth scribed in 34. or chamois to prevent rusting, when put away in the case. The pen leg must be cared for with
the thoroughness
prescribed
for the ruling-pen (21).
be turned with
a delicate touch, for they are small and easily injured by too tight setting.
38. Use of Compass. To draw a circle, the compass handle is taken between the thumb and first finger, and the needle-point is guided to the circle center by the left hand. By trial, make the needle leg and pencil leg perpendicular to the paper while making the disright
is
tance between their points equal to the radius of the circle to be drawn.
the distance between the points
left
minute change in
best
made by turning
thumb and
first
needle-point
at
To prevent
making a hole at the circle center, keep the needle leg as nearly as possible perpendicular to the paper and let the needle rest with only enough pressure on the paper to prevent its slipping. For accuracy, the needle mark at the center of a circle or set of concentric circles must remain so minute as to require enclosing in a small free-hand circle for ready
the needle-point's
finding.
Small
39. Compass-Lead.
HHHHHH,
and
if this
cannot
pencil. Sharpen the lead to a chisel-point otherwise be had, cut a piece from the tangent the circle which it draws. In accurate precisely to the edge of the chisel making (18),
HHHHHH
fine
as
it
is
possible to
make them
as fine as
of
work
(10).
19
40. Compass Pen. If the blades of the pen leg are of equal length, the pen leg should be perpendicular to the paper when drawing a circumference, for in this position the two nibs will come into full contact with the paper, and the line drawn will be smooth on both edges. If the two blades of the pen are of unequal length, the pen must be given a slant, which is
found by
Fig. 17.
trial,
just
sufficient
to
make
Fig.
the nibs
equal
pressure.
Study
24 shows the center-wheel style of bow divider. In anon the outside of one of the legs. The bow pen and bow pencil are like the bow divider from the handle down to and including the adjusting wheel. One leg of the bow pen terminates in a needle; the other carries a pen, which should be cared The bow pencil carries in one leg a needle, and in the other for in the manner described in 21. a piece of lead. This lead should be, for accurate work, exactly like that described in 39. 42. Care of Bow Instruments. The instruments should be wiped dry before they are put away after each work period. They should be in the case when not in use. They must be handled with care, that their points may remain in good condition. To change the opening (or spread) of the side-wheel bow instrument, with the left thumb and first finger gently press the points inward to decrease the friction on the w heel then turn the wheel. The final adjustment must still be made with the points released. 43. Use of Bow Instruments. The bow divider takes the place of the ordinary divider (33-35) when a small divider opening is required. The two other bow instruments are used in preference to the ordinary compass (36-40) for small circles. 44. Lettering-Pen. Any of the many styles of steel pens used for writing may be used for lettering. That pen which is best adapted to a given person for a given piece of work, can
41.
Bow
Instruments.
is
placed
20
be determined only by
trial.
The coarseness
It
oil
is
well
to
break
in a
new pen
before
using
it
on a
The lettering-pen should be used only with drawingThe pen should be wiped clean with soft cloth or chamois each time the ink on it is used up, and at the end of each period of pen work. The pen should not be dipped deeper than just above the eye. in the ink. Wipe from the holder the ink which gets on it at the neck of the bottle. 46. Use of Lettering-Pen. Keep the bottle off the drawing-paper and take the pen to
the pen dry with a soft cloth or chamois.
and
fluids.
the bottle
After dipping, jar the pen to shake a surplus drop or two back once recork the bottle. Carry the pen from the bottle to the paper, in a horizontal position, ink side up, to prevent possible blots. The pen must be pressed on the paper at the starting-point of a stroke, witli the weight which is to be applied throughout the stroke. The beginner must consciously divide the work of
to dip.
when about
and
at
Place the pen point at the point for beginning the stroke.
Press the pen on the paper to
little
make
move
use very
(3)
(4) (5)
pressure).
this pressure constant,
Keeping
Lift the
Stop the pen at the stroke end. pen vertically from the paper.
21
letterer
clean-cut
strokes be
made.
The
skilled
goes through
the
same
to
make with
less apt to
is
easily pos-
of the
paper than
when
47. Blotter.
is
ink
spilled
the paper.
Beginners are apt to get impatient and hasten the drying by blotting, as in writing, and in this wa} ruin the lines
all
Under
so treated.
CHAPTER
II.
A
3.
Course
in
Linear Drawing.
Finish a Plate.
To
4R To Fix
fleets
Jthe
drawiug-board, ta
^^****: ^g f t^SS
n
tie' left
pL
l
*fhe ad
Ta?aistt
T
along in
full
le/elge
of
Made
lies
flat
ou
"C
^Se
till
the upper
07-19).
23
With
the pencil
make
line
about
it
f"
from
the
left
edge of the
sheet.
it
circle,
that
may
and mark
Lay
off
on
the distance
ac =
Place
dot at c, the
T head
along in
full
left
till
of the blade
is
below the penciled line ac. its perpendicular edges against the upper edge of the blade,
1.
shown
in Fig.
blade,
till
the
edge
perpendicular to the
ae
is
draw ae along the vertical edge of the triangle precisely through the point a. perpendicular to ac at a (assuming that the triangle is true).* Draw cd through c perpendicular to ac, in the same way. From a lay off on ae the distance ae = 9", and mark the point e. Slide the T head along the left edge of the board till the upper edge of the blade just
With
pencil
touches point
e.
and mark it a. Slide the T a by a quarter-inch. With the triangle to "be tested, draw a hair line through the point a perpendicular to the T blade. Hold the T blade Turn the triangle bottom up by revolving it about the edge which is perpendicular to the blade. Again draw fast.
test
*To
a triangle:
Make
of
the
paper,
left
its
present position.
Any
is
of the triangle.
21
Draw a line with the pencil through the point e, along the blade and across the paper. The four lines thus drawn enclose a rectangular space 9x12'. Mark the unlettered corner d. When the plate is finished, i. e., when the drawing on this sheet has been completed, the
paper will be smoothly cut with a sharp knife along the four lines just drawn.
As you have
done, draw
all
horizontal
lines
(lines
running from
left
to
right)
along the
upper edge of the blade of the T, while its head is in fall contact with the left edge of the board. Draw all vertical lines along one perpendicular edge of a triangle while the other is in full contact with the upper edge of the blade of the T, which is in correct position for drawing horiIf the near edge of the board is true and perpendicular to the left See Fig. 1. zontal lines. edge, vertical lines may be drawn along the T blade, sliding the T head along the near edge. 50. Border Line. Fig. 2. From the point a lay oft* toward ac the distance ab = 1".
Mark
the point b.
Through b draw the vertical line bf (parallel to ae). Lay off upward from b on bf the distance bi = f". Mark point
i.
From
lay off if
i
=7.
Mark
the point
f.
Through Through
draw the horizontal line ill. draw the horizontal line fg. From f lay off fg = lOf Mark g. Through g draw the vertical line gh.
f
.
ifgh.
is
all
is
to
be done.
left
The
from
is
to
be
free
51.
To
Finish a Plate.
With
25
from the area bounded by the cutting line (49). If the drawing is grimy, clean it with stale bread (26). Print lightly with pencil the plate number (at the right end of the top border line), the name of the draftsman (at the right end of the lower border line), and the date (at the left end of the latter line). After completing the course in Lettering, the lettering of the plates is to be carefully done with the lettering-pen. Cut the paper with a sharp knife along the cutting line. Use neither a straight-edge (triangle side or T blade) nor a triangular scale, as a guide for
the knife.
After completing
plate (70).
all
them
into
4. Plate
Medium
Lines.
parts.
52. Full Lines. Make dots |" apart, dividing the line if into 30 equal each dot will be drawn a line with the ruling-pen. The ruling-pen and the water-proof ink now come into use. By means
of the ruling-pen,
Fig.
3.
Through
set-screw
line in
of the
make
first
Fill the
In the rectangle ifcfh., through the dots on the line if, } ou are to draw a series of 22 horizontal lines with the ruling-pen. Each line is to extend from if to gh.. The first line to be ruled is fg. Following the directions given in 21, rule the line fg. Now ask yourself the following
7
questions
If so,
line.
/y
20
(2) Is the line ragged
LINEAR DRAWING AND LETTERING. on only the upper edge, as in Fig. 10?
If so,
line ragged
on both
perpendicular to the direction of motion. If so, you have pressed the pen on the (4) Does the width of the line Vary, as in Fig. 8? paper or against the blade with a varying force, thus changing the opening between the nibs.
In beginning to draw a line and after the pen has been placed at the starting-point, place the head directly in front of the pen to see that the handle lias no slope to right or left. Then place the head in such a position that the eyes are about 10" directly above the upper edge of T blade and about 10" to the left of the pen. With the head in this position the inside faces of the blades are equally In moving the pen to the visible when the set-screw axis is perpendicular to the direction of motion. right to draw a line, the right hand and arm should remain rigid and not swing about the shoulder Move the body to the right, carrying the hand and arm with it. Do not try or elbow as a pivot. to improve an imperfect line by re-ruling it. Continue drawing full lines until 22 have been drawn, and on completing each examine it as you did the first line. Ascertain, if possible, the cause of each imperfection, and aim to avoid it Rule a line by moving the pen at uniform speed. in drawing each succeeding line. 53. Dash Lines. Now with the same pen opening draw the next 4 lines like the dash line of Fig. 3. Make the dashes and intervals of the lengths shown there. If necessary, draw the first line in pencil and lay off on it from the left end, first the length of a dash, then the length Then retrace with ink and ruling-pen. of the break between dashes; and so on alternately. In drawing each segment (or dash) the same rules are followed as when drawing any straight The outline of each dash should be rectangular (Fig. G). To draw the dash: (1) Hold the line.
27
beginning of the dash; (2) see that the ink touches the paper; end of the dash; (4) stop the pen; (5) (3) move the pen, as in drawing If these directions are neglected there may result a dash of lift the pen vertically from the paper. The cause of the forked dash may be seen by holding the well-filled pen, irregular outline (Fig. 7). handle up, between the window and the eye (Fig. 20). Draw 4 dash lines. 54. Dot Lines. The 27th and 28th lines are to be dot lines. Each dot is a very short dash. Use the dot line of Fig. 3 for a model. The last 3 lines are to be dash-dot lines. Use the dash-dot line of 55. Dash-Dot Lines. Fig. 3 as a model. Finish the plate (51). Plate 1 is to be repeated till the character of the lines is satisfactory.
5.
Plates
2 and
3.
56. Plate 2:
Plate 2
Heavy
Lines.
till
Piatt
work
2 is like Plate
1,
This
the
is satisfactory.
is
plate
This plate is to be repeated till the pen-work is satisfactory. Fine lines are well than either of the others, because the ink dries very rapidly in the narrow pen opening. Do not bear down on the pen to start or aid the flow of ink, for this brings the points If the pen makes no mark, or only a of the pen nearer together and still farther retards the flow.
more
difficult to
make
28
ragged or irregular one, the only remedy (provided the points are properly sharpened) is to clean and This may have to be done every two or three minutes, or oftener on a warm day. For refill the pen. fine lines special pains must be taken to keep the outsidesof the nibs perfectly bright while drawing. Patient attention to details will produce good work. Do not entirely close the opening between the points of the nibs in the endeavor to make
fine lines.
6. Plate
3a:
Circles.
58. Pencil Circles. Lay out drawing circles with pen and pencil.
is
to be used for
to
Follow the directions given in 37-40. Spread the compass legs till the knuckle joints are about 2" apart, and bend the knuckle joints make the needle leg and pencil leg parallel to the bisector of the angle between the compass legs.
shows the needle and pencil legs so bent. Select any point well within the border line of the paper for a center, at which place the point Holding the handle between the thumb and forefinger (Fig. 22), so that the needle of the needle leg. Rotate leg is about perpendicular to the paper, let the pencil point come in contact with the paper. Bear the compass about the needle point as a pivot, causing the pencil to trace a circumference. down on the pencil leg only enough to make the finest possible distinct line. With the same center, but with varying radii, draw many circles. So manipulate the compass Sharpen the pencil as soon as it that the needle mark at the circle center remains almost invisible.
Fig. 22
becomes dulled, so as
to
make
all
same appearance.
29
From new centers, draw other sets of circumferences. This work is to be continued no longer than necessary to give the student familiarity with the compass. Loosen the clamp-screw which holds the pencil leg; remove the pencil 59. Ink Circles. tighten the clamp-screw gently. Bend the pen leg at the knuckle joint. Set leg insert the pen leg the pen, by means of the set-screw, for medium lines (Fig. 3). Fill the pen with ink (22). Retrace in ink those circles which have been drawn with the pencil. Examine the character of the first ink circle drawn in connection with Fig. 17. If the line is smooth on both edges, the pen points touch the paper equally. If the line is rough on the inside,
outward about its knuckle joint to bring the inner nib of the pen into contact with the paper. This changes the radius, and if a circle of the radius of the first one is to be drawn next, the points must be brought inward by closing the compass legs slightly. If the line is ragged on the outside, bend the pen leg inward about its knuckle joint to make the outer nib touch the paper. This may require a readjustment of the compass legs. Repeat, with ink, all the circles which were drawn in pencil, studying each ink circle, as it is made, in connection with Fig. 17. Make circumferences with dash, Practice with the pen set for medium, heavy, and fine lines. dot, and dash-dot lines (Figs. 3, 4, 5, 18). Notice that the knuckle joints must be rebent for any considerable change in circle radius, i. ?., in the distance between the points.
leg
30
7. Plate
4:
Accurate Construction.
Sharpen the pencil (17). The pencil lines should be as fine as it is possible to make theni and have them distinct by diffused light. The determined points should be marked lightly with the needle-point, and a small circle be drawn with pencil around each, that it may be quickly found when wanted. Break the pencil lines at these circles. See Fig. 12.
out the plate (48-50).
60.
To
Lay
tical
The four corners of the inner rectangle are named fcrhi as in Fig. Now look at Fig. 12. On the line ill from i lay off ij = ^". Mark jl. Lay off jk = ^". Mark k. Lay off jl = 7f". Mark 1. kl is the
Here
insert a piece of
2.
j.
At
draw the
ver-
left side
of the required
square jlrrm.
HHHHHH
which
is
lead in the pencil-point of the compass, and sharpen it tangent to the circle to be drawn. The finest hair lines
only, are to be
drawn with the compass, which requires that the chisel-point be kept sharp, and drawn with little or no pressure brought to bear on the pencil-point during the
:
With the center k, radius 4|", draw a very fine pencil arc Construct the square thus cutwith the compass. With center 1, and with exactly the same radius as before, draw arc With the pencil draw a small free-hand circle about G. With centers k and 1, with ting at G. and KL, which intersect in point t. Draw a line precisely the radii = 7", draw the arcs lli rough and t. The line Gt bisects the line kl and is perpendicular to it at the point M. Ml should equal Mk. If it does not, the work is inaccurate and must be repeated.
CD
EF
CD
HJ
31
With
center
M,
radius
= Mk,
Mt
in the point o.
is
n.
jlmn. Ion and kom. From o as center, with radius = ok, describe an arc Similarly find m. Draw kn, hm, and ml, thus completing the square.
If they are not, the
work must be repeated. 61. To Bisect an Angle and To Inscribe a Circle. With compass, with radius = 4|", and with k as center, draw arc uv, cutting ko at u and kn at v. From u and v as Line bisects angle centers, with radii = 2t>", draw two arcs to intersect in the point w. okn. Similarly construct the bisector ox of angle kon. Bisectors and ox intersect at x. From x as a center inscribe a circle in the triangle. For the final adjustment of the compass opening, use the hair-spring adjustment. In the same way inscribe a circle in each of the
sides of the square should be equal.
wk
wk
should be precisely tangent to the three sides of its triangle. If any circle is not so tangent, the work of finding the circle center must be repeated. Join the circle centers x, y, z and by straight lines to form a square. With o as center inscribe a circle in this square. If this circle is not precisely tangent to the four sides of the square, the whole figure must be repeated.
circle
Each
Divide a Line Into Equal Parts. Parallel to and 5" to the right of ran draw and y to the left of gh draw rq. Prolong lm to meet ps in s and qr in r. Divide pq into 5 equal parts. To do this measure with the scale the distance pq. Divide this distance by 5, and open the bow divider ( Fig. 24) to take in on the scale this quotient. Now begin at p and step off carefully (without pricking the paper) toward q with the bow divider
62.
To
ps.
Parallel to
If the last step ends precisely at q, the divider has the proper opening.
If
32
the last step over-reaches or falls short of q, change the width of divider opening by means of the adjusting screw by one-fifth of the discrepancy. Step off the distance pq with the new opening. If
This must be continued till there is no When the divider is finally set to exactly one-fifth pq, the stepping is repeated and discrepancy. Mark the points of division the end of each step is marked by a prick mark or pencil mark.
there
is
still
it.
ps
pq
lines parallel to
ps
pq.
pqrs
Now draw
as
straight lines to join points of division on the four sides of the rectangle
pqrs,
shown
in
Fig. 12.
The
lines
The diagonals
should cut precisely the corners of the rectangles. If they do not, the work must be repeated. 63. To Ink Plate 4. Set the ruling-pen for fine lines (Fig. 5) before filling it with ink. Set the nibs to give the smallest visible opening; do not make the nibs actually touch
each other.
(1)
Fill
the pen, and retrace, in the order named, the following lines
(2)
(3)
(4) (5)
(G)
klmn.
two diagonals,
square
km
and In.
xyzA.
small square
xyzA.
33
The
vertical
and horizontal
lines
of
the
figure
psqr.
crooked to pass through intermediate points. (8) The border line, with pen opened to draw medium lines (Fig. 3). Finish the plate (50). This plate is to be repeated until it is satisfactory.
8.
Plate
Irregular Curves.
64. To Use French Curve. On a piece of drafting-paper, draw with a hard pencil some smooth, free-hand curves or flourishes of any form, and retrace these with a soft pencil, using the French curve as a guide. To use this guide, find by trial a portion of the guide that
will just
Fig. 19. Retrace with a soft pencil, using as a guide that portion of the French curve which fits the segment ab. Then seek that portion of the French curve which will fit the next segment of the free-hand curve. This process is continued till the whole curve is retraced. In retracing a free-hand curve with the ruling-pen, the pen must be twisted in the hand as it moves along the guide, in such a manner that the axis of the set-screw is continuously perpendicular to the direction of motion. The pen must be held perpendicular to the paper. When drawing heavy ink lines leave a minute break between segments, to avoid blots. Do not use a blotter (46). When the ink is dry on the segments they may be joined with
fit
a small
at
ab
in
the segment
ab
lettering- or ruling-pen.
point
lie is
may be continuous from one segment to the next through the necessary that the tangents (imaginary) to the two adjacent segments at the juncIf these tangents do not form one line in the same straight line (Fig. 16).
the curve
34
65.
To Construct
Plate
5.
After
little
practice
curve,
lay out
The point
n may
and
ig.
Draw
Letter
lm
and jk
and
intersect at n.
Draw
Lay
on,
till
radiating lines to
divide each
quadrant
|".
at
parts
(61).
on
ns from n
the distance
nl =
Make
n2 =
from
";
n3 =
pencil
f ";
n4 =
|";
and
so
Through points 1, 2, 3, 4, 5,
curve.
1,
draw very
lightly with
smooth,
free-hand
the
(For this
4, 5,
. .
it
.
may
circles,
as center, through
points
2,
3,
.)
medium
lines
this
curve, using
the
French
line, ifcfh.,
. . .
medium
lines.
8,
9,
12345
shows any or
all
10,
11
and
1(3,
it
must be redrawn.
Finish the plate (51).
CHAPTER
A
9.
III.
Course in Lettering.
Use black, water-proof drawing-ink. For small 66. Materials Required for Lettering. 404 pen, and for large letters (as in titles) use Leonardt's 506 F or other ballpointed pen. The lettering-paper provided with this book is ruled by horizontal lines 1 mm. (millimeter) apart. Every tenth horizontal line (heavy), beginning with the heavy line at the top of the sheet, is to serve as top guide line for a line of lettering, in all the work up to the first plate of titles. I-guides (72) are ruled for both Vertical and Inclined lettering. 67. Preliminary Practice. Sheet I. Read and follow step by step the directions given
letters use Gillott's
in 46
and
73.
Line A.
to
fill
Draw
Draw Draw Draw
from guide
at
this line.
Line B.
which begins
guide
and ends
at guide 6.
Line C. Line D.
Line E.
mm.
long.
6,
sloping 45 to the
right (esti-
6.
36
fractional o
Draw the top and bottom thirds of Draw the top and bottom thirds of an s and S respectively (80). and
o o
to
make
of each
The
made with
Sheet II. Practise making the Vertical lower-case letters, following carefully the directions under 10 and 11. Do not try to make the strokes as heavy as those in the model. After a little Do not repeat a letter more practise on the individual letters, print words and thus fill out the sheet. than six or eight times consecutively, but return to it after making others. Practise Vertical capitals, following directions under 10 and 11. After becomSheet III.
ing familiar with the individual letters, print words till the sheet is finished. Practise Vertical numerals (89), at first 5 spaces high, and then 3 spaces high. Sheet IV.
the lower half of the sheet practise fractions and mixed numbers. For Plate 6 copy the text in this book, beginning with 10. Use 68. Plates 6 and 7. This plate is to be repeated until letters as they occur in the text. lower-case and capitals Vertical
On
the lettering
is satisfactory.
For Plate 7 copy the text and capitals as they occur in the
satisfactory.
letters
text.
Use
till it is
The following plates are to consist of titles, one to each 69. Plates 8 to 17: Titles. Use Vertical letters and follow the directions given in 12. Make the largest letters of each plate. The heights of letters in the less important words, and of the title 9 mm. high, using 506 F pen.
A COURSE
IN LETTERING.
37
spaces between lines, will be determined as far as possible by the suggestions given under 90, and the
Figs. 36, 37, 39.
lettering plates.
ters are to
The individual letters of each title are Each line of a letter is to be made with a
be made. Each title is to be symmetrically located on the plate. Each plate is to be repeated till the work is satisfactory in all respects. The text to be used for each title is given below: Winnemucca, Nevada, surveyed by W. H. Olds, scale 1"=1000'. 1901. Plate 8. Tail-stock of wood-lathe, scale &'=. John Smith. Plate 9. 18" shaft-hanger, scale half size. August Green. Plate 10. Pedestal bearing of 20" x 36" Corliss engine, scale 3"=r. Wm. Allgood. Plate 11. Profile of Hale street sewer, between Jay street and Chase avenue. Plate 12. South part of Big Basin reservation, Santa Cruz County, California, surveyed by Plate 13.
1
inch =500 feet, equidistance 10 feet. 1901. Preliminary survey Los Trancos railroad, Mayfield to Portola, Santa Clara County, Plate 14. California; George Thompson, locating engineer; scale 1"=200'; contour interval 5 feet. 1901. (This title is to be made as for a map to be filed in the Chief Engineer's office.) (This title is to read the same as that for Plate 14, but is to be printed on this plate Plate 15. as for a map to be filed with a public officer.) Nevada & Colorado railroad; wooden trestle over Humboldt river; scale V'-=i4!. 1901. Plate 16. Proposed water supply system for Banning, Cal.; location and sizes of mains; Plate 17. Chauncey Monday, Civil Engineer scale 1"=400'. 1900.
;
38
Linear Drawing " in the style used for the lettering plates, making the capitals 9 mm. (") high. Print the name of the draftsman in the same style with capitals and long lower-case letters 6 mm. (I") high, within |" inch of the lower and left-hand edges Similarly print the date in the lower right-hand corner of the plate, just above the of the plate. border line.
"
70. Final Work on Plates. Ink the border line. In the middle of the plate print
The cover-plate for the lettering plates is to be lettered in every way like that described above, except that "Lettering" will take the place of " Linear Drawing." The lettering cover-plate will he
of exactly the size of the lettering plates.
Binding the Plates. The plates of Linear Drawing are to be arranged in proper order, beginning with the cover-plate, and neatly bound b}' fastening together with McGill fasteners at the left end, where is the widest margin. The lettering plates, including their cover-plate, are to be bound in like manner.
10.
Vertical
and Inclined
Lettering.
Preliminary.
letters a b
71. Directions of Letter Stems and Axes. and the long axes of the letters o e s o I
. .
.
.AMY.
d hi j
of the
same
and their common direction will be referred to as the I-slant of that style. 72. Guide Lines: Horizontal and I-Guides. In Fig. 34 eight equidistant horizontal guide lines have been drawn and numbered from the top downward. Nos. 1 and 6 limit the capitals and figures and certain lower-case letters, as b d ... Nos. 3 and 6 limit the lower-case letters a c e m and the bodies of b d g No. 8 limits the tails of g j p q y. The intermediate
A COURSE IN LETTERING.
39
guides are drawn for convenience in describing the details of certain letters. In lettering drawings the draftsman usually pencils only the main guides, 13 6. I- guides are those drawn to control the direction of those strokes which have the I-slant (71). I-guides are shown drawn for o a b, Fig. 34
end). It will be noticed that the direction of the I-guide is the given style of lettering. same For the Inclined lettering discussed in this book, I-guides are drawn to have a slope of 2 :5 (2 horizontal to 5 vertical). On the letteringpaper which accompanies this book two sets of I-guides have been ruled for the convenience of the beginner, one vertical and the other with the 2 5 slope. All the strokes of each letter should be of Figs. 30-34. 73. Individual Pen Strokes.
(left
o s in Fig. 31 (left
Follow carefully the instructions under 46. It is a good plan to practise drawing straight lines slowly with constant pen pressure till lines can be made as uniform in width as those drawn with the ruling-pen. It will be found that even an unsteady hand can make fair lines after a Steady the pen if necessary by holding the left hand on the paper with the left first little practice. Rapid strokes are smoother but cannot finger extended and pressed against the right thumb nail. usually be controlled to correctly form the letters. The order of making the strokes of each letter is given by small numerals, and the direction of each stroke is indicated by an arrow. Observe carefully the point of beginning and the point of ending, as well as the direction of each stroke as it is copied, e. g., the top of the stem of b should be not below it, not above it. Make the top and bottom curved strokes of precisely on the top guide o c e touch, but do not overlap their top and letters precisely tangent to the proper guides bottom guides. Guard against ending a stroke, as at the bottom of c e, with a flip of the pen, as is customary in writing. Horizontal and oblique strokes require more pains than vertical.
the
same width.
10
74. O as Model for Curve Forms. Almost every curve of the letters and figures of the Vertical and Inclined styles of lettering may be considered as embodied in the letter o or with very the and with great advantage to beginner error little in the saving of time and mental effort. This
should be practised till it can be well made before the other letters are taken up. In this pracWhen making a letter which involves a part of o (or 0) so large as to tice it should be made circular. require its first being put in with pencil (as in titles), it is well to lightly pencil the whole o (or 0)
letter
in order to
letter.
are
due
to the difference in
I-guides, 72) that the latter can with little error be considered as the former alphabet with
In the following section each numbered paragraph starts off with a rather group of letters or numerals in the Vertical style. In every case the description is to be taken as applying to the Inclined style, except as noted at the end of the paragraph under the sub-head "Inclined." 76. Widths of Letters and Figures. The beginner usually makes letters too narrow. It is well to try to make the letter o as wide as high (circular), in practising. Taking the width of o as unity: m is 1, w is li, r is , t is , and all other lower-case letters
i and l) are each as wide as o. is U, Taking the width of as unity: A is I5, I) have each the width of 0. Taking the width of as unity: the width of 4 is each as wide as 0.
(except
is I5,
is
i,
and
all
\\,
A COURSE IN LETTERING.
These are rough
rules, but will be
41
found sufficiently precise for freehand lettering * 77. Spacing Letters and Words. The letters in a word should be so spaced as to present as nearly as possible a uniform distribution of black and white. For all ordinary lettering the is done the spacing by eye, which should be trained by carefully studying the spacing of letters of words printed in large type, as those on the title-page of a book. In reading a book printed in type to which you are accustomed, the eye usually takes in a number of words at a glance the longer the words the smaller the batch, and an unfamiliar word may require undivided attention, but it is seldom that the individual letters are scrutinized. If the letters of a word are set too far apart, a conscious effort is required to take in the word without noting the individual letters. Less effort is wasted in reading words whose letters are crowded more than usual. Beginners should try to place the letters of a word as near together as is possible without having them actually touch, in order to overcome their strong tendency to make the letters too far apart. and A J and L are wider at the bottom than at the top, while the reverse is true of F P T V th ?re must be more white Y. Where we have in a word the pair AJ LJ LA FV PV or space between the letters of the pair than between two adjacent letters usually. But where there occurs the pair FA VA LT its two letters can be interlocked, the projecting part of one encroaching on the gap in the other. Notice in NEVADA, Fig. 36, that the right branch of Fovertops the left branch of A. If the spacing of the letters in this word had not been done by eye, but by alloting to each letter the same amount of space (as is often done in making titles), there would be a noticeable
;
WY
gap between
Tand
A, thus:
NEV ADA.
(See 92 for
this title.)
* For complete and accurate dimensions of the "Plain Lettering " (Engineering News, N. Y., $3).
42
width of
for
lower-case and
title.
may
made with one two strokes, as shown. Unite the two strokes carefully, to avoid blots at the joints. The long axis of o has the When about to make o with a pencil, pencil lightly an I-guide (72) for its axis. I-slant (71). The width of o should usually be taken slightly less than its height (76). Fig. 31. The above description applies to the inclined o, remembering that for Inclined.
o.
Vertical.
Fig.
34.
is
This letter
may
it
be
it
best to
make
in
79. Details of a b d g p q. Vertical. Figs. 33, 34. Each of these letters consists of the letter o (78) and an I-slant (71) stem, which in the case of g turns to the left at guide 7 The beginner should make the o (72) to form a curve one space high, like the bottom of o. first and add the stem till he can fairly form each letter, after which he will in the case of b and p make the stem first. The o-portion of each letter should be made nearly as w ide as high and if the beginner has the common tendency to make these letters too narrow, he should overcome it by trying to make them too wdde for a time. These letters may be made with the
T
;
o.
Fig.
31.
will
be more satisfactory
;
if
each has a slant of 45 instead of the I-slant (71) ting the extreme left point of the o-part.
and
A COURSE IN LETTERING.
43
The
c is o with a gap in its right side. beginning of the stroke extends farther than the end, to the right, c may be made in two
S.
80. Details of C e
Vertical.
Figs.
33, 34.
as
in
one
made
throughout its length with deliberation. For e make c with the right upper part produced down to the horizontal stroke, which is added at the mid-height of the letter. A variation in the position of the cross-bar is shown in
e
of Fig. 31
are
like
the
corresponding parts of o.
The
reverse
curve
is
smoothly connect the top and bottom curves, and pass a little above the center of the letter, which otherwise will look top-heavy. The order of strokes should be that which produces the best s. In capital S (Fig. 33) another order of strokes is indicated. A third order is Reverse curve first; top, second; and bottom, last. A fourth method of construction is: Make top curve and upper half of reverse curve with one stroke; imagine (or draw, if using pencil) an I-guide (72) passing through the lower end of the stroke just made and beginning at this point, finish the letter with one stroke so made as to balance on the I-guide. Inclined. Figs. 30, 31. The above applies to c e s. It is usual to make the bar of e oblicpue. 81. Details of h n r u. Vertical. Figs. 33, 34. h is like n except that the first stroke of h. extends to the top guide, is like n with its curve and right, straight stroke repeated. The letter is improved by having the curves made sharper, giving a narrower letter For n make the left stroke, giving it the I-slant (71); then draw the curve as if for the (76). upper half of o (with I-slant axis); and add the short stroke parallel to the first, joining it smoothly with the curve. After a little practice the curve and short stroke may be combined in one, but bear in mind while making this that there are two distinct portions, a curve and a
:
44
straight line, with a fixed
at the
to be a weak curve, r is like omitting the right down stroke, u may be considered as two strokes (having the I-slant) smoothly connected by a curve which is the lower half of o hut it will be found easier to flatten the curve, bringing the straight strokes down a little
letter is apt
:
farther, as
filling
first
n r care should be taken that the curve leaves the first stroke without with ink. This may be avoided by flattening the curve, so that it leaves the stroke sharply instead of at a tangent.
the
shown in In making h
notch
Fig. 33.
Inclined.
The preceding
t.
Vertical Figs. 34, 33. f is formed by adding a short curve to the top of t. When the top curve and stem are made at one stroke, stop the pen for an instant at the end of the curve on the second guide to get a fresh start on the straight part, and thus avoid a crooked stem, i has the I-slant (71). The dot is a very short dash placed on guide 2 and in the prolongation of the stem. To make j, continue the stem of i downward one space, and add a curve like the bottom of o to occupy the bottom space. If the letter be made in one stroke, it is well to guard against making a crooked stem by stopping the pen for a moment at the beginning of the curve. 1 is straight, begins at the top guide, and has the I-slant. The stem of t is straight, has the I-slant, and, unlike any other letter, begins on guide 2. The crosspiece should be a full-width stroke, without blot, truly horizontal, and with its upper edge precisely on guide 3. It is well to let the main stroke dry before putting on the second, if a blot cannot otherwise be avoided.
j
1
82. Details of f
Inclined.
The foregoing
A COURSE IN LETTERING.
45
83. Details of k v w x y z. Vertical. Figs. 32, 33, 34. For k take care to make the second and third strokes straight, of full width, and without blots at the meeting points. The second stroke meets the first at guide 5 and makes with it a 45 angle; and the third meets the second at guide 4. The two strokes of v make equal angles with an I-guide (72) through their point of meeting, and their axes should meet precisely on guide 6 that the point of the letter
be neither wider nor narrower than a single stroke. When a v of large size is to be made, is formed of two rather narrow v's. Make strokes follow directions given for capital (88). For y make V and prolong its right side to guide 2 and 3 meet as neatly as strokes 1 and 2. The two strokes of x make, with the 7, and add a flat curve tangent to the stem and to guide 8. I-guide through the center of the letter, equal angles a little larger than the corresponding angles
may
of v. It requires some special effort to put in the second stroke without blotting the first at the meeting point. If this cannot be done, the second stroke can be added after the first has dried or a break may be made in the second stroke just sufficient to clear the first, z is shown made with three strokes. Strokes 1 and 2 should be truly horizontal, of full width, and without ragged After enough practice the letter may be edges, and the third stroke should meet these sharp])'. fibres at the turns and thus blotting the risk of picking up paper one stroke, but at made with
;
the notches.
Inclined.
Figs.
30, 31.
84. Details of Capitals O Q. Vertical. Fig. 33. O is best made in two strokes, which must be smoothly joined. The letter is symmetrical with respect to an I-guide (72) through its center. Q is formed by adding the short oblique stroke cutting the lower right quarter of O. Inclined. Figs. 30, 31. The preceding description applies to this style. 85. Details of C D G J S U. Vertical. Figs. 34, 33. C is similar to lower-case c
applies here.
46
(78).
The
right side of
is
the student with the correct form of the letter, the three strokes
one by a skilful
as one.
letterer,
who
at first to impress usually 4 are combined in 2, 3, nevertheless must think of the strokes as three while he is making
and Though
is
better
made
distinct
To form G: make the first stroke as for O; the second stroke begins at the juncthem tion of the I-slant axis of the letter and guide 3, extends horizontally half the width of the letter, and turns sharply downward to form the right lower quarter of O. J consists of a stem having the I-slant which connects smoothly at guide 5 with a curve which is tangent to guide G and rises to guide 5. S and U are respectively similar to s (78) and u (79). The foregoing description applies here. Inclined. Figs. 30, 31. 86. Details of B P R. Vertical. Figs. 33, 34. Putting in a third horizontal stroke at the bottom and a (slightly larger) second half-o below the first, converts P into B. The curve of of lower-case smoothly connected o, and is to the I-slant stem by two short, P is the right half
horizontal strokes.
It is helpful to
make
can be well
made by combining
is
made by adding an
Inclined.
oblique stroke to
at the right
end of stroke
Figs.
31, 30.
The foregoing
I
87. Details of
E F H
T.
Vertical.
In these
letters
special
pains
must be taken with the horizontal strokes. Add a horizontal stroke at the bottom of F to form E. The lower horizontal stroke of F is shorter The top stroke is slightly shorter than the bottom than the other by a third, and lies a little below guide 3. The horizontal stroke of H is just above the center. I is a single stroke whose direction is called the I-slant (71) of this style of lettering. To avoid mistakes where I might otherwise be taken for lower-case 1 or the numeral 1, add
A COUESE IN LETTERING.
very short, horizontal
I-slant stem.
47
ordinary print.
stroke of
strokes to I at
top
and bottom,
as in
Add
is
a horizontal
The horizontal
bisected
by the
88. Details
be
ofAK
all
MNVWXYZ.
sides of
applies here.
Special
pains
must
give
the
taken
its
to
make
the horizontal
width, and to
each
correct
direction.
The two
make
peak. Make a dot for the bottom of each side stroke. Imagine (or draw, if working with Draw the side strokes toward the two dots pencil) an I-guide (72) midway between these dots. The third stroke is just befrom the intersection of the I-guide with the top horizontal guide. stroke 3 meets stroke 2 at guide 3. stroke 2 meets stroke 1 at guide 4 low guide 4. In Stroke 3 extends to the right farther than stroke 2. For make the two I-slant, side strokes midway between these and on guide 5 place a dot, toward which draw the sloping strokes. is one-fifth wider than O (84). In N take pains to have the third stroke axis straight and cutting the side-stroke axes precisely on guides 1 and 6. The method given for constructing applies If making the letter to V. is similar to x (81). consists of two rather narrow Vs. with a pencil, first draw an I-guide through the letter center by which to gage the slopes of the strokes or draw the two sides of the quadrilateral which encloses the letter space, and draw the
W
as
strokes
diagonals of this
figure.
of
make
stem,
I-slant (71),
and meet it slightly above guide 4. Z is similar The foregoing description serves here also.
Vertical.
(81).
Figs.
33, 34.
is
when
Zero
The
figure
48
1 is a straight, I-slant line usually, but a short slanting stroke is added at the left of the top when it might otherwise be taken for capital I or lower-case 1. The loops of 2 3 5 are preferably portions of the lower-case o, though they are also shown as portions of an o whose axis The loop of 2 is also shown as based on the upper loop of 8. The left stroke lias a 45 slant. The right stroke of 6 of 6 and the right of 9 are respectively the left and right halves of O. and the left of 9 are the corresponding parts of the Vertical lower-case o. These figures are also shown with the axis of the loop tilted 45 to the right. 8 may be considered as two Vertical,
lower-case o's, one above
upper
or as the
letter
and right openings closed. The bottom of the 7 is on the I-guide which passes through the middle of the upper stroke. The denominator and numerator of a fraction are each as high as the lower-case o. The numerator stands on guide 3 and extends one space above the top guide. The denominator exThe bar between numerator and denominator should be a fulltends from guide 4 to guide 7. width stroke, truly horizontal, and midway between guides 3 and 4. Figs. 31, 33. The preceding description applies here. Inclined.
with the
left
12.
Titles.
90. Arrangement and Proportions of Parts of a Title. The title of almost any textbook furnishes a model for the arrangement and relative proportions of the various parts of a title. The relative prominence of the parts of a title of a working drawing should correspond to their relaThe most prominent words tive importance to those by whom chiefly the drawing is to be used. should be those which will most probably be held in mind by the chief user when searching for this
A COURSE IN LETTERING.
49
drawing. Figs. 36, 37, and 39 show three simple titles. At the side of each are small numerals and brackets which give the relative heights of letters and distances between lines of letters. Beginning at the top, Fig. 36: " Winnemucca " is 3 units high the space between " Winnemucca" and " Nevada"
;
is
2 units
"
;
Nevada
" is 2 units
high
titles
beginner is apt to produceFaults in Titles Made which have one or more of the following faults: (1) The heights of letters in the different parts of the title are incorrectly proportioned. (2) The spaces between horizontal lines of letters are not well proportioned as to each other
91.
Common
The
is
3 units,
and
so on.
and
The paper
surface
is
injured, so as to
make
paper with the pencil, and by the hard erasing which pencil work.
(4)
lines
been penciled.
(5)
(a)
stems of
letters are
not
made
(b)
made with varying pen pressure; different and some letters are made heavier than others. As a rule the student's titles are less satisfactory than his ordinary lettering, because long strokes are harder to make than medium ones, and imperfections which are barely noticeable in medium letters may be prominent in large ones. Also it will be found more difficult to make very small letters than medium-sized ones of the same quality.
made made
(c)
of different thicknesses;
;">()
(1) Write out the title, grouping the words as they are to appear on the drawing (106). (2) Decide on the position which the title is to take on the drawing (106). (3) Draw a vertical line through the middle of this space with a sharp 6-H pencil. (4) Decide on the height of the letters to be used in the principal word or words of the title From this height determine the heights for the letters in the other words, and the widths of (106).
92. To Construct a
Title.
a sharp
6-H pencil
(Fig. 36).
proper order on the center line, to be drawn lightly with If necessary for the proper proportioning of the individual letters, draw
off these distances in
Lay
Also rule lightly in pencil, across the spaces which are allotted to the lines of lettering, a series of vertical lines (if for Vertical lettering) or slant lines (if for Inclined lettering). These lines may be spaced by eye somewhat less than one inch apart. (5) Near and parallel to the edge of a piece of writing-paper, rule two pencil lines spaced height of the letters in the first line of the title. (Time will be saved by cutting a sheet of the apart Using these lines as guides, print with pencil the ruled lettering-paper into strips for this purpose.) letters of the first line of the title, giving special attention only to the widths of letters and of the spaces between them (76, 77). The proportioning of letters and spaces is done here by eye for letters
of
ordinary
size.
Mark
Place this paper on the title space so that the marked middle point of the line of printed letters is on the vertical center line of the title, and the line of printed letters lies just above the guide lines drawn for them on the title space.
A COUKSE IN LETTERING.
(6)
51
too sharp,
lightly
at the left
end
its model. Give attention to the details as well as to be omitted by good letterers on small letters.) (7) Proceed as above in constructing each of the succeeding lines. (8) Correct any apparent imperfections in the lettering.
letter vertically
(Direction 6
may
can be
ing-pen, without
made with one stroke of the lettermay be retraced at once in ink with
the lettering-pen (46, 10, li). (10) If the lines of some of the letters are to be heavier than can be well
stroke of the bluntest pen at hand, outline these letters with pencil.
retrace the outline in ink.
With a
Then
erase (after the ink outlines are thoroughly dry) the pencil lines in
Fill in the outlines
manipulated so as to barely touch the paper. much ink drops from the pen at any part of a letter, the surplus removed by deftly touching it with the tip of a small piece torn from the corner of a blotter.
is
CHAPTER
IV.
Introduction to Drafting.
13.
93. Drafting
It is
consists in
combining
and
letters to represent
objects
and operations.
its posi-
necessary to give as
much
tion has been determined, as was given to drawing the individual lines of Plates 1, 2, 3, 4 and 5. It is important that the student constantly review and act upon the suggestions given in the first three chapters until he properly cares for and correctly uses his instruments and materials tli rough force of habit. In order to be able to make a good engineering drawing of an object, it is necessary to have, besides skill in making lines and letters, some acquaintance with common drafting This chapter is devoted to a few of the practice and an engineering knowledge of the object. usages and conventionalities of drafting. 94. Choice of Paper. Engineering drawings are, for most part, of two classes: (1) drawings which either are not to be duplicated, or are to be duplicated by means of some photographic process; (2) drawings which are to be duplicated by tracing and blue-printing. Hot-pressed paper is used for fine-line draw(1) Drawing-paper is used for the first class. cold-pressed is used for the ordinary range of lines, as in topographic mapping. The ings rough-grained surface is used for large-scale, heavy-line work. Both medium and rough surfaces
INTRODUCTION TO DRAFTING.
are suitable for water-color drawing (for which the paper
53
all
drawings of this
class
must be stretched, as explained in 97). which are intended for severe use, should
Commonly,
95.
detail-paper
drawings are penciled directly on the tracing-cloth and then is used for the original pencil drawing, from which a tracing
made.
The scale of a drawing is the relation between distances on to Scale. the drawing and the corresponding dimensions of the object. Thus we say the scale of a certain map is 2ifeo (called a representative fraction), or 1" = 200', or 200 feet to an inch. Of a certain
machine drawing we say the
plot of a survey
1000', etc;
scale is
To Draw
\"=
1';
is
made
" =
on the ground.
1"=
20', 200',
of a
map
is
usually
1"
= 10',
100', or
and
so on.
Every tenth line is is subdivided into 10 equal parts. (zero). Fig. 45 should be studied in conbeginning with the first, which bears the number nection with the engineer's triangular scale (30). On a structural or machine drawing, each unit space represents 1' on the object. The length of each unit (30) on an architect's scale is given by the number printed in large figures under the initial unit, which alone is subdivided into twelve equal parts. The unit spaces are numbered as shown in Fig. 46, which should be carefully studied. The scale of a map should always be stated (as in Fig. 36), or shown by a drawn scale, together with the representative fraction (Fig. 49), or both. On a small-scale map it is well to draw also a scale of miles in the title space. For a working drawing it is customary to simply state the scale, thus: Scale: %"=!' or to omit the scale altogether.
space on the engineer's scale
54
the Paper. In the drafting-room of a machine shop or bridge shop nearlyall the drawings are made on a few sizes of paper which are fixed, (usually on the basis of conStudents' drawings are, for the venient filing) by the chief engineer or chief draughtsman. most part, made on a few designated sizes of paper. For certain classes of work it is impracticable to keep on hand enough sizes of sheets to accommodate the required drawings and for each drawing the paper is cnt from a roll. The drawing may be made on an ample portion After this of the roll paper, which has been unrolled (but not cut off) and tacked, on the board. This is inconvenient the border and cutting lines are located and ruled, and. the sheet cut. Usually a piece is cut from the roll of paper before the drawing is and wasteful of paper. In this case it is necessary to know beforehand what will be the length and breadth of begun. the finished, drawing. For structures and machines there is usually no trouble in finding the extreme height and length (or width) of the object or part to be shown. For a map, the required, size of the paper may be determined by one of the following Compute the co-ordinates of the limiting points of the area to be methods: First Method. north and south and east and west axes so chosen that all the points preferably using mapped, (The N. and S. line should usually be parallel to the vertical edges are thrown into one quadrant. maximum abscissa and the maximum ordinate will be (to scale) the The of the map, north up.) minimum lengths of the border lines. The border lines should be somewhat longer than absoThe lengths lutely necessary, that they may not seem to crowd the interior lines of the drawing. of the cutting lines (49) are now determined by adding to the border lengths the widths of the margins (101) desired. Usually somewhat more paper is cut than is required, the extra part being taken at one side of the sheet for use in testing the pen after each filling or setting. Second Roughly plot the limiting points of the survey on one or more sheets of detail- or crossMethod.
;
96.
To Cut
INTRODUCTION TO DRAFTING.
section-paper.
55
If two or more sheets are required, they are overlapped to serve as a continuous border lines, leaving sufficient room for the map and title. Locate the cutting the Locate sheet. The drawing-paper for the finished map is cut to lines, giving the margins the desired widths. the dimensions of this rough plot. Use the first draft as a model in laying out the first lines
Third Method.
Plot
more
sheets of detail- or
it,
drawing-paper.
map and
cut
second method. Place the first draft on this paper so that the map the space to be bounded by the border lines. Prick the located points on will lie symmetrically through with a fine needle-point, being careful to hold the needle perpendicular to the paper and to make only minute holes in the under sheet. 97. To Stretch the Paper. For drawings to which water-color is to be applied, it is necessary to stretch the paper. The advantages of having a perfectly flat surface to work on will often make it pay to stretch the paper for an accurate pencil or ink drawing. A sheet of drawing-paper is stretched in the following manner, using a clean drawing-board, clean hands, clean sponge and glass, clear water, fresh blotters, and liquid glue or strong mucilage (1) Cut the paper to allow a margin of \" (or more, according to the size of the sheet)
the paper for
as in the
outside the cutting line (49). (2) Turn up this outer margin on the four sides,
making
bottom up, on the horizontal drawing-board. (3) (4) Wet the bottom (not the sides) of the tray, by gently tapping with the saturated sponge. As soon as the paper begins to sag in the center, squeeze the water from the sponge as it is passed above the higher parts of the paper. (The water should not touch the turned up margins nor get on the drawing-board.)
this tray
L.ofC.
Turn
;>(',
As soon
as
the
papor (except
is
up
lie
water with the sponge, without rubbing the latter on the paper. (6) Coat the dry margins with the mucilage.
(7)
up, in its
(8)
it
lay
it,
right
side
With
the
finger
tips, press
center.
Treat
the other
one long margin on lie board, rubbing outward from margins (beginning with that opposite the first) in the
the margins
by drawing
the finger
tips
away from
It is
advantageous to have a helper, so that opposite margins can be pressed down and drawn out at the same time. Otherwise it is a good plan to drive thumb-tacks into the margin The mucilage must set firmly before the sheet dries. Keep the board in a horifirst pressed down. Usually the paper should not be drawn zontal position, away from the sun and artificial heat. on till the following day. Notice that in the above operations no water is applied directly to
the working surface of the paper.
14.
to
Drafting.
98. To Pencil a Drawing. The precision with which points and lines are marked All lines should lie should depend altogether on the required accuracy of the finished drawing. pressure) full determined, fine (with slight and till their limits are when they may be drawn redrawn heavier, and full or broken as desired. It will not usually be necessary to show lines
INTRODUCTION TO DEAFTING.
57
broken till they are inked or traced. Lines which are to be traced should be redrawn with a sharp chisel-point (17) with some pressure, that they may show well through the cloth. For a drawing on which the dimensions are to be inked or traced, write in each dimension lightly but clearly Also write those descriptive words which are to appear on the final work at as it is laid off. the parts to which they belong. of drawing After all the lines are drawn, print the time
the dimensions, descriptions, and
title ( 15).
The
order of penciling
to
lines
and laying
There
is
off distances
be represented.
in
usually on an object
:
which we naturally
horizontal axis of
lines
e.
g.,
on a drawing varies with the charat least one horizontal to the bottom or base line of a machine, a
floor line of a building,
symmetry
high-water
on river and harbor structures, the grade line on a bridge for highway or railroad, etc. which we are is commonly on an object one or more vertical lines with respect to accustomed to locate other lines, e. g., a vertical axis of symmetry of a machine part, trestle bent,
Also, there
bridge pier,
line,
its
or truss
we place this line on the paper in such a position that the completed drawing will occupy proper position within the border line. If there are two or more horizontal or vertical reference lines, one is drawn first and the others are located on the paper with respect to this. In
locating a
point
when
there
are
lines,
that one
will
be
used
least work.
By way
of an apron-stud,
Fig. 42, are here given: (1) Draw an indefinite horizontal line to represent the long axis of the stud. (2) Knowing all the dimensions shown in the figure, begin at a chosen point toward the
58
lefl
end of the drawn line and lay off consecutively (to scale) to the right the distances 1\", 1", \\" and 1", making a fine dot on the axis at the right extremity of each distance. |", ", (These lines are (3) Draw an indefinite fine line perpendicular to the axis at each marked point. drawn one after another, beginning at the left-hand point, with the triangle sliding along the T blade while the head is in full contact with the left edge of the board.) (4) On the first vertical line lay off' (to scale), upward from the axis, V (one-half the diameter of the screw at the left end of the stud); lay off on each vertical, in turn, the corresponding half diameter; with the divider, lay off each half diameter below the axis. (5) Draw horizontal lines through the outer ends of the half diameters to form with the vertical lines the outlines of the stud. (6) The details of the screw threads are constructed next. Lines which have been located by measurements made from and along the first line drawn, serve in turn as reference lines for groups of details. (7) If the drawing is to be traced, the outlines are redrawn with a sharp chiselThe dimension lines (102) are drawn where they will least interfere with the clearpoint. (8) ness of the outlines and where there is the least danger of misunderstanding to what they refer. (9) The guide lines are drawn for printing the dimension figures, descriptive words, and one-line title, after which the printing is done with pencil ( 15). Some of the details of the above construction may be varied, e. g., the distances may be the laid off from the right instead of the left, or from any point chosen, to the right and left of the scale (this is the best method when of one placing located at a diameter may be two ends the scale is divided full length), or each half diameter may be taken from the scale with the divider and laid off upward, and then downward by swinging the upper divider point about the lower, which rests on the axis. For a map, we first draw a pair of rectangular axes, a north-and-south line, a base line, or
.[
1
INTRODUCTION TO DRAFTING.
one
of
59
method of making the survey. The student should consult some work on topographical drawing* for the details of map work. 99. To Ink a Drawing. It is bad practice to begin to ink a drawing before the pencil work has been completed. A drawing should be so inked that the outlines of the object represented become known at the first glance, while the projection and dimension lines (102) and other details become clear only on closer inspection. To this end the lines of a drawing are made heavy and light, full and broken. Three representative sets of conventional lines are given
the longest straight lines of the survey, according to the
in Fig. 43.
Lines should neither run over nor fall short of their limiting points. Dashes of broken The segments of broken lines should be made as uniform in lines should not cross full lines. Straight lines and curves should be smoothly joined. length and spacing as is possible by eye. Irregular curves, too sharp for the French curve, are put in free-hand with the lettering-pen. In drawing hidden outlines, which are near together and parallel, make the segments of
the lines break joints, as
shown
in Fig. 43.
be drawn with one stroke of the ruling-pen set wide, as already indicated (56), but for outline shading the following method is often used: First rule, say, a horizontal fine line. Rule a second line (with the pen set as before or a little wider) below and parallel to
heavy line
the first. The second line is ruled to just touch the first or to leave a white space between, depending on the required width of the finished line. The white space if narrow is filled by a third stroke of the pen, which is slanted to reach the white space without moving the guide
may
*One
Wiley
of
is
&
GO
second position. If the white space is wide it can be filled by repeated rulings with the ruling-pen, or with ink applied Avith a lettering-pen or water-color brush. To shade a circle: First draw a fine line circumference (Fig. 47). With the same radius and pen setting, draw the lower right half of a circumference from a center located to the right of and below the first center on a 45 line through the latter. The distance between centers is regulated by the desired weight of shade at the middle of the right lower quadrant. If there is a white space left between the two arcs it is filled by a third arc drawn from a third center midway
from
between the
first two, or with a lettering-pen or a brush. The order of inking the lines of a machine or structural drawing with the least chance of mistakes is as follows: A. Outlines. (1) Curves (a circle is most conveniently shaded as soon as drawn, while the compass is open to the radius) (2) horizontal lines (fine), beginning at the top (4) sets of parallel oblique lines (3) vertical lines (fine), beginning at the left side of the drawing
(fine);
(2),
(5)
odd
(i.
lines
(fine).
(3), etc.,
given above.
e.,
The
lines.
These
;
are
drawn
in
the
order
The shaded line should usually be little, if Ink the figures and letters. any, more than twice as wide as the fine line. D. Lettering. Time may be saved, at the risk of mistakes, by setting the pen wide to rule each shaded In this case the fine horizontal and vertical lines are drawn first, and the line at one stroke. The extra width of each heavy line thus heavy lines afterward drawn in the same order. drawn should lie without the true outline of the part, i. e., the shading should not encroach on
are shaded
made
Cut
the
cloth
extra
large, so
as
to
have a
strip
outside
pen
after each
Tack
INTRODUCTION TO DRAFTING.
the
cloth
to
61
corners first, so that it lies smooth over turned up (16) the gloss is removed with pumice powder (29). While tracing, occasional grease patches may be discovered by the ink's not taking hold of the cloth or by the sudden unloading of the pen. This oil is easily removed by the application of a little pumice powder. The character of lines and the order of making them are given in 99. Ink will enter a break in the surface of the tracing-cloth and follow along the threads. It is therefore important that erasures be made with pumice powder
the
board,
two
diagonally
opposite
side
the drawing
to
be traced.
If
the glossy
is
be drawn without making holes at their centers. When ink enters the interior of the cloth by way of natural defects in the surface, the only remedy is to take a new piece. To make good lines, free from tails and blots at the ends, it is necessary
instead
of
steel,
and that
circles
on the board in the vicinity of the working pen nibs. To make uniform must be moved at uniform speed. 101. Margins; Border Line. The luidths of the margins (50) for students' drawings are usually prescribed by the instructor. For drawings which are to be preserved in quantities, e. g., blue-prints in machine-shops, the margin is often as narrow as |". For display drawings made on drawing-paper the width of margin ranges from 1" to 2" for a drawing 2' x 3', to 4" to 6" for a drawing 5' x 7'. It is best to make provision for an ample margin when cutting the paper,
to
flat
convenient to have a narrow strip at one side of the drawing, on the outside of the cutting line, on which to try the pen after each filling. The border line for students' and working drawings may be a single line no heavier than can be drawn conveniently with one ruling. For large-scale maps larger than 2' x 3' and for
as
it
is
all carefully
drawn
small-scale
maps
may
inner fine
line, the
an outer heavy line and an the space between the two. The distance
consist of
62
edge of the heavy line is taken as one one-hundredth of the length of the shorter border line of the map, as shown in Fig. 49. In all cases make the corners plain, as shown. 102. Conventions. A meridian arrow is drawn not to ornament the map but to show A single the direction of the meridian (true or magnetic) with respect to the plotted lines.
from the
the outer
of an arrow are put on the line to magnetic meridian, only, is known, a single arrow gives its direction; in which case "Mag. N." is printed above the head, or "MagWhen the true meridian is known the magnetic netic Meridian" along the shaft of the arrow. meridian is usually also known, and their directions are indicated by a double arrow, as shown in The half head and half tail are used on the line of the magnetic meridian. The angle .Fig. 50. between the two meridians, the "declination of the needle," is printed as shown. The length of the arrow should be equal to that of the hypothenuse of that triangle which is of the most convenient size for drawing the longer lines of the map. The arrow is placed on the largest clear In case of lack of clear space, the arrow is placed on the space not set off for the title. drawing proper, in such a position that it will neither cover nor confuse important details. Drawn Scale. Fig. 48 shows a scale of simple design, well suited to ordinary maps and to working drawings. In Fig. 44 are shown conventional section linings for cast iron, steel, Metal Sections. wrought iron, and brass*
straight fine line answers
it
this
purpose.
tail
make
little
more conspicuous
If the
* Section linings for other metals are given in books on Machine Drawing. In Rheinhardt's '"Technic of Mechanical Drafting" will be found about seventy conventions, covering the various materials dealt with in Civil and Mechanical Engineering.
INTRODUCTION TO DRAFTING.
63
terminates in arrow-heads whose points touch the lines A break is left in the middle of the dimension line for the insertion of which limit it. The arrow-heads should be uniform in size and shape. In case there the dimension figures. room for the arrow-heads placed in the usual way, they are reversed and placed is not enough
dimension
For
full
dimension
lines, see
shown dotted in Fig. 42. In Fig. 43, under shown full. These are more quickly drawn than broken lines, and offer fewer chances for mistakes in reading a drawing where projection There is no danger of confusing the full dimension and proor dimension lines are crowded. jection lines with the outlines of the drawing when the former are made very fine and the latter are made heavy (for shaded outlines) and medium (for unshaded outlines), as shown.
Projection lines (called also reference lines) are " Style C," the projection and dimension lines are
15.
Lettering Applied
to
Drafting.
The
Vertical and
;
each
suit-
but
it
is
on
and the Vertical and reference characters (Fig. 42). The letters may be compressed to save Roman letters should be used on space, or extended to give greater prominence (Figs. 35, 42). all drawings for which the above styles are not appropriate. 104. Size and Position of Letters and Figures. The height of the descriptive letters and dimension figures throughout a drawing should be uniform and not less than 3 mm. (^ ") for
:
same drawing
descriptive lettering,
capitals.
(')
A
in
this
line
dimension number is printed in the direction of its dimension line, and in the space left When a dimension number is too large for the space which it for this purpose.
would naturally occupy, it is placed in the nearest sufficiently large blank space and connected with its dimension line by a dotted line which ends in an arrow-head or heavy period (Figs. Numbers on vertical lines are printed so as to be read from the right-hand edge 38, 42, 44).
of the sheet.
which they belong, if possible otherwise in of sufficient size, and connected to the part by a dotted line which terblank space the nearest minates in an arrow-head at the part. When descriptive words are printed along vertical lines, they are so placed as to be read from the right-hand edge of the sheet. Unless there is reason for giving lines of letters and figures some slope, they are made
Descriptive words are printed along the part to
;
horizontal.
Whether the pencil drawing is to be inked letters carefully draw the and figures in pencil on the original should or traced, the beginner drawing, using guide lines (Nos. 1, 3, 6, 8 of Fig. 34). For drawing the guide lines, make four marks, properly spaced, on the edge of a triangle. Place the marked edge in such a position on the drawing that lines drawn perpendicular to this edge through the marks will be correctly located to serve as guide lines for a line of letters or figures. Another and quicker method is to cut two parallel rectangular slots in a visiting card, piece of heav} drawing-paper or thin sheet-metal, in such a way that the upper and lower edges of the two slots will serve as straightedges along which to draw correctly spaced guide lines. 106. The Title of a Drawing. A title for a drawing should be designed by one who appreciates what will be required of the drawing by those who are to use it. The common rule
r
is
to
embody
name
its location,
the persons
for
and by
whom
INTRODUCTION TO DRAFTING.
the object
quire a
is
65
and the date. A drawing may, however, regiven in Fig. 37, or as complex as the following: "Survey of the Made in obedience to acts of Congress Northern and Northwestern Lakes and orders from Headquarters of the Corps of Engineers, War Department. the Chart of the Northern and
constructed, the scale of the drawing,
title
as simple as that
||
||
||
||
of the Northwestern Lakes Compiled from the data U. S. Lake Survey. Scale 1:18,000,000. Compiled and drawn by Edward Moliter. Published in 1879. Scale of Statute Miles."
|| ||
||
||
||
||
||
is
border of the drawing. The vertical spacing of the lines of letters of a title is made less than indicated in Fig. 36 whenever the space available for the title is restricted. The title is placed on both ends of drawings which are long and narrow, e. g., profiles and On drawings which are to be filed in drawers, the title is usually placed in the route maps. right lower corner. On miscellaneous drawings the title is placed on the largest blank space
In
tracing,
it
will, at first,
guide lines with pencil before inking the letters and figures.
parts of each
Special
effort is
required to
make
Beginners are apt to produce, on tracwhich are faint at one or both ends. This may be because the strokes are made with irregular pen pressure, or because not enough time is given the ink to take hold of the cloth. The tracing-cloth should be kept pressed firmly against the board where the pen is working, to prevent the tails and blots which are apt to be formed on each stroke by the cloth's rising and following the pen as the latter is lifted at the end of a stroke.
ing-cloth,
lettering-pen
After a certain amount of practice in lettering, the formal penciling of letters may be omitted on the original and inked properly on the tracing by sliding a slip of paper, marked with lettering guide lines, underneath the cloth to the proper position.
J.
C. L. Fish
Fig. 13
Figs. 1-16
Sheet
FlG
/ Thumb-tack
(Not
draw
to scale)
~7~
Edge of paper-
Q*O
"rl^
1^
Cut out redangk edca when 9
plate
is
e
be
Side View
End I
Cone-Poinf
(FullSize)
Chisel- Point
(Full Size)
completed.
<u
*% k
i
Draw
is
done.
Correct
Incorrect
Ql
"*+
rlG.
No
=
-e-
12"
t>
Fio.16
Fig. 12
rlG.
\0
(Not
line
drawn
to scale)
full line
(Drew
<?<?
Darder
fqhi -</
l
Plate
f
Dash
line
(Dn
( Draw
like this)
_ Dot line
Dash-dot
line
Ilk
Ihls)
<^
this)
7\
U
/\
Z^
k
(Draw
3 like
j
Fig.
Medium Lines
(fort
FlG.
Heavy
Lines
(for Plate 2)
Fig.
Fine Lines
(for Plate
J)
4
/y
i
Fig.
Fig.
Fig.
Fie.
Fig. 10
handle slopes inward
Fig.
II
Correct
Incorrect
r
VII
A;
Screw
not J. toedgeofgu/ofe.
^7
\k
h
J.
C. L. Fish
Fig.
To detach Pencil-leg
17-25
:
Sheet
II
loosen clamp-
>*
o
While,
iCi
ing screw
b,ack
**%.
/eg,
To use Lenatbenincj-bar:
drawing o
cirde,thr needle
should be
kepi, as nearly
to
as possible,,
* The
Fi6. 18
\
center
\
compass leg socket; insert shank of penal or pen leg in socfiet of bar} tighten both clamping screws,
shank
in
^
c i
perpendicular
the
on which
it
rests lighfy.
is
OTHERWISE
the
a
\
LAR6EH0LE
60U6ED IN
PAPER
the
at the
circle center,
and
precise center
is tosh.
hand
<^
t?**
j with pencil
'.
//
Jo'fy
~"=sr ^
Lengthening
using Irregular
Curve as a guide
Divider
Fio.23
Nib of Ruling-Pen
French
or rregular
Showing
results
Corrosion r/h/'ch
care/ess cleaning
from
of the Blades.
Curve
Nibs, inside
Bow
Fie. 19
Divider
Fie 20
Fie.
24
pen.
J.
C. L. Fish
Figs. 30-41
']
Sheet
III
WINTVtFMUCCA
hesss:
LSi)rvHyRrHTy^ Vit tinTTrH--^hThg
2
-C.M.& S-t-tH^
"BFnpnn^BnrEDiNfi Dfpt
Fio.39
Fig.
40
5tflndn rrrrrnr
3
o
9"
2
SccE
E
19 31
5E
BoatSpike
,-x20
7"
on"
Fio.41
Drift Bolt
Fie.
36
.--4X
-fx 30^"
Bolt
^K
Scale
H(ilf'5t7Fr
anger
2
I2VI27 14''
Fio.37
Fie.38
O.Pine
Oak Packing
Uj-ry-bj-g'g--^
Half
Bfks2M4
'
Augusl Preen
']
Transverse Section
V~
ComDreSSed uootu
'
^7^
(?/7
^7
drawing
Exte.nde.cd Lette-rinq J
is
used for
Emph as /s
\s -\- zz t^r?-^
(
! '
'
Fie.
35
ai)cde qh
[
ik
mrH)pqr^ uvwxy y
l
AKCD1-
?/*'"," /- GuiDE
^n,J*lhhiil<lmnnn tFstiwwxy
Fl6.
30
J.
C.
L.
Fish
Figs.
42-50
Sheet
IV
li^-h
T
47
Fig
48
100
I ' i
Scale ^o"
ZOO
$00
I
400
I
Ft
ii
_L
8
Threads
^jjj.--
lw-
,N
a-
w 49
/? Threads
Fig
per Inch
42
Machinery Steel
per Inch
Apron Stud
For
Fig
Fig
43
Style
a Mop
IS
1
of
VJhen using
Scale
The Figures
1,2. 3, etc,
for
a
to
Style B
Style
Inch
are
Map
the
Dimension Line
Projection Line
/,'
=
1000,'..
divided
into
divided
into
to
be read
5 cal(
10' 100,'
20,
30,
/O equalpart
tO equalparti
I'XXetc
10,
? J
3,
4,
200, 2000,..
500, 5000,.
4000,..
20 30
20,
30
1=10' 1=100'
"
>
"
40, 400,
Shaded
Fig.
5, 6,
40 50 60
>
20
"
'
"
44
Steel
Fig.
Cast
Iron
45
On a Map drawn
to the
Scale
l"=l'
AB = 2'
,,-10.
"
l"=l&
AC=3.'8, ^=38'.
_
On Map
"
to
Scale 1=100',
'
ttti'i'm
mm
it
jTf viTi v
yr
"rfrrf
in it
i"
i"
vrrriTiTr|ti
"i
tti
ENGINEER'S SCALE
The prominent
Fig
number
ex,
3rass
Wrought
Iron
46
^.A'^li'-This distance is read "l FOOT" 8 $jT-7ha distance is read "I INCH"
!
On a drawing of'which the scale is "-/' CD=5,' The lower figures have to do with the unit t=^') divided
nC
Q,r~F
- i~i~> _
o?
^A
IO
\0
II
12 13
14
"f
\Z
ARCHITECT'S
\\
SCALE
to
a 3
si